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JUNIOR II-B
JUNIOR II-E
JUNIOR II-W
Instruction Manual and Spare Parts Catalog
Instruction Manual Junior II
i
INTRODUCTION
This manual contains operating instructions and mainten
ance schedules for the high pressure breathing air com
pressor unit
WARNING
! Pneumatic high pressure system !
The breathing air produced with the compressor units de
scribed in this manual is subject to strict quality standards.
Ignoring the operating and maintenance instructions can
lead to severe injury or death.
This compressor has been built in accordance with the EC
machine regulations 2006/42/EG. Specifications on the noise
level in accordance with the machine and product safety law
as of 01.05.2004 and the EC machine regulations, chapt. I,
section 1.7.4. The machine has been built according to the
highest standard of technology and the generally acknowl
edged safety standards. Nevertheless, operation could still
cause danger for the operating personnel or third parties, or
result in damage to the machine and other values. The ma
chine may only be used to produce compressed air as speci
fied in this manual. Other use is strictly prohibited.
All instructions should be observed and carried out in the or
der laid down to prevent damage and premature wear to the
equipment.
The manufacturer and the supplier void all responsibility for
damage or injury resulting from failure to follow these
instructions.
Edition October 2013
2013 BAUER Kompressoren GmbH, München
All rights reserved
Original language: german
Junior II
A
B
C
Instruction Manual Junior II
ii
Dear customer
We are happy to give you advice on any questions regarding
your BAUER compressor and help as soon as possible with
any arising problems.
You can contact us Mondays to Thursdays from 08
00
till
16
30
, Fridays from 08
00
till 14
00
on phone no. (089) 78049-0.
If you call the following extensions directly, it will save you
time and continuous dialling.
Do you want to order spare parts?
Customer service
Phone no: (089) 78049-129 or -149
Fax no: (089) 78049-101
Do you have problems with maintenance or repair work?
Technical customer service
Phone no: (089) 78049-246 or -176
Fax no: (089) 78049-101
Do you need further information regarding your unit, ac
cessories, prices etc.?
Sales department
Phone no: (089) 78049-138, -185, -154, -205 or -202
Fax no: (089) 78049-103
Are you interested in any training courses?
Training manager
Phone no: (089) 78049-175
Fax no: (089) 78049-103
Explanation of the short operating instructions on the unit
Read instruction manual before op
erating unit
chapter 3.
Check oil level on compressor and
petrol engine before operating unit
chapter 4.4.1.
Drain condensate at least every 15
minutes (3 locations)
chapter 4.4.3. and 4.4.4.
Position units with petrol engine
with exhaust in wind direction to
prevent exhaust fumes being sucked
in by the compressor
chapter 3.
Petrol driven units must not be oper
ated indoors.
chapter 3.
Position unit level: max. inclination
5
chapter 3.
Operate unit only at ambient tem
peratures between +5 and +45 C
chapter 3.
Keep away from hot surfaces on
motor and compressor
chapter 2.
Wear ear protectors when unit is
running
chapter 2.
Instruction Manual Junior II
iii
CONTENTS
1. GENERAL 1............................
2. SAFETY MEASURES 7....................
3. LOCATION, OPERATION, BOTTLE FILLING 11..
4. MAINTENANCE 20.......................
5. STORAGE, PRESERVATION 37..............
6. REPAIR INSTRUCTIONS 38.................
7. TABLES 39..............................
8. ANNEX 41..............................
INDEX
A
Air flow diagram, 4
Automatic condensate drain, 30
B
B-Timer, 16
C
Change-over device, 15
Cooling system, 34
D
Dispose of condensate, 31
Drive system, 30
E
Electrical system, 32
F
Filling procedure, 13
Filter system, 22
I
Intake filter, 21
Intermediate separator, 21
Intake air quality, 13
L
Location, 11
Lubrication, 20
M
Maintenance, 20
Motor protection switch, 32
O
Oil change, 20, 21
Operation, 11
P
Preservation, 37
Pressure gauge, 27
Pressure switch, 33
Pressure-maintaining valve, 27
R
Repair instructions, 38
S
Safety valves, 27
Shut-down, 15
Storage, 37
T
Tables, 39
Technical data, 5
Telescopic intake tube, 21
Trouble-shooting, 35
V
Valves, 28
ANNEX
Schematic diagram motor protection switch, three phase current 76942-S1
Schematic diagram compressor with controller, three phase current e_02380414
Schematic diagram compressor with controller, alternating current e_02380366
Lubricating oil list 70851
Applicable parts list TJ-5/0
Instruction Manual Junior II
iv
NOTES
Model:
Serial No..:
Date of purchase:
Dealer address / phone no.:
Instruction Manual Junior II
1
1. GENERAL
PURPOSE
The JUNIOR II breathing air compressor is designed to com
press air for breathing as required in diving applications. The
max. allowable operating pressure (adjusted pressure on
final pressure safety valve) is 225 bar or 330 bar.
DESIGN
The compressor unit comprises the following major assem
blies:
- compressor block
- drive motor
- filter system P21
- filling assembly
- base plate and frame
- automatic condensate drain unit
a)
- Compressor controller
a)
- Change-over device PN200/PN300
a)
The design of the compressor system is shown in Fig. 1 to
Fig. 5.
2
4
3
1
5
6
7
8
9
16
15
14
13
10
11
12
1 Filling valve with pressure gauge, PN200
2 Filling valve with pressure gauge, PN300
3 Final pressure safety valve, PN300
4 Final pressure switch, PN200
5 Final pressure switch, PN300
6 Condensate separator/silencer
7 Condensate drain valve, last stage
8 Condensate drain tap
9 Condensate drain valve, 2nd stage
10 Final pressure safety valve, PN200
11 Pressure maintaining valve
12 Change-over valve
13 B-Timer
14 Filter system P21
15 V-belt cover
16 Compressor controller
Fig. 1 Compressor unit with electric motor, automatic condensate drain unit and change-over device
a) Option
Instruction Manual Junior II
2
11
12
13
17
1
3
8
4
10
6
5
7
2
9
14
15
16
1 Filling hose
2 Exhaust
3 Air filter
4 Tank
5 Throttle lever
6 Choke lever
7 Fuel cock
8 Starter rope
9 Engine stop switch (ignition)
10 Filling valve with final pressure gauge
11 Safety valve, final pressure
12 Filter system P21
13 Final pressure switch
14 Condensate drain valve, last stage
15 Condensate drain valve, 2nd stage
16 Condensate separator/silencer
17 Timer
Fig. 2 Compressor unit with petrol engine and automatic condensate drain unit
1
2
4
3
6
7
5
10
1 Filling hose
2 Filling valve with final pressure gauge
3 Compressor controller
4 Electric motor
5 Fanwheel cover
6 Safety valve, final pressure
7 Final pressure switch
8 Condensate drain valve, last stage
9 Condensate drain valve, 2nd stage
10 Condensate separator/silencer
8
9
Fig. 3 Compressor unit with electric motor and automatic condensate drain unit
Instruction Manual Junior II
3
1 Filling hose
2 Filling valve with pressure gauge
3 Motor terminal box
4 Three-phase motor
5 Final pressure safety valve
6 Handle
7 Fanwheel cover
8 B-Timer
9 Condensate drain valves
10 Mains plug with ON-OFF switch and motor
protection circuit breaker (dep. on country)
6
1
2
4
3
5
7
8
9
10
Fig. 4 Compressor unit with electric motor (three-phase current)
1 Filling hose
2 Filling valve with pressure gauge
3 Motor terminal box with ON-OFF switch
4 Single-phase motor
5 Final pressure safety valve
6 Handle
7 Fanwheel cover
8 Pressure maintaining valve
9 Condensate drain valves
6
1
2
4
3
5
7
8
9
Fig. 5 Compressor unit with electric motor (alternating current)
Instruction Manual Junior II
4
AIR FLOW DIAGRAM
See Fig. 6 . The air is drawn in through telescopic tube
(necessary for units with petrol engine), intake filter A3; com
pressed to final pressure in cylinders B1, B2, B3; recooled by
intercoolers W1, W2, and aftercooler W5. The pressures of
the single stages are protected by safety valves U1, U2, U5.1.
The compressed air is pre-cleaned in intermediate separator
-8 and purified in filter system P21 (D5 + D13). Intermediate
separator D2 and filter system P21 are drained by means of
condensate drain taps V5. Pressure maintaining valve R7 pro
vides a constant pressure within the filter assembly. The com
pressed, purified air is passed through filling hose Z21 and fill
ing valve V3 or V2 to the bottles to be filled. Filling pressure
is indicated at pressure gauge P12. With the change-over de
vice it is possible to fill bottles with 200 bar nominal pressure,
just by opening valve V9 at filling valve V2. Safety valve U5.2
is adjusted to a blow off pressure of 225 bar.
On models witch automatic stop device, final pressure switch
F16 stops the compressor by reaching the adjusted filling
pressure.
On models witch automatic condensate drain unit, filters are
regularly drained through solenoid valve Y2 and condensate
drain valve C2 during operation. Condensate drain tap V5.4
is used to drain manually the filter system P21. The drained
air is separated from condensate in separator D11 and lead
back to the atmosphere through silencer Z3.1.
Main line
Control line
Condensate
Feedback,
venting
Option
Oil
A3 W1B1 B2
U1
W2 D2
U2
P21
W5B3
Z21.1
Z19
P12.1
V3
Z21.2
Z18
P12.2
V2
Y2
C4
V5.4
V5.3*
N2
C2
Z3.1
D11
F16.1
V9
F16.2
U5.1 U5.2
D5
D13
R7
V5.1*
V5.2*
Fig. 6 Air flow diagram
A3 Intake filter
B1 Cylinder 1st stage
B2 Cylinder 2nd stage
B3 Cylinder 3rd stage
C2 Condensate drain valve 3rd stage
C4 Condensate manifold
D2 Intermed. separator 2nd stage
D5 Oil and water separator
D11 Condensate separator
D13 Purifier
F16.1 Final pressure switch, PN300
F16.2 Final pressure switch, PN200
N2 Nozzle
P12.1 Pressure gauge PN300
P12.2 Pressure gauge PN200
P21 Triplex filter system
R7 Pressure maintaining valve
U1 Safety valve 1st stage
U2 Safety valve 2nd stage
U5.1 Final pressure safety valve PN300
U5.1 Final pressure safety valve PN200
V2 Filling valve, PN300
V3 Filling valve, PN200
V5.X Condensate drain tap
V9 Change-over valve PN200/PN300
W1 Inter-cooler 1st stage
W2 Inter-cooler 2nd stage
W5 After-cooler
Y2 Condensate drain valve 2nd stage
Z3.1 Silencer
Z18 Filling connector, PN200
Z19 Filling connector, PN300
Z21 Filling hose
* On units without automatic condensate drain only
Instruction Manual Junior II
5
TECHNICAL DATA
Compressor unit JuniorII-B JuniorII-E JuniorII-W
Medium breathing air
Intake pressure atmospheric
Delivery
a)
100 l/min. (3,5 Scfm, 6 m
3
/h)
Operating pressure PN200/PN300
Pressure setting, final pressure safety valve 225/330 bar
Pressure setting, pressure maintaining valve 160 bar
Sound (immersion) power 97 dBA) 95 dB(A)
Dry weight, max. 52 kg 53 kg 53 kg
Dimensions (LxBxH), standard unit 760x410x415 mm 655x360x415 mm 655x360x415 mm
Dimensions (LxBxH), Anlage with automatic
condensate drain
880x410x415 mm 760x430x480 mm 760x430x480 mm
Compressor block Junior, mod. 3
Number of stages 3
Number of cylinders 3
Cylinder bore 1st stage 60 mm
Cylinder bore 2nd stage 28 mm
Cylinder bore 3rd stage 12 mm
Piston stroke 24 mm
Speed 2,300 min
-1
Intermediate pressure 1st stage 6-7 bar
Pressure setting, safety valve 1st stage 10 bar
Intermediate pressure 2nd stage 40-60 bar
Pressure setting, safety valve 2nd stage 80 bar
Compressor block oil capacity 360 ml
Oil volume between min. and max. marks 50 ml
Oil type see chapter 4.4.1. lubrication
Max. ambient temperature +5 ... +45 C
Air outlet temperature ambient temperature + 20 C
Max. inclination of compressor
b)
5
Max. operating height 0 ... 1500 m above sea level
Compressor drive JuniorII-B JuniorII-E JuniorII-W
Drive motor Petrol engine Three phase current
motor
Alternating current
motor
Power 4,2 kW (5,7 PS) 2,2 kW (3 PS) 2,2 kW (3 PS)
at nominal speed 3.600 min
-1
2.900 min
-1
2.850 min
-1
Operating voltage ___ 400 V, 50 Hz 230 V, 50 Hz
Nominal current ___ 4.6 A (400V/50Hz) 13.2 A (230V/50Hz)
Type of enclosure ___ IP55 IP55
Size ___ A90 L A90 L
Type of construction ___ B3 B3
a) free air delivered at bottle filling from 0 to 200 bar "5%
b) these values are valid only if the oil of the compressor in normal position corresponds with the upper mark of the oil dipstick and may
not be exceeded.
Instruction Manual Junior II
6
Compressor unit JuniorII-B JuniorII-E JuniorII-W
Filter system P21
Residual moisture content < 10 mg/m
3
Residual oil content < 0,1 mg/m
3
Pressure dew point -20°C, corresponds to 3 mg/m
3
at 300 bar
Filter capacity 0,57 l
Automatic condensate drain unit Scuba diving version
Type dual
Control voltage 24 VDC
Intervall switching (closed / open) 15 min / 6 sec
c) Option
WARNING
Instruction Manual Junior II
7
2. SAFETY MEASURES
2.1. NOTES AND WARNING SIGNS
Notes and warning signs displayed on compressors accord
ing to model, application or equipment.
WARNING
Hot surfaces, do not touch!
Danger of burning by touching cylinders,
cylinder heads and pressure lines of individ
ual compressor stages.
WARNING
High voltage!
Life threatening danger of electric shock.
Maintenance work on electric units or op
erating equipment may only be carried out
by a qualified electrician or by a person
instructed and supervised by a qualified
electrician according to electrical regula
tions.
WARNING
Automatic compressor control, unit may
start-up without warning!
Before carrying out maintenance and re
pair work, switch off at the main switch or
disconnect from the mains and ensure unit
will not restart.
MANDATORY
Instructions must be read by persons oper
ating the machinery!
The instruction manual supplied and all
other applicable instructions, regulations
etc. must be read and understood by oper
ating personnel before using the machine.
MANDATORY
Hearing protectors must be worn!
Hearing protectors must be worn when
working on a machine which is running.
NOTE
Ensure correct direction of rotation!
When switching on the machine, check the
arrow to ensure correct direction of rota
tion of the drive motor.
2.2. IDENTIFYING THE SAFETY NOTICES
Important instructions concerning the endangerment of per
sonnel, technical safety and operating safety will be specially
emphasized by placing the following signs before the in
structions.
This notice is used with maintenance
work and operating procedures and
must be adhered to exactly in order to
avoid endangering personnel.
This notice must be complied with in order to
avoid damage to or destruction of the machine
or its equipment.
This notice advises of technical requirements
which the operator must take particular note
of.
2.3. FUNDAMENTAL SAFETY NOTICES
2.3.1. Authorized use
The machine / unit is built according to state of the art
technology and established safety technical regulations.
Nevertheless, its use can cause danger to life and limb of
the operator or third parties or damage to the machine
and other equipment.
Operate the machine / unit only in technically perfect
condition in accordance with regulations and safety and
danger notices detailed in the instruction manual! In par
ticular, immediately correct faults (or have them cor
rected) which can impair safety!
The machine / unit is exclusively for the compression of
mediums (air/gas) specified in section A, chapter 1.3.
“Technical data”. Any other medium or use outside that
specified is not authorized. The manufacturer / supplier is
not liable for damage resulting from this. The user alone
is responsible for this risk. Authorization for use is also
under the condition that the instruction manual is com
plied with and inspection and maintenance requirements
are enforced.
2.3.2. Organizational measures
Keep the instruction manual to hand near the machine /
unit at all times in the relevant holder.
In addition to the instruction manual, observe and com
ply with universally valid legal and other obligatory re
gulations regarding accident prevention and environ
ment protection. See chapter 2.4. This can involve, for
example, contact with hazardous substances or the
provision / wearing of personal protective equipment.
Personnel engaged to operate the machine must have
read the instruction manual before beginning work, es
Instruction Manual Junior II
8
pecially the safety notices chapter. When work is already
underway it is too late. This is particularly relevant for
temporary personnel, e.g. maintenance personnel.
Personnel may not wear long hair loose, loose clothing or
jewellery, including rings. There is a danger of injury
through, for example, these getting caught or being
pulled into the equipment.
As far as necessary or according to regulations, use per
sonal protective equipment.
Observe all safety and danger notices on the unit.
Keep all safety and danger notices on the machine / unit
complete and in readable condition.
If there are any modifications to the unit or operating
conditions which may affect safety, stop the unit immedi
ately and inform the person responsible of the fault.
No modifications may be made to the unit which could
impair safety without first obtaining permission from the
suppliers. This is also the case with regard to installation
and adjustment of safety devices and valves as well as
welding of piping and reservoirs.
Spare parts must always comply with the technical re
quirements specified by the manufacturer. This is always
guaranteed with original spare parts.
Piping must be thoroughly checked (pressure and visual
inspection) by the operator at appropriate time intervals,
even if no safety related faults have been noticed.
Intervals stipulated or given in the instruction manual for
recurring checks / inspections must be adhered to.
Make sure location and operation of fire extinguishers is
known.
Pay attention to fire warning and fire fighting procedures.
2.3.3. Qualifications, fundamental duties
Work on / with the unit may only be carried out by reliable
personnel. Observe the legal minimum age permissible.
Ensure that only trained personnel work with the ma
chine.
Establish the responsibilities of the machine operator and
establish a procedure for him to inform a third person of
unfavourable safety conditions.
People who are being trained or introduced to the job
should only be allowed to work with the unit under con
stant supervision of an experienced person.
Work on the electrical equipment of the unit may only be
carried out by a qualified electrician or by an instructed
person under the direction and supervision of a qualified
electrician according to electrotechnical regulations.
2.3.4. Safety notices for operation
Do not carry out any work if safety is questionable.
Meet all requirements demanding that the unit is only op
erated in safe and good working order. Only operate the
machine if all protective and safety equipment, e.g. all de
tachable protective equipment, emergency shut-down
devices, soundproofing is provided and in good working
order.
At least once every day, check the unit externally for dam
age and faults. Inform the person responsible immedi
ately if anything is not as is should be (including oper
ation). If necessary, shut the machine down immediately
and make it safe.
Observe switching on and off processes and monitoring
indications according to the instruction manual.
Before switching on / starting up the unit, ensure that no
one can be put at risk through running the unit.
Carry out the setting, maintenance and inspection pro
cesses at the intervals specified in the instruction manual,
including replacement of parts / equipment. This work
may only be carried out by qualified personnel.
Clear and make the maintenance area safe as far as
necessary.
If the unit is completely switched off for maintenance and
repairwork, ensure that it is protected from unexpected
start-up. Turn off main control device and remove the key
and / or display a warning sign on the main switch.
When replacing individual parts and larger assembly
groups, they must be carefully fastened to the lifting de
vice so that there is no risk of danger. Use only suitable
and technically perfect lifting devices and equipment
with sufficient lifting power and strength. Do not linger
or work under suspended loads.
Only entrust an experienced person with the fixing of
loads and guiding of crane drivers. The person guiding
must remain within sight or in contact with the operator.
For assembly work above body height, use appropriate
safety approved equipment, e.g. ladders and platforms.
Do not climb on machine parts. For maintenance work at
high levels, wear a safety harness.
Clean oil, fuel or care products from the machine, in par
ticular the connections and screw joints, before carrying
out maintenance / repairwork. Do not use aggressive
cleaning fluid. Use a fibre-free cleaning cloth.
Before cleaning the machine with water or jet of steam
(high pressure cleaner) or detergent, cover / seal all open
ings which for safety and/or operating reasons no water
/ steam / detergent may penetrate. Electric motor and
switch cabinets are particularly at risk.
When cleaning the operating room, ensure that the tem
perature sensors of the fire alarm and sprinkler system do
not come into contact with hot cleaning fluid, in order to
avoid triggering the sprinkler system.
Completely remove all covers / seals after cleaning.
After cleaning, check all pressure lines for leaks, loose
connections, wear and damage. Immediately eliminate
any faults.
Always retighten any screw connections loosened for
maintenance or repairwork.
If it is necessary to remove safety devices for maintenance
and repairwork, these must be replaced and checked im
mediately after completion of the maintenance or repair
work.
Instruction Manual Junior II
9
Ensure safe and environmentally friendly disposal of con
sumables and old parts.
2.3.5. Particular areas of danger
Use only original fuses with specified current rating. If
there is a failure in the electric energy supply, shut the unit
down immediately.
Work on electric units or operating equipment may only
be carried out by a qualified electrician or by a person
under the instruction and supervision of a qualified elec
trician according to electric technical regulations.
Machines and unit parts which must undergo inspection,
maintenance and repairwork, must be disconnected
from the mains supply, if specified. Parts which have been
disconnected must first be checked for voltage, then
earthed and short-circuited and isolated from live neigh
bouring parts.
The electrical equipment of a unit must be regularly
checked. Defects, such as loose screw connections or
burnt wires, must be rectified immediately.
If work is to be carried out on live parts, work with a sec
ond person who can operate the emergency off switch
or the main switch in the case of an emergency. Close off
the work area with a red and white safety chain and a
warning sign. Only use voltage isolated tools.
Only personnel with particular knowledge and experi
ence with pneumatics may carry out work on pneumatic
equipment.
Check all pressure lines, hoses and screw connections
regularly for leaks and visible damage. Immediately repair
any damage. Escaping air under pressure can cause injury
and fire.
Depressurize system and pressure lines before commenc
ing repairwork.
Pressurized air lines must be laid and mounted by quali
fied personnel. Connections must not be mixed up. Fit
tings, length and quality of the piping must correspond
to requirements.
Soundproofing equipment on the unit must be in place
and functional during operation.
The stipulated hearing protectors must be worn.
With regard to oil, grease and other chemical substances,
observe the relevant safety regulations for the product.
For loading, only use lifting device and equipment with
sufficient lifting power and strength.
Use only suitable transporters with sufficient carrying
power. Secure the load properly. Use suitable fixing
points.
If necessary, provide unit with transportation brackets.
Display the appropriate notice. Remove transportation
brackets in the correct manner before taking into oper
ation.
Parts which need to be dismantled for transport purposes
must be carefully replaced and secured before taking into
operation.
Even when moving the unit only slightly, the unit must be
disconnected from all external energy sources. Before
putting into use again, reconnect the machine to the
mains according to regulations.
When taking back into operation, proceed according to
the instruction manual.
2.3.6. Notices of danger regarding pressure vessels
Never open or loosen pressure vessel lids or pipe connec
tion parts under pressure; always depressurise the vessel
or the unit.
Never exceed the permissible operating pressure of the
vessels!
Never heat the vessels or any of their parts above the
stated, maximum operating pressure.
Always exchange damaged pressure vessels completely.
Individual parts that are subject to pressure loads cannot
be purchased as spare parts, since the vessels are tested
as a complete part and the documentation considers
them as a whole (see pressure vessel documentation,
serial-numbers!).
Always pay attention to the permissible operating mode
of the pressure vessels.
We differentiate:
- vessels for static load
- vessels for dynamic load
Vessels for static load:
These pressure vessels are permanently under virtually
constant operating pressure; the fluctuations of pressure
are very small.
Vessels for this type of load are not marked in a particular
way and may be used as long as the vessel inspections,
carried out regularly, do not uncover any safety-relevant
deficiencies.
We recommend that aluminium vessels should be
exchanged after 15 years at the latest.
Vessels for dynamic load:
These pressure vessels may also be used under conditions
of changing operating pressure. The pressure may vary
between the atmospheric and the maximum admissible
operating pressure.
The pressure vessel documentation and the appropriate
notes in the operating manual particularly characterise
vessels of this type as being adequate for dynamic loads.
In the technical information for these vessels you will find
specifications concerning their permissible operating
period.
Due to the variation of the operating pressure, these
vessels are subject to a so-called dynamic load, which
puts the vessels under great stress. The change between
two different pressures is called a load change or cycle.
In the technical information for these vessels you will find
specifications concerning the permissible number of
cycles depending on the fluctuation of the operating
pressure.
Having reached half the permissible number of cycles, the
vessel has to be submitted to an internal check, in which
Instruction Manual Junior II
10
the critically stressed areas of the vessels are examined by
means of suitable testing methods, in order to ensure the
operating safety.
After having reached the total permissible number of
load cycles, the vessel must be exchanged and scrapped.
Record the number of load cycles in writing if you do not
have an automatic cycle-counter.
We recommend that aluminium vessels should be
exchanged after 15 years at the latest.
Please pay attention to and follow these measures, for
your own safety and that of you employees and cus
tomers!
In order not to unnecessarily load the pressure vessels
additionally, the non-return valves, that are meant to
avoid a drop in pressure, and also the pressure maintain
ing valves, which should reduce big pressure fluctuations
as well, should be checked regularly for internal and ex
ternal tightness and functionality.
Check the pressure vessels regularly on the inside and
outside for damage from corrosion.
Be particularly careful with second-hand pressure vessels,
when their previous operating mode is not specifically
clarified.
2.4. SAFETY REGULATIONS (EC; partly Germany,
only)
A compressor is identified by German law as being a filling
system if pressure cylinders are filled by the system, especially
when these cylinders are made available for third parties. The
start-up and operation of compressor systems for use as fill
ing stations is governed by the following regulations:
Pressure vessel directive (Directive 97/23/EC) of
29.05.1997
Operating safety regulations (BetrSichV) of 27.09.2002
Machine safety law (GSG) of 11.05.2001
14th regulation to machine safety law (14. GSGV - pres
sure vessel regulation) of 03.10.2002
If a high pressure compressor is used for filling pressure
vessels or for the supply of pneumatic systems, the following
regulations apply:
Accident Prevention Regulations (UVV):
BGV A1 of 01. January 2004
Copies of the above regulations are available through the
usual outlets, e.g. in Germany from:
Carl Heymanns Verlag
Luxemburger Str. 449
50939 Köln
Beuth-Vertrieb GmbH
Burggrafenstr. 4 - 7
10787 Berlin
The manufacturer has complied with all applicable regula
tions and the unit is prepared accordingly. If desired, we offer
at our Munich site a partial acceptance test according to §
14 BetrSichV. Please contact our Technical Service Depart
ment with regard to this. They can also supply our leaflet
“IMPORTANT NOTES FOR CERTIFICATION”.
According to the operation safety regulations (BetrSichV), all
compressor units which will be used as filling stations must
undergo an acceptance test by a professional at their loca
tion before bringing them into service. If pressure vessels
(bottles) are to be filled by the compressor for a third party
then the appropriate permission must be obtained from the
responsible authority before the acceptance test. As a rule,
this is the factory inspectorate. The procedure for obtaining
permission is according to TRG 730, guidelines for per
mission to set up and operate filling stations. The test certifi
cates and documents delivered with the compressor are im
portant and may be requested during the procedure for ob
taining permission. In addition, the documents belonging to
the unit are important for recurrent inspections and should
therefore be carefully kept.
Inspections in accordance with the regulations for preven
tion of accidents will be carried out by the manufacturer or
by a specialist.
No guarantees whatsoever are valid for damage caused or
favoured by the non-consideration of these directions for
use.
We strongly emphasize these regulations.
WARNING
WARNING
WARNING
WARNING
Instruction Manual Junior II
11
3. LOCATION, OPERATION, BOTTLE FILLING
LOCATION
Never operate the compressor in
potentially explosive atmosphere!
Keep unit away (min. 2m) from in
flammable items. Do not smoke
while petrol tank is open and while
unit is in operation.
Outdoor location
The compressor unit is not seawater resis
tant. At operation in salty air spray com
pressor with anticorrosive protection (e. g.
Quicksilver Corrosion Guard). Electric
driven units should be operated and stored
below deck. Units with petrol engine should also be
stored below deck after the filling process.
- Locate the unit level.
- On units with petrol engine it is most important that only
clean air be used, position compressor in direction of
wind so that exhaust fumes are blown away from the
unit. Please use the provided telescopic intake tube. See
Fig. 7 and chapter 4.4.2. This arrangement will ensure
necessary spacing between exhaust outlet and air inlet.
Fig. 7 Outdoor location
WIND
Exhaust
- Turn unit as soon as wind direction changes.
- Take care that no vehicles are in direct vicinity with en
gines running.
- Do not operate unit in the vicinity of open fire (flue gas!).
Indoor location
Petrol driven units must not be oper
ated indoors.
- Ensure adequate ventilation.
- Here too, air must be free from exhaust fumes and haz
ardous vapours (e.g. smoke, solvent vapours, etc.).
- If possible install unit in such a manner that the com
pressor fan can get fresh air from outside, for instance
through an opening in the wall.
- Ensure that an adequate exhaust air opening is provided.
- When locating the compressor in small rooms where
natural ventilation is not ensured, measures must be
taken to provide artificial ventilation (this also applies
when other systems having high radiation are operating
in the same room).
Electrical installation
For installation of electrical equipment observe the follow
ing:
- Comply with regulations of local electricity supply com
pany.
- Arrange for the electrics to be connected by an electri
cian only.
- Ensure correct installation of protective conductor.
- Check conformity of motor tension and frequency with
those of electric network.
- Operate electric units only on mains sockets equipped
with fault current circuit breaker according to DIN VDE
0664 with a nominal differential current of less than 30
mA (up to 16 A in single-phase AC circuits).
- For units not connected through a plug, but permanently
installed, a main switch must be provided which has a
contact gap of minimum 3 mm on each pole.
- Fuse motor correctly; use slow-blow fuses, only.
- Immediately after start-up check direction of rotation for
agreement with arrow on unit.
If power supply cable is to be replaced, use
cable of same type, only!
- When using extension leads or cable drums, operate unit
with unwound cable, only to avoid overheating and risk
of fire. The maximum length for extension cables at nor
mal ambient temperatures (approx. 20 C) is 25 metres.
The power plug must be easily
accessible and separable to shut
down quickly the unit in case of
emergency.
WARNING
Instruction Manual Junior II
12
OPERATION
Preparation for operation
All compressor units are tested prior to de
livery to the customer, so after correct in
stallation of the unit there should be no
problem putting it into operation, observing the fol
lowing points:
The compressors described in this
manual are not suitable for com
pression of oxygen. EXPLOSION oc
curs if an oil lubricated compressor is operated with
pure oxygen or gases with an oxygen content of more
than 21%!
Due care must be taken to ensure that any
oil which may be drained with the
condensate will not pollute the
environment. For example, the drain pipe can be
directed into a collecting vessel or into drain facilities
incorporating oil separators. Dispose of condensate
according to local regulations!
- Prior to first operation read Instruction Manual carefully.
Make sure that all persons handling the compressor and
the filling station are familiar with the function of all con
trols and monitors. Particularly observe chapter 2
SAFETY REGULATIONS.
- After taking unit into operation after a standstill period of
2 years or more change compressor oil. When using a
mineral oil change oil after one year.
- Prior to first operation or operation subsequent to repair
work operate unit for at least 5 minutes with open con
densate valves (pressureless) to ensure proper lubrication
of all parts before pressure is built up.
- Prior to each operation check the oil level according to
chapter 4.4.1. and determine whether maintenance is
necessary in accordance with chapter 4.3.
- Every time the unit is started up check all systems for
proper operation. If any malfunction is observed stop unit
immediately and find the cause of the fault or call the ser
vice department.
Units with three phase current motor, additionally:
- Immediately after switching on the system for the first
time check the direction of rotation of the motor for com
pliance with the arrow on the unit. If motor turns in the
wrong direction, the phases are not connected properly.
Shut down unit immediately and interchange two of the
three phase leads in the switch box. Never change leads
at the motor terminal board.
Units with compressor controller monitor automatically
the direction of rotation of the motor. In case of wrong
direction the red warning lamp E1 (1, Fig. 9) lights up and
the power supply for the motor is cut off. Disconnect the
unit from the power supply and interchange two of the
three phase leads in the plug. Never change leads at the
motor terminal board or at control box.
Units with petrol engine, additionally:
- Check engine oil level according to manufacturer's in
struction manual.
- Check fuel tank. Top up if necessary.
Starting the unit
- Open condensate drain taps on the filters to release pres
sure so that motor starts without load. On units with
automatic condensate drain the compressor is
depressurized automatically.
Fig. 8 Opening the condensate drain taps
Units with electric drive motor:
- Three-phase current: the motor is switched on man
ually by setting the switch (Fig. 9) to 1.
- Alternating current: Set 0-I switch to I.
Fig. 9 Starting electric units
1
WARNING
WARNING
WARNING
WARNING
Instruction Manual Junior II
13
Units with petrol engine:
- Open fuel shut-off valve (1, Fig. 10).
- Set ignition switch to I (2)
- Set choke to position START (3). Start engine with rope
starter (4). As soon as motor runs smoothly return choke
to normal operating position.
Fig. 10 Starting petrole units
All units
- Close condensate drain valves and run unit to final pres
sure. Check final pressure safety valve and pressure
gauge.
- As soon as final pressure is reached and final pressure
safety valve blows off, open condensate drain taps and
drain condensate - unit is ready for filling operation. Ob
serve regular condensate drain acc. to chapter “Mainten
ance”.
FILLING PROCEDURE
General
Ensure intake air is free from
noxious gas (CO), exhaust fumes and
solvent vapour. On units employing
petrol or diesel engine it is most important to use an
intake hose and observe that only clean air is drawn in.
The intake hose is also recommended for units with
electric engine. When operating the unit in areas with
possibly high CO contents, the CO removal filter car
tridge is recommended for electric driven units, also.
Note that for CO contents of more than 25 ppmV in the
intake air the allowed limits cannot be guaranteed even
with a CO removal filter cartridge, resulting in a life-
threatening CO concentration! Also, due to chemical re
action of CO with hopcalite, warming up of the car
tridge and danger of fire may result.
Filling hoses must be in satisfactory
condition and threads undamaged.
Pay particular attention to damage
on the interface from hose fitting to hose. If the casing
is scored, hose must be discarded.
Never open unconnected filling
valves while they are under
pressure. Risk of accident from
escaping high pressurised air!
The filling valve connection is of the manual type and permits
connection to air tanks without using tools. An O-ring is pro
vided for self-sealing due to internal overpressure. Com
pressed air tank filling valves for a pressure in excess of 200
bar are standardized (DIN 477, sheet 5) and connectors for
200 and 300 bar are different and cannot be mixed up. The
use of adapters is not allowed!
To ensure safe air tank removal after filling, the valve has an
integral venting bore. Therefore always close tank valve first
before closing filling valve. During filling procedure bottles
will warm up due to recompression. After removing, allow to
cool down, bottles may then be reconnected and topped up
to the respective maximum filling pressure.
To meet the CO
2
maximum rating
value in breathing air bottles, please
observe the two following chapters
”Intake air quality” and ”Scavenging the compressor
unit”.
Intake air quality
At routine tests, CO
2
values beyond the permissible values
are noted from time to time. Closer investigations often
show that the compressed air is taken from rooms in which
one or more persons are working. At insufficient ventilation,
the CO
2
value in the surrounding air can increase quite fast
because of the exhaling of CO
2.
CO
2
values from 1,000 to
5,000 ppmv in workrooms are not unusual (MAK-value (max.
workroom concentration) is 5,000 ppmv). Another addi
tional increase is caused by cigarette smoking, producing ap
prox. 2g CO
2
( 2,000 ppmv) per cigarette. These pollutions
add up to the basic pollution of approx. 400 ppmv. The
technically caused excessive increase of CO
2
during the filling
process and the CO
2
peak at taking the unit into operation.
Because of the reasons stated above and for your own
security, the filling of breathing air bottles is not al
lowed in rooms used as workrooms.
Scavenging the compressor unit
CO
2
is present in the atmosphere with a natural amount of
350 to 400 ppm
V
. The molecular sieve used in the purifier for
drying the breathing air is, as well as other capabilities, able
to adsorb CO
2
which is accumulated in the cartridge. After
shut-down of the compressor, adsorbed CO
2
may be de
sorbed again due to the partial pressure decrease. The now
free CO
2
then gets washed out of the cartridge when the
compressor is started again. To avoid increased CO
2
con
tents in the compressed breathing air, we recommend to
flush the compressor unit 1 to 2 minutes prior to connecting
the bottles, i.e. to let the air escape into the surroundings
through the filling valve.
Instruction Manual Junior II
14
Connecting the bottles
On models of 300 bar rated filling pressure
do not attach bottles unless rated for this
pressure (note pressure stamped on tank
neck).
- Connect air bottle to filling valve (see Fig. 11).
- Air bottles with international filling connector can be
connected with filling adaptor (part no. 79375) to the
German filling connector (see Fig. 12).
The international connector is not per
mitted in the Federal Republic of Germany.
In other countries it is allowed only for
pressures up to 200 bar (2,850 psi).
Filling the bottles
- Open filling valve (1, Fig. 13).
- Open bottle valve (2) - bottle will be filled. Drain conden
sate regularly during filling. On units with automatic con
densate drain check that condensate is drained regularly.
The filling procedure should not be inter
rupted for more than 10 minutes to avoid
increased CO
2
-values in the air filled into
the bottles.
Removing the bottles
- Upon reaching final bottle pressure close bottle valve
first (1, Fig. 14), then filling valve by returning handle
to closed position (2).
- Remove compressed air bottle.
Fig. 11 Connecting air bottle
Fig. 12 International filling connector
2.
1.
Fig. 13 Filling air bottle
Fig. 14 Removing air bottle
2.
1.
Instruction Manual Junior II
15
CHANGE-OVER DEVICE PN 300/PN 200
(Fig. 15) This device allows bottle filling to 200 bar
(3,200 psig) with a 300 bar (4,700 psig) rated unit. Safety
valve -B and filling device PN 200 bar are connected by open
ing change-over valve -A and the connected bottles can be
filled with a 200 bar pressure, as described in ”Filling the
bottles”.
Depressurize unit before opening valve -A
to avoid damage to the change-over de
vice
Fig. 15 Change-over device
B
A
SHUT-DOWN PROCEDURE
- Close filling valve.
Units with electric motor:
- Three-phase current: the motor is switched off by turn
ing the switch to 0.
- Alternating current: set 0 - I switch to 0.
Units with petrol engine:
- Shut down petrol engine by turning the ignition switch to
“0”.
All units:
- Drain condensate from intermediate separator and
Triplex filter by means of the drain taps. Vent unit by
means of filling valve to approx. 80 bar (1,150 psi). Close
all valves again to prevent moisture entering the filter and
resulting saturation of the cartridge.
- Check the oil level in the compressor and top up, if
necessary. Also check whether the compressor needs
servicing in accordance with maintenance schedule - see
chapter 4.3.
1 Key symbol (maintenance due)
2 Alphabet (type of maintenance)
3 Battery symbol
4 Cartridge saturation display
5 Operating hours or cartridge no.
6 Selection keys
7 Entry keys
Fig. 16 B-Timer
1
2
3
4
5
6 7
Instruction Manual Junior II
16
B-TIMER (option)
Introduction
Read these operating instructions carefully before using the
B-TIMER. (Valid for devices from version 300.301.811
onwards).
The settings in the setup menu are critically
important in terms of the ability to display
the filter capacity correctly. Without these
settings, the B-TIMER can only be used as an operating
hours counter!
Ensure that the compressor’s pressure
retention valve is set to 160 bar (factory
setting, refer to chapter 4.4.5.) and that it is
functioning correctly, otherwise the filter capacity may
be displayed incorrectly and the operation may not,
under certain circumstances, be detected correctly.
Before delivery, ensure that all the
maintenance counters (a+b+c) have been
reset. (Otherwise, the B-TIMER signalises
incorrect maintenance intervals, since the storage
times are not taken into consideration.) If the items in
question have not been reset, it must be done without
delay. Refer to the ‘Reset’ chapter.
DESCRIPTION
The B-TIMER (Fig. 16) is a self-activating mini-computer that
keeps track of the compressor’s operating hours and
calculates the filter cartridges’ lifetime with the help of the
time, the temperature, the type of cartridge and the delivery
quantity of the compressor. It displays the operating hours,
the cartridge’s service life and the compressor’s upcoming
maintenance-related tasks. The B-TIMER needs neither an
external power supply nor a connection to the compressed air
system. It is mounted on the enclosure of the filter to be
monitored with the help of a fastener and is thus the ideal
monitoring device for all mobile compressors. It is particularly
well-suited for sport-diving devices that are powered by either
gasoline or diesel fuel. Any system can easily be retrofitted
with the B-TIMER.
Intended usage
This device serves solely as an appliance that can be used to
display the operational status and does not release the user
from the additional responsibility to monitor and measure the
breathing air quality of the filter system in accordance with
national norms (e.g. EN 12021). This cannot be done with the
B-TIMER.
The B-TIMER may only be used with BAUER compressors,
BAUER processing plants and original BAUER filter
cartridges. It has only been designed and approved for the
following BAUER filter systems: P21, P31 and P41. The
respective cartridge numbers are contained in the software.
Every other type of utilisation counts as utilisation that is not
in accordance with the regulations. Damages resulting from
such utilisation are subject to the manufacturer’s/supplier’s
risk exclusion, warranty exclusion and liability exclusion
policies.
Fig. 17
Fig. 18 Battery
Fig. 19
Fig. 20
1
2
Instruction Manual Junior II
17
Be mindful of the application limits of the device:
Working temperature: 0C to +50C
Storage temperature: -20C to +70C
Protection class: IP65 (protection against contact, dust-proof,
Protection against hose water)
Vibration, $3 g when in operation,
Max. humidity: 95%; non-condensing
Method of functioning
The B-TIMER display displays the following functions:
Operating hours of the compressor plant. A blinking ‘h’
indicates that the compressor-operation has been
detected (subject to a 5-minute delay).
Cartridge life in % via 4 segments in the filter-cartridge
symbol.
When the remaining capacity reaches or falls below 20%
of the total lifetime, the final segment starts blinking and
the figure displayed for the operating hours switches over
to the cartridge’s order number.
The compressor plant displays the upcoming
maintenance-related tasks with the help of alphabets and
figures displaying the operating hours.
A = 500 hours or 1 year
B = 1000 hours or 2 years
C = 2000 hours or 4 years
A battery symbol is used to indicate that the lithium battery
is weak and must be replaced. The data is saved and is
not lost when the battery is changed.
The B-TIMER is operated with the help of the entry and
selection keys.
Error display
If the temperature sensor in the device malfunctions, ‘Error 1’
or ‘Error 2’ comes up at the display (Fig. 17). In such a case, use
of the B-TIMER should be discontinued. Send the device to the
factory for repairs, or send it to the next agency.
Battery replacement
The battery (1, Fig. 18) is placed in the battery compartment.
To replace the battery, withdraw plug (2) and pull the battery
out of the battery compartment. Make sure you use a battery
of the same type (BAUER order number 82743).
Operation
The B-TIMER switches itself on when the
compressor is activated. The fact that the
compressor is in operation is indicated by
the blinking ‘h’ symbol.
To switch on the B-TIMER without putting the compressor into
operation, press one of the buttons on the display: the main
menu is displayed (Fig. 19).
If no button is actuated for 1 minute, the
display reverts to the main menu. The
B-TIMER switches itself off if the
compressor-operation is not detected in 2 minutes.
Fig. 21
Fig. 22
Fig. 23
Fig. 24
Fig. 25
Instruction Manual Junior II
18
Functional display
Press the selection button to display the
desired function ().
Press the button. The remaining filter capacity is displayed
(Fig. 20).
Press the button. The number of operating hours lying
between the point in question and service interval A
(500hours or yearly) is displayed (Fig. 21).
Press the button. The number of hours remaining before
service interval B (1000 hours or every two years) is displayed
(Fig. 22).
Press the button. The number of hours remaining before
service interval C (2000 hours or every four years) is displayed
(Fig. 23).
Press the button. The filter-cartridge number is displayed
(Fig. 24). The filter icon blinks.
Press the button. The display reverts to the main menu.
Reset
The filter capacity may only be reset after
the cartridge has been replaced!
To reset the filter capacity or the A, B and C service intervals,
hold the button down for more than 5 seconds when the
respective display has been activated (Fig. 25).
Fig. 26
Fig. 27
Fig. 28
Instruction Manual Junior II
19
Setup
To navigate to the setup menu of the various functions of the
B-TIMER, hold down the and  buttons simultaneously for
more than 5 seconds when the cartridge number is being
displayed (Fig. 24). The filter icon starts blinking (Fig. 26),
which indicates the setup mode.
The applicable filter cartridge no. is set under setup A. To
change the article number, hold down the  button for
3seconds, after which the number starts blinking. Use the
button to set the desired number. Use the  button to
accept the number in question.
Article numbers beginning with 999 must
be set in a special manner.
Hold down the  button for 3 seconds, and then enter
999000 with . The last 0 starts blinking. Appoint the
corresponding digit with and accept it with . When the 2nd
zero starts blinking, appoint the digit as described above, and
carry out the same procedure for the 3rd digit.
When the button is pressed, the display switches over to
setup B (setting of the delivery quantity).The filter icon starts
blinkingFig. 27. The delivery quantity (in l/min.) can be found
in the compressor’s instruction manual. To change the
configuration, hold down the  button for 3 seconds, after
which the 1st digit starts blinking. Use the button to set the
desired number. Use the  button to accept the number in
question and repeat the same procedure until all three digits
have been set correctly.
When the button is pressed again, the display switches over
to setup C (setting of operating pressure). The filter icon starts
blinking (Fig. 28).
To change the operating pressure, hold down the  button
for more than 3 seconds. Press the button to enter the new
operating pressure. (Options: 200 bar, 300 bar or
200/300bar). Press the  button to confirm the new setup.
The filter capacity must be reset after the
setup preferences have been entered and
a new filter cartridge has been inserted.
Refer to the ‘Reset’ section.
When the button is pressed again, the display switches
over to the setup menu for the operating hours. Press the
button for 2 seconds, after which the last digit starts
blinking. Use the button to appoint the desired digit and
press the button. Repeat this procedure until all the digits
have been entered. Repeated actuation of the button leads
the system back to the main menu. Pressing the
and
 buttons (for 2 seconds) makes it possible to repeat
thesetup procedure.
WARNING
WARNING
WARNING
WARNING
Instruction Manual Junior II
20
4. MAINTENANCE
4.1. MAINTENANCE RECORD
We recommend that all maintenance work is recorded in the
service book, showing the date and details of the work car
ried out. This will help to avoid expensive repairwork caused
by missed maintenance work. If it is necessary to claim
against the warranty, it will help to have proof that regular
maintenance work has been carried out and that the dam
age has not been caused by insufficient maintenance. Please
refer to section 23 of our general terms and conditions.
4.2. MAINTENANCE INSTRUCTIONS
Always shut down and decompress
the complete system prior to carry
ing out any work on the compres
sor.
Never repair pressure lines by sol
dering or welding.
Replace and check for function all
protection and safety equipment
after maintenance or repair work.
Check weekly fixation and condition
of all protection equipment. Retight
or replace fastening screws if
necessary.
Check the complete system for leakage
from time to time by brushing all fittings
and couplings with soapy water or spray
ing with leak test spray. Repair any leak
age.
Only use original spare parts for mainten
ance or repair work.
Change TRIPLEX longlife cartridge accord
ing to chapter 4.4.4.!
The used cartridge must be disposed of ac
cording to local regulations.
Maintenance of drive motor/engine ac
cording to manufacturer's operating in
structions.
4.3. MAINTENANCE SCHEDULE
The maintenance schedule is contained in the service manual
delivered with every compressor unit.
4.4. MAINTENANCE WORK
This chapter contains the maintenance work as well as a
short functional description for each component.
4.4.1. LUBRICATION
TYPE OF OIL
For proper care and maintenance of the compressor, using
the correct oil is of vital importance. Depending on the ap
plication of the compressor the requirements placed on the
oil are:
- low deposits
- no carbonizing effect, especially in the valves
- good anti-corrosive properties
- emulsification of the condensate in the crankcase
- physiological and toxicological suitability.
Due to the thermal load on the compressor only high quality
oil should be used. You are recommended to restrict oils to
those which have been approved by us and are listed in our
lubricating oil list.
The current oil list is provided in the annex,
chapter 8. Order this list regularly through
the BAUER Technical Service Department.
For operation under difficult conditions such as continuous
running and/or high ambient temperatures we recommend
the use of BAUER high performance compressor oils, only,
according to the oil list. These oils are tested in our com
pressors and have proved excellent quality under ambient
temperatures between +5 C (41F) and +45 C (113 F). For
lower temperatures, a heating device is required which is ca
pable of pre-heating the crankcase up to +5 C (41 F).
For operation under less severe conditions, for intermittent
operation, or operation with long idle periods we can also
recommend mineral compressor oils which are suitable for
operation under ambient temperatures between +5 C (41
F) and +35 C (95 F). Here also, pre-heating is required for
lower temperatures.
OIL LEVEL CHECK
Check oil level daily prior to putting compressor into oper
ation. Check using oil dipstick.
Take care that dip stick is inserted completely. Note that the
oil level must be between minimum and maximum dipstick
markings (see Fig. 29).
Oil level must not decrease below min.
mark but also not exceed max. mark as this
will cause excessive lubrication of com
pressor and result in valves sooting up.
OIL CHANGE INTERVALS
Mineral oils every 1,000 operating hours,
at least annually
Synthetic oils every 2,000 operating hours,
at least biennially
Instruction Manual Junior II
21
OIL CAPACITY
Junior II approx. 360 ml
OIL PACKAGES
BAUER compressor oil is available in various quantities, refer
to oil list in chapter 8.
OIL CHANGE
- Run compressor warm.
- Remove oil dipstick.
- Drain oil while still warm by means of oil drain plug. Re
place the sealing, reinstall drain plug and tighten well.
- Refill with oil through the oil filler neck.
- Oil level is checked with oil dipstick, oil level is correct if
at upper mark.
Fig. 29 Oil dipstick markings
min.
max.
CHANGING THE OIL TYPE
To avoid severe damage to the compressor
unit when changing the oil type, the fol
lowing measures should be strictly ad
hered to:
Drain oil completely while still warm.
Check valves, coolers, separators, purifiers, and all
pneumatic tubes and hoses for deposits.
If deposits are detected, perform the following:
Change or clean valves, coolers, separators, purifiers,
and all pneumatic tubes and hoses from deposits.
Fill compressor with the new oil.
After approx. 100 operating hours check lubricating oil
for degree of contamination, and change oil again if
necessary.
Top up compressor and perform subsequent oil
changes with same oil, only.
4.4.2. INTAKE FILTER
DESCRIPTION
A dry micronic filter is used to filter intake air (Fig. 30).
Fi
g
. 30 Intake filter
1 Knurled nut
2 Plastic cap
3 Micronic filter cartridge
4 O-ring
5 Opening
5
4
3
2
1
INTAKE FILTER MAINTENANCE
Filter cartridge must be changed at regular intervals accord
ing to schedule in the service booklet.
- Remove knurled nut (1) and take off plastic cap (2). Re
move filter cartridge (3).
- Clean filter housing inside with a damp cloth. Take care
to prevent dust from entering intake pipe.
- Replace O-ring (4) if damaged.
- Insert a new filter element and fasten with cap and nut.
TELESCOPIC INTAKE TUBE
The telescopic intake tube has to be inserted in opening 5,
Fig. 30. It is necessary to ensure clean air. Petrol driven
breathing air compressor units are fitted with a telescopic in
take tube supplied with the unit. The use of it is also recom
mended for electric power driven units.
4.4.3. INTERMEDIATE SEPARATOR
DESCRIPTION
An intermediate separator is mounted on the compressor
between 2nd and 3rd stage. It is designed to remove water
and oil accumulating due to cooling the compressed medium
down after the compression process.
Separation is achieved by means of centrifugal action pro
vided by a vortex plate.
INTERMEDIATE SEPARATOR MAINTENANCE
Proper operation will rely on the intermediate separator
being properly serviced.
Open drain tap (1, Fig. 31) and drain off condensate every 15
to 30 minutes during operation.
Instruction Manual Junior II
22
Fig. 31 Condensate drain taps
1 2 3
4.4.4. FILTER SYSTEM P21
DESCRIPTION
The air leaving the final stage is cooled in the after-cooler to
approx. 10 - 15 C (18 - 27 F) above ambient temperature
and then enters filter system P21 with TRIPLEX longlife car
tridge (Fig. 32).
The filter assembly consists of separator and cartridge
chamber. In the separator surrounding the cartridge
chamber liquid oil and water particles are reliably separated
from the compressed medium by a pipe nozzle.
Residual oil and water vapors are then removed by the
TRIPLEX longlife cartridge. The quality of the breathing air
produced conforms to DIN EN 12021.
CARTRIDGE SAFETY BORE
The filter system P21 is designed to prevent pressurizing in
the absence of the filter cartridge. A bore provided in the
filter bottom is sealed air-tight only if the cartridge is in place
(Fig. 33).
No pressure build-up without cartridge!
Fig. 32 Filter system P21
1
10
2
3
4
5
7
6
8
9
11
1 Filter inlet
2 Jet pipe
3 Filter head
4 Final pressure safety valve
5 Housing
6 Chamber separator
7 Cartridge
8 Filter outlet
9 Pressure maintaining valve
10 Condensate drain tap
11 Condensate outlet
Without cartridge the venting bore is not sealed, the air es
capes into the atmosphere, no pressure can be built up and
thus it is ensured, that unfiltered air is not supplied to the con
suming device.
The venting bore is also used to check the O-rings on the car
tridge pin. If air is leaking out of the venting bore even
though a cartridge is installed, the O-rings are either broken
or were damaged on installation.
Remove and check cartridge. If necessary replace cartridge
or O-rings.
WARNING
Instruction Manual Junior II
23
Fig. 33 Safety bore
Venting bore
No cartridge
Cartridge installed
LIFETIME
The filter system is subject to dy
namic load. It is designed for a cer
tain number of load cycles, which
originate from an abrupt pressure loss at condensate
drain (1 load cycle i.e. condensate drain = 1 depressu
rization, 1 pressurization). The filter housing has to be
inspected internally by an expert after having reached
1/4 of the determined number of load cycles. The in
spections have to be arranged by the operator. After
reaching the max. number of load cycles the filter as
sembly must be replaced, otherwise the housing may
burst due to material fatigue.
The max. number of load cycles for the P21 Central Filter As
sembly is 4,000 if operated at the max. allowable pressure
difference range of 330 bar (4,700 psi). For a pressure differ
ence of 225 bar (3,200 psi) the max. no. of load cycles is
35,000.
To avoid exceeding the max. number of load cycles the oper
ating hours should be recorded in the service manual. On
condition that a max. number of four cycles per hour is not
exceeded (condensate is drained every 15 minutes) the max.
number of operating hours is 1,000 for 330 bar units, and
8,750 for 225 bar units.
GENERAL INSTRUCTIONS FOR FILTER MAINTENANCE
- Depressurize system before starting any maintenance
work.
- Dry inside of filter housing with a clean cloth before in
stalling new cartridge and check for corrosion. Change if
necessary.
- Lubricate threads and O-rings as well as threaded part
of cartridge with white petrolatum DAB 9 order no.
N19091 or WEICON WP 300 white order no. N19752.
- Record number of pressure bottles and/or operating
hours to ensure exact attention to maintenance intervals.
- Change cartridge before reactivating a compressor unit
after out-of-service periods of more than 3 months.
- Leave cartridge in the filter as long as unit is out of ser
vice.
- Keep all condensate drain valves and taps closed. Keep
a minimum pressure of approx. 50 to 80 bar (700 to 1,100
psi) within the system to prevent moisture entering the
compressor piping and filter system.
- The nozzle type separator of the TRIPLEX filter system is
maintenance-free besides the regular condensate drain
age.
CONDENSATE DRAINAGE
Drain condensate from separator and cartridge chamber
regularly by slowly opening drain taps (2 and 3, Fig. 31)
- before changing cartridge
- before each filling procedure
- during filling procedure every 15 minutes.
Slowly open left tap first, then right tap approx. 1/3 turn to
the left, until condensate is completely drained. The taps
close by spring pressure, if necessary tighten by hand to
make sure they are completely air-tight.
FILTER CARTRIDGES
New filter cartridges are vacuum-packed and can be stored
for two years (refer to date on the cartridge). A defective vac
uum package cannot protect the cartridge appropriately
against environmental influences during storage. Should the
package be damaged, do not use the cartridge.
To avoid any danger to your health or damage to your unit,
change used up cartridges in good time.
Never fill used up cartridges yourself! The filter material was
chosen specifically by BAUER-KOMPRESSOREN for each kind
of application.
Pay attention to cleanliness an hygiene when changing the
filter.
FILTER SERVICE LIFETIME
The average weight (without package) of a new cartridge
and the increase in weight can be checked with appropriate
weighing scales. Due to inevitable production tolerances,
there may be small differences compared to the given data.
The number of operating hours or the amount of possible
bottle fillings per filter cartridge can be determined by the
tables on page 25 and 26 taking into consideration the ambi
ent temperature and the cartridge used.
These tables contain calculated cartridge lifetime data, that
refer to defined and constant operating conditions. Toler
ances at bottle fillings and different operating temperatures
can lead to considerable divergences compared to data
given, which therefore can only serve as reference values for
the user.
Cartridge 057679 is the normal TRIPLEX-cartridge for elec
tric units.
Filling weight: 191 g; Saturation weight 205 g.
Example: at an ambient temperature of 20C, 36 to 45
10-ltr-bottles can be filled with a TRIPLEX-cartridge, which is
equivalent to 12 to 15 compressor operating hours at a filling
pressure of 200 bar.
On compressor units with petrol engines only use cartridge,
part no. 059183 to dry, de-oil and remove CO.
Filling weight: 217 g; Saturation weight 229 g.
Example: at an ambient temperature of 20C, 31 to 38
10-ltr-bottles can be filled with this cartridge, which is equiv
WARNING
Instruction Manual Junior II
24
alent to between 10 and 13 operating hours at a filling pres
sure of 200 bar.
The longer service life of the cartridge at a
filling pressure of 300 bar is annihilated by
the larger volume of filled air per bottle,
therefore the possible number of bottle fillings stays
the same at different pressures.
CARTRIDGE CHANGE
For safety reasons only CO removal
cartridges part no. 059183 should
be used on compressor units with
petrol engine. On units with electric engine either CO
removal cartridge part no. 059183 or TRIPLEX car
tridge part no. 057679 can be used.
Units with petrol engine are delivered with
CO removal cartridge part no. 059183 as
standard, units with electric engine with
TRIPLEX cartridge part no. 057679. When changing
from electric engine to a petrol engine also replace car
tridge part no. 057679 with cartridge part no. 059183.
Never remove replacement cartridge from
packaging prior to actual use otherwise
highly sensitive molecular sieve will ab
sorb water vapour from surrounding air and cartridge
saturated and thus be ruined.
- Prior to changing the filter cartridge, drain condensate
and depressurize filter system completely by opening
condensate drain valves.
- Remove filter head (3, Fig. 32).
- Extract old cartridge and insert a new one.
- Screw in filter head to the stop without use of force.
The used cartridge must be disposed of ac
cording to local regulations.
FILLING VALVE MAINTENANCE
To protect filling valve against contamination a sintered
metal filter is screwed in the filling valve body.
Remove filter insert and clean, if heavily soiled replace, as fol
lows (refer to maintenance schedule, 4.3.):
- Unscrew pressure gauge from filling valve body.
- Screw off sintered metal filter with a suitable screw driver.
- To clean filter element, the best method is to use hot
soapy water and to blow dry with compressed air. Re
place if heavily soiled.
- Screw in filter element,.
- Seal pressure gauge with PTFE tape or Loctite 243 and
screw in tight to desired position.
Instruction Manual Junior II
25
1. Filter cartridge 057679: lifetime [hours]
Filling pressure p = 200 bar
Junior II
Ambient temperature
tU [C]
Final separator temperature
tAb [C]
Delivery
Q [l/min]
100
10 20 - 24 26 - 21
15 25 - 29 20 - 16
20 30 - 34 15 - 12
25 35 - 39 11 - 9
30 40 - 44 9 - 7
35 45 - 49 7 - 6
40 50 - 54 5 - 5
Filling pressure p = 300 bar
Junior II
Ambient temperature
tU [C]
Final separator temperature
tAb [C]
Delivery
Q [l/min]
100
10 20 - 24 39 - 31
15 25 - 29 29 - 24
20 30 - 34 22 - 18
25 35 - 39 17 - 14
30 40 - 44 13 - 11
35 45 - 49 10 - 9
40 50 - 54 8 - 7
Filter cartridge 057679: bottle fillings [number] Molecular sieve mass mMS [g] = 68
Ambient
temperature
tU [C]
Final separa
tor tempera
ture
tAb [C]
Air humidity,
saturated
X [g/m
3
]
Processable air volume Va
[m
3
]
at pressure p [bar]
Number of bottle fillings n
acc. to bottle size
200 300 7 l 10 l 12 l
10 20 - 24 17,31 - 21,80 157 - 125 236 - 187 112 - 89 79 - 62 65 - 52
15 25 - 29 23,07 - 28,79 118 - 94 177 - 142 84 - 67 59 - 47 49 - 39
20 30 - 34 30,40 - 37,63 89 - 72 134 - 108 64 - 52 45 - 36 37 - 30
25 35 - 39 39,65 - 48,64 69 - 56 103 - 84 49 - 40 34 - 28 29 - 23
30 40 - 44 51,21 - 62,41 53 - 44 80 - 65 38 - 31 27 - 22 22 - 18
35 45 - 49 65,52 - 79,28 42 - 34 62 - 51 30 - 25 21 - 17 17 - 14
40 50 - 54 83,08 - 99,85 33 - 27 49 - 41 23 - 19 16 - 14 14 - 11
Bottle volume VF [m
3
]
Bottle size at pressure p [bar]
l [ltr.] 200 300
7 1,4 2,1
10 2 3
12 2,4 3,6
Number of bottle fillings n=
processable air volume / bottle volume = Va / VF
Bottle volume: VF [m
3
] = p [bar] x l [l] / 1000 [l/m
3
]
Processable air volume: Va [m
3
] = 0,2 x mMS [g] / (X [g/m
3]
/
p [bar]) = 0,2 x p [bar] x mMS [g] / X [g/m
3
]
Filter cartridge lifetime: tp [h] = Va [m
3
] / (Q [m
3
/min] x 60
[min/h])
Instruction Manual Junior II
26
2. Filter cartridge 059183: lifetime [hours]
Filling pressure p = 200 bar
Junior II
Ambient temperature
tU [C]
Final separator temperature
tAb [C]
Delivery
Q [l/min]
100
10 20 - 24 22 - 18
15 25 - 29 17 - 13
20 30 - 34 13 - 10
25 35 - 39 10 - 8
30 40 - 44 8 - 6
35 45 - 49 6 - 5
40 50 - 54 5 - 4
Filling pressure p = 300 bar
Junior II
Ambient temperature
tU [C]
Final separator temperature
tAb [C]
Delivery
Q [l/min]
100
10 20 - 24 34 - 27
15 25 - 29 25 - 20
20 30 - 34 19 - 15
25 35 - 39 15 - 12
30 40 - 44 11 - 9
35 45 - 49 9 - 7
40 50 - 54 7 - 6
Filter cartridge 059183: bottle fillings [number] molecular sieve mass mMS [g] = 58
Ambient
temperature
tU [C]
Final separa
tor tempera
ture
tAb [C]
Air humidity,
saturated
X [g/m
3
]
processable air volume Va
[m
3
]
at pressure p [bar]
Number of bottle fillings n
acc. to bottle size
200 300 7 l 10 l 12 l
10 20 - 24 17,31 - 21,80 134 - 106 201 - 160 96 - 76 67 - 53 56 - 44
15 25 - 29 23,07 - 28,79 101 - 81 151 - 121 72 - 58 50 - 40 42 - 34
20 30 - 34 30,40 - 37,63 76 - 62 114 - 92 55 - 44 38 - 31 32 - 26
25 35 - 39 39,65 - 48,64 59 - 48 88 - 72 42 - 34 29 - 24 24 - 20
30 40 - 44 51,21 - 62,41 45 - 37 68 - 56 32 - 27 23 - 19 19 - 15
35 45 - 49 65,52 - 79,28 35 - 29 53 - 44 25 - 21 18 - 15 15 - 12
40 50 - 54 83,08 - 99,85 28 - 23 42 - 35 20 - 17 14 - 12 12 - 10
Bottle volume VF [m
3
]
Bottle size at pressure p [bar]
l [ltr.] 200 300
7 1,4 2,1
10 2 3
12 2,4 3,6
Number of bottle fillings n=
processable air volume / bottle volume = Va / VF
Bottle volume: VF [m
3
] = p [bar] x l [l] / 1000 [l/m
3
]
Processable air volume: Va [m
3
] = 0,2 x mMS [g] / (X [g/m
3]
/
p [bar]) = 0,2 x p [bar] x mMS [g] / X [g/m
3
]
Filter cartridge lifetime: tp [h] = Va [m
3
] / (Q [m
3
/min] x 60
[min/h])
Instruction Manual Junior II
27
4.4.5. PRESSURE MAINTAINING VALVE
DESCRIPTION
A pressure maintaining valve is mounted at the outlet of the
filter system P21.
It ensures that pressure is built up in the filter even from the
start of delivery, thus achieving a constant, optimum filtra
tion. It will also guarantee proper working conditions for the
final stage cylinder.
The pressure maintaining valve is adjusted to 160 10 bar
(2,320 psi).
Fig. 34 Pressure maintaining valve
1
2
3
MAINTENANCE
The pressure maintaining valve (Fig. 34) is adjusted at the
factory to the required pressure and normally does not re
quire regular maintenance or readjustment. In case of read
justment becoming necessary, loosen jam nut (2) and set
screw (3). Adjust screw (1) to the required pressure using a
suitable screw-driver.
Clockwise = increase pressure
Counter-clockwise = decrease pressure
4.4.6. SAFETY VALVES
DESCRIPTION
All three compressor stages are protected by safety valves as
follows
1st stage 9,9 bar
2nd stage 80 bar
The safety valve for protection of the last stage is mounted
on top of the filter system P21 and is adjusted to the operat
ing pressure of the unit (see chapter 1, Technical Data), 225
bar for the standard units, 330 bar for models -H or -HU. All
safety valves are sealed at the factory.
If one of the intermediate pressure safety valves blows off,
the valves in the next stage are not closing properly, afford
ing valve check. The cause of the trouble is usually the inlet
valve of the next stage. See also chapter 4.4.8.
MAINTENANCE
Checking function
Bauer-Kompressoren, as the manufacturer, recommends
annual testing. We recommend replacement because in
termediate pressure safety valves can only be tested with
considerable expenditure. Replacement kits are available for
our compressors from the customer service.
The final pressure safety valve has to be checked regularly.
For this purpose the safety valve can be vented manually.
Turn knurled knob on top of the valve clockwise until valve
blows off (Fig. 35).
This just ensures that the valve is functional and will release
pressure in case of a malfunction. To check the blow-off pres
sure value refer to ”Blow-off pressure check”.
Fig. 35 Venting the final pressure safety valve
Venting
Checking blow-off pressure
Check blow-off pressure of the final pressure safety valve
regularly, see maintenance schedule chapter 4.3. Pump unit
to final pressure with shut-off valve closed until safety valve
blows off. Check blow-off pressure of safety valve at pressure
gauge. If deviation is 10% or more, replace safety valve.
We recommend that a final pressure set
ting of 80 % should not be exceeded, to
avoid damaging the safety valve.
4.4.7. PRESSURE GAUGE
DESCRIPTION
The compressor unit is equipped with a final pressure gauge
(Fig. 36). The red marking on it shows the max. allowable op
erating pressure.
Instruction Manual Junior II
28
Fi
g
. 36 Final
p
ressure
g
au
g
e
Mark
MAINTENANCE
We recommend that the final pressure gauge is checked
from time to time. For this purpose we have developed a
special test pressure gauge with an adaptor which immedi
ately recognizes any deviations in readings (see High Pres
sure Accessories Catalogue 8550/..).
Slight deviations during operation are normal and can be ig
nored. Excessive inaccuracy will require the pressure gauge
to be replaced.
4.4.8. VALVES
DESCRIPTION
The valve heads of the individual stages form the top part of
the cylinders. The intake and pressure valves are fitted inside
the valve heads. Note that the valves are operated by the
flow of the air.
On the suction stroke, the intake valves open and the air
flows into the cylinders. At the start of the compression
stroke the intake valve closes and the air opens the pressure
valve, Fig. 37.
Intake and pressure valve of the 1st stage is a plate valve
(Fig. 38).
INITIAL OPERATIONAL CHECK
After maintenance work on the valves, valves should be
checked. Note that the intake line to the valve heads should
be warm and outlet piping should be hot. Valves are then op
erating properly.
Fig. 37 Valve operation
Intake Pressure
Fi
g
.
38
V
a
lv
e
1
st
stage
Intake sidePressure side
Top view
from intake fil
ter
to 2nd stage
N4860F98
GENERAL INSTRUCTIONS FOR CHANGING THE VALVES
- Always replace valves as a complete set.
- Observe the correct sequence when fitting together
again.
- Check individual components for excessive wear. If the
valve seat and valve disks are dented, replace the valves.
- Valve head screws must be tightened with a torque
wrench (see tightening torque values chapter 7.).
- Check the valve space in the valve heads for dirt and
clean, if necessary.
- 30 minutes after restarting the compressor stop unit,
let it cool down to ambient temperature and retighten
valve studs and cap nuts. Otherwise valves could work
loose due to setting of the gaskets.
- Use only satisfactory gaskets and O-rings on reassembly.
- After finishing all maintenance work on the valves, turn
the compressor manually using the flywheel and check
whether all items have been correctly installed.
Instruction Manual Junior II
29
CHANGING THE VALVES OF THE 1ST STAGE
Intake and pressure valves of the 1st stage are combined in
one plate valve under the valve head, see Fig. 39.
1 Valve head
2 Gasket
3 Plate valve
4 O-ring
5 Valve head screw
6 Washer
7 Nut
Fi
g
. 39 Valve head 1st sta
g
e
5
6
7
2
3
1
4
- Loosen two cap nuts from tube connectors at valve head
and safety valve connector and remove inter-cooler.
- Remove four valve head screws (5) from valve head (1).
Take off valve head.
- Remove gasket (2) and plate valve (3).
- When re-installing the valve, check that mark ”S” is facing
upwards and towards intake filter side. The crossbar of
gasket (2) seals the intake opening with respect to the
two outlet openings of the pressure valve.
CHANGING THE VALVES OF THE 2ND STAGE
Both, pressure and intake valves can be serviced from out
side, see Fig. 40.
- Remove two captive nuts (1) and spring-washers (2).
- Remove plate (3).
- Remove valves (4) and (7) using two screw-drivers as
shown in Fig. 42.
- Assemble in reverse sequence. Position spring-washers
with curved side facing upwards. Fasten nuts so that plate
(3) is parallel to the valve head. Torque with 10 Nm (1
kpm).
Fi
g
. 40 Valve head 2nd sta
g
e
1 Nut
2 Spring-washer
3 Plate
4 Pressure valve
5 O-ring
6 Valve head
7 Intake valve
8 Valve head screw
CHANGING THE VALVES OF THE 3RD STAGE
On this valve head, the valves are arranged on the upper and
lower side due to the small diameter of the 3rd stage, see
Fig. 41.
For removal and installation of the intake valve (4) use special
tool which is also part of the tool set delivered with the unit.
Pressure valve (3) is merely inserted into valve head (5). It is
sealed by O-ring (2) and fixed to the valve head by bolt (1).
Fi
g
. 41 Valve head 3rd sta
g
e
1 Torque stud
2 O-ring
3 Pressure valve
4 Intake valve
5 Valve head
6 Valve head cover
7 Allen screw
8 Gasket
Change intake and pressure valve of 3rd
stage together only.
Remove of 3rd stage pressure valve (3) according to Fig. 41.
Instruction Manual Junior II
30
- Unwind torque stud (1) a couple of turns.
- Remove allen screws (7), take off valve head cover (6).
- Put two screwdrivers into the groove of pressure valve
body (Fig. 42). If necessary turn valve loose at first using
a 13 mm spanner on the flat surfaces.
- Lift out pressure valve (3) together with O-ring (2).
Reinstall pressure valve (3) in reverse sequence:
- Check O-ring for abrasion and replace if necessary. Put
O-ring (2) into valve head (5).
- Insert pressure valve (3). Install valve head cover (6).
- Fasten valve head with allen screws (7) and washers (8).
- Screw in torque stud (1) with 20 Nm (2 kpm).
Fig. 42 Removal of 3rd stage pressure valve
4.4.9. COMPRESSOR DRIVE SYSTEM
DESCRIPTION
The compressor is driven by the drive motor through a V-belt.
The motor is mounted on the base plate and requires adjust
ment for proper V-belt tension.
Improper v-belt tension and adjustment of
the pulleys will result in extreme v-belt ab
rasion and premature wear.
MAINTENANCE
Checking the drive belt tension
- The best tension for a belt drive is the lowest possible,
where the belt under full load does not slip. A rough value
for this is when the belt deflects 10 mm when pressed
with thumb pressure between the two pulleys (Fig. 43).
For best results we recommend our v-belt tension meter,
part no. N25238.
V-belt tension adjustment
- Slightly loosen motor mounting nuts
- Adjust motor until the belt tension is correct (see Fig. 43).
- Tighten motor mounting nuts.
- Run motor for approx. 5 minutes. Stop motor, check V-
belt tension, and readjust if required.
- Check that after tension adjustment and tightening the
motor mounting nuts, both pulleys are in a straight line
to avoid excessive wear of the V-belt. Hold a straight edge
against compressor and motor V-belt pulleys as shown in
Fig. 44: edge must be parallel to the v-belt.
Fig. 43 Checking V-belt tension
10 mm
Fig. 44 V-belt pulley adjustment
4.4.10. AUTOMATIC CONDENSATE DRAIN (OPTION)
DESCRIPTION
The automatic condensate drain unit (Fig. 45) drains the
intermediate separators and the oil and water separator
after the last stage every 15 minutes during operation. In
addition, the automatic condensate drain is designed to
drain these filters after shut-down of the compressor unit
and to unload the compressor during the starting phase.
The automatic condensate drain system operates electro-
pneumatically and comprises the following main items:
One solenoid valve, normally open type, functioning as
condensate drain valve after the 2nd stage
One pneumatically operated condensate drain valve,
normally open type for the oil and water separator after
the last stage
A condensate manifold
A condensate separator/silencer
An electrical timer (in the control box on electric models)
The normally open condensate drain valves are connected in
cascade mode. The condensate from the intermediate
separator after the 2nd stage is applied to the solenoid valve.
The solenoid valve is normally open. The condensate from
the oil and water separator and purifier is applied to the
pneumatically operated condensate drain valve. Before
compressor start-up, the solenoid valve is open and the
Instruction Manual Junior II
31
condensate drain valve is open as well because there is no
control air available at this moment. At start-up of the
compressor, the solenoid valve is energized and closes: due
to build-up of pressure by compressor operation, control air
flows into condensate drain valve. The servo-piston is
pressed onto the valve seat and the condensate drain valve
closes. The compressor builds up pressure and delivers to the
consuming devices.
Every 15 minutes, 3/2-way solenoid valve is deenergized for
approx. 6 seconds by the timer. The solenoid valve opens and
drains the condensate from the 2nd stage intermediate
separator. Due to the pressure loss in intermediate separator
the control pressure for condensate drain valve for the
TRIPLEX filter is also removed. The servo-piston of the
condensate drain valve is unloaded, the control pressure
vented through the relief port. The piston of the drain valve
is raised by pressure from the filter, the valve opens, and
condensate is drained. After 6 seconds, the solenoid valve
closes again, control pressure builds up at drain valve, and
the valve closes.
CONDENSATE DRAIN PIPING AND COLLECTOR
The outlet opening of the condensate drain manifold is
connected to a condensate drain separator. It separates the
condensate from the air escaping together with the
condensate from the filters. The air passes through a silencer
and is released into the open air.
Due care must be taken to ensure that any oil which may be
drained with the condensate will not pollute the
environment. For example, the drain pipe can be directed
into a collecting vessel or into drain facilities incorporating oil
separators.
Dispose of condensate according to local
regulations!
MAINTENANCE
The condensate drain valve for the oil and water separator
is fitted with a manual drain valve to check correct operation
of the automatic system.
- Open the manual drain valve (10, Fig. 45) once a week.
This must be carried out immediately after the automatic
system has drained the condensate. Observe the drainage of
condensate when opening the manual drain valves. If the
system drains a lot of condensate this is a sign that the system
or the corresponding condensate drain valves are not
working properly or that condensate drain intervals are to
long. Find the fault and remedy accordingly. If hardly any
condensate emerges, the automatic system is operating
properly. For fault correction, see also chapter 4.5. ”Trouble-
shooting”.
1
5
2
3
4
Fig. 45 Automatic condensate drain unit
1 Condensate drain valve, 3rd stage
2 Manual drain tap
3 Solenoid valve, condensate drain 2nd stage
4 Timer (petrole unit)
5 Condensate separtor/silencer
Instruction Manual Junior II
32
4.4.11. ELECTRICAL SYSTEM
DESCRIPTION
This section describes the standard electrical system. The
amount of built-in components varies depending on order.
For schematic diagram, see annex.
The electrical equipment of the compressor unit consists of:
- drive motor
- electric control system/motor protection switch
To start the electric motor and enable the functioning of the
electric control, the following components are essential:
- main switch and main fuse, both to be installed by the
customer.
DRIVE MOTOR
The compressor unit is driven by an alternating or a three
phase current motor by means of a V-belt.
MOTOR PROTECTION SWITCH (ALTERNATING CUR
RENT MOTOR)
Protection of the motor is ensured by the releases integrated
into the motor protection switch (1, Fig. 46). The response
value is preset.The motor is switched on manually by pressing
the 0-I switch to I. For safety of the operating personnel all
voltage carrying parts have a protective cover.
Fi
g
. 46 Motor
p
rotection switch (alternatin
g
current)
1
MOTOR PROTECTION SWITCH (THREE-PHASE MOTOR)
The motor is switched on manually by turning the switch to
1 (Fig. 47). It is switched off manually by turning the switch
to 0.
For safety of the operating personnel all voltage carrying
parts have a protective cover.
After the switch has shut off by overcur
rent triggering, the motor can be restarted
by pressing the start-button not before the
bi-metal in the switch has cooled down. This may last
a couple of minutes.
Protection of the motor is ensured by the thermomagnetic
releases integrated into the motor protection switch. The re
sponse value of the electromagnetic releases (protection
against short-circuit) is preset.
Fi
g
. 47 Motor
p
rotection switch (three-
p
hase motor)
0
1
SEMI-AUTOMATIC COMPRESSOR CONTROL
(OPTIONAL)
Unit switches off automatically when the final pressure is
reached in the pressure system connected to the
compressor. Restart the unit manually by pressing operation
button 1 on the control and monitoring unit.
The compressor control comprises following components:
- Motor protection switch Q1
- Final pressure switch K1 (K3 optional)
- Timer for the condensate drain unit Q2
- Rotational direction monitoring Q3 (three phase units
only)
Instruction Manual Junior II
33
- Overload relay F3 (three phase units only)
Fig. 48 Compressor control
2
1
3
1 Start push-button (I)
2 Stop push-button (0)
3 Warning lampe,rotational direction monitoring
Final pressure switch
Switching on and/or off of the compressor unit is controlled
by pressure switch F16. The upper threshold value is
adjustable as follows.
OFF max. = 350 bar
a)
OFF min. = 200 bar
The pressure switch is adjusted to the corresponding
pressure according to order. In case of readjustment
becoming necessary, open cover (2, Fig. 49). Adjust screw (1)
to the required pressure using a 6 mm allen key.
Fig. 49 Final pressure switch
Electrical connection of the automatic condensate
drain (optional)
For electrical connection of the automatic condensate drain
see the schematic diagram in the annex of this manual. The
amount of built-in components varies depending on order.
The factory set condensate drain intervals
are valid for 20 C (68 F) air temperature
of the surrounding air. It is possible to
shorten the condensate drain interval
when operating the unit at a higher
temperature.
Standard setting condensate drain
Drain interval = 15 min.
Drain time = 6 s.
Adjusting the timer (units with electric motor)
Timer Q2 controls the automatic condensate drain unit.
Q2 is an industrial timing relay with 1 single pole, double
throw contact. The drain interval and drain period is set with
controls t1 (1, Fig. 50) and t2 (2). t1 is factory set to 15
minutes, t2 to a drain time of 6 seconds.
Fig. 50 Timer Q2 (electric units)
1
2
Adjusting the timer (units with petrol engine)
Adjust the electric timer as follows:
- Remove cover by undoing the screw.
- Ensure that DIP switches 1 to 8 (1, Fig. 51) at timer are set
to OFF.
- Place DIP switches 3 and 8 to ON as shown in A, Fig. 52.
In this preliminary configuration, the condensate drain
interval can be adjusted in seconds from 1,5…30 s.
- Switch on power.
- Adjust switch-on time with potentiometer t
on
assigned to
DIP switches 1 to 3 (preliminary 15 seconds). Turn
potentiometer fully ccw. The desired switch-on time of
15 seconds wihtin the range setting of 1.5 to 30 seconds
is approx. between 5 and 7 o'clock (Fig. 53). The exact
position has to be found with a stop watch.
- Then adjust drain time with potentiometer t
off
assigned
to DIP switches 6 to 8 (6 seconds). Turn potentiometer
fully ccw, then start turning cw. The desired switch-on
time of 6 seconds within the range setting of 1.5 to 30
seconds is approx. between 2 and 4 o'clock (Fig. 53). The
exact position has to be found with the stop watch.
a) Max. possible setting value; for max. allowable value refer to chapter Technical data
Instruction Manual Junior II
34
- Finally place DIP switches 3 to OFF and 1 to ON as shown
in B, Fig. 52. In this configuration the preliminary
condensate drain interval is converted in a range setting
of 1.5 to 30 min. The setting of time is proportional:
setting 15 sec in the time range 1.5...30 sec (preliminary
setting) becomes 15 min when changing the range to
1.5...30 min (final setting). The operating time will now
be 15 minutes.
Fig. 51 Condensate drain timer (petrol units; Bürkert)
1
Fig. 52 DIP switch adjustment
12345 678
12345 678
A
B
ON
OFF
ON
OFF
Preliminary
setting
Final
setting
Fig. 53 Potentiometer setting
Funct
UNITS WITH PETROL ENGINE
Description of drive engine see instruction manual of
SUBARU petrol engine delivered with the unit.
MAINTENANCE
For the electrical system no regular maintenance is required.
4.4.12. COOLING SYSTEM
The cylinders of the compressor block, the intermediate
coolers and the after-cooler are air-cooled.
For this purpose, the compressor is equipped with a fan
wheel connected to the counter-weight at the crankshaft
end opposite to the V-belt pulley. It draws the cooling air
through the fanwheel cover from the surroundings.
Refer to chapter 3. for proper installation and cooling air sup
ply. For maximum ambient temperature, see Technical Data,
chapter 1.
Instruction Manual Junior II
35
4.5. TROUBLE-SHOOTING
Trouble Cause Remedy
Drive motor (electric)
Motor will not start Electric circuitry faulty Check all fuses, terminal connections,
wire leads, make sure that motor data
complies with mains supply
Motor/engine runs eccentrically V-belt worn Replace
Motor protection switch is switching
off the unit
Wrong adjustment of the motor pro
tection switch
Set to nominal motor current. Observe
temperature compensation (+20 C
=1,0)
For ambient temperature
+ 10 C : correction factor 0,94
+ 30 C : correction factor 1,05
+ 40 C : correction factor 1,12
Unsufficient voltage because of weak
power supply
Switch off other consuming devices
Motor protection switch is switching
off the unit
Power supply cable to long or to thin Use suitable cable
Drive motor (petrol)
Motor will not start See motor instructions See motor instructions
Motor runs eccentrically V-belt worn Replace
Motor stops Low oil level Top up oil
Drive system
Excessive vbelt wear (black depo-
sits on belt guard)
V-belt tension Re-tighten, see chapter 4.4.9.
Pulleys not aligned Re-adjust, see chapter 4.4.9.
Compressor
Compressor does not attain final pres
sure
Condensate drain valve(s) leaking Tighten and reseal
Final pressure safety valve defective
(blows too soon)
Replace safety valve
No cartridge in filter system P21 (air
escaping through cartridge safety bore)
Replace cartridge
Vent screw for final pressure safety
valve not in operating position
To vent, unscrew until completely open
Air delivery drops
Intake filter soiled Clean or replace filter cartridge
Pipe coupling leaking Retighten couplings
Excessive wear of 3rd stage piston Replace piston and sleeve of 3rd stage
Intermediate pressure safety valve
blows
Intermediate pressure too high be
cause of defective inlet or pressure
valve of the following stage
Check/replace inlet or pressure valve
Safety valve leaking Replace safety valve
Compressor overheats
Insufficient cooling air Check location; ensure proper cooling
air flow
Ambient temperature too high Check location; ambient temperature
max. +45 C (113 F)
Direction of rotation is wrong Correct direction of rotation
Inlet and pressure valve of one stage is
leaking
Check valves, clean/replace if necessary
Taste of oil in the air
TRIPLEX cartridge saturated Replace cartridge
Unqualified lubricant being used Replace oil with an approved brand
Instruction Manual Junior II
36
RemedyCauseTrouble
High oil consumption
Piston rings, Pistons or cylinders worn
out
Replace defective parts
Intake filter clogged Replace filter cartridge
Compressor too hot Enhance cooling
Air escaping through cartridge safety
bore
Cartridge missing Insert cartridge
Cartridge installed but O-rings defec
tive
Check/replace O-rings
Electric
Control does not switch on No control voltage Check feed line
Control fuse defective Replace fuse, eliminate cause
Control current line cut off, line or ter
minal loose
Tighten terminal
Thermal overload triggered Clear faults as described in the follo
wing
Thermal overload relay for drive motor
triggered
Current consumption too high Check compressor drive
Overload relay set too low Correct setting
Control does not switch off, final pres
sure safety valve blows off
Final pressure switch set too high Correct setting
Final pressure safety valve defective Replace safety valve
Automatic Condensate Drain (optional)
Drain valve does not close No control air Check control air line
Drain valves leaking Dismantle drain valve and clean
Drain valve do not open Condensate drain valve piston jammed Dismantle drain valve, clean or replace
valve
Solenoid valve does not close Solenoid valve faulty Check solenoid valve and replace if ne
cessary
No electrical signal Check for voltage and timer
Solenoid valve does not open Solenoid valve faulty Check solenoid valve and replace if ne
cessary
Continuous electrical signal Check electrical control circuit and
timer
Unsatisfactory drainage (lot of conden
sate from manual valves)
Nozzle in 3rd stage drain valve clogged Remove nozzle, clean
Note: 3rd stage 0,8 mm
Instruction Manual Junior II
37
5. TRANSPORT, STORAGE, PRESERVATION
TRANSPORT
- Always unplug the power supply before transporting the
unit, even in case of slight displacements.
- Before transporting, always depressurise the compressor
by means of condensate drain taps.
- Before transporting, stow loose parts safely.
- Always have two people carry the unit by using the
handle.
PREPARATION FOR STORAGE
If the compressor is put out of service for more than six
months, the unit should be preserved in accordance with the
following instructions: Make sure the compressor is kept in
doors in a dry, dust free room. Only cover the compressor
with plastic if it is certain that no condensation will form
under the sheet. Nevertheless, the sheet should be removed
from time to time and the unit cleaned on the outside. If this
procedure cannot be followed and/or the compressor is
going to be taken out of service for more than 2 years, please
contact our Technical Service Department for special instruc
tions.
The compressor is not resistant to salt-
water! If not in use keep unit in a dry place.
Before preserving the compressor unit, run it warm and
when it reaches the specified service pressure, keep it run
ning for approx. 10 minutes.
Then carry out the following:
- Check all pipes, filters and valves (also safety valves) for
leakage.
- Tighten all couplings, as required.
- After 10 minutes, open the filling valves or the outlet
valve and run the compressor at the set minimum pres
sure (pressure maintaining valve, see chapter 4.4.5.) for
approx. 5 minutes.
- After these 5 minutes, shut the system down. Drain con
densate from separators. Depressurize unit. Shut filling
valves.
- Open filters and grease threads.
- Ensure that filter cartridge remains in the filter!
This will prevent oil entering filling lines as a result of pres
ervation procedures.
- Remove intake filter from manifold and all intake lines
from valve heads.
- Let compressor unit cool down.
PRESERVING THE COMPRESSOR
- Turn the compressor on and spray a small amount (ap
prox. 10 ccm/0.6 cu. in.) of compressor oil into the valve
head inlet port while the compressor is running. Do not
let the compressor warm up too much, to keep oil sticky.
- Shut compressor unit off.
- Close all valves.
- Place the dust cap onto the inlet port.
PRESERVING THE MOTOR/ENGINE
Preserve the motor/engine according to the instructions of
the motor/engine manufacturer.
PREVENTIVE MAINTENANCE DURING STORAGE
Run the compressor once every 6 months as described in
the following:
- Remove the dust cap from the inlet port and insert the in
take filter.
- Open the filling valves or the outlet valve and let the unit
run for approx. 10 minutes or until the pressure gauges
indicate the correct values.
- Stop the compressor.
- Open condensate drain valves and release compressed
air. Close condensate drain valves again.
- Carry out preservation procedure according to chapter
”preserving the compressor”
Changing the lube oil for preserving
- After prolonged storage, the oil will age in the com
pressor and engine. It should be drained after 2 years at
the latest and replaced with fresh oil.
- The stated period can only be attained when the crank
case is sealed during the preservation period in accord
ance with the preservation requirements.
- After changing the oil, turn the compressor and the en
gine or run them for the required period.
- Check the lubrication of the compressor when putting
the unit into operation once every six months or when
turning the compressor. The oil pump is functioning
properly when oil can be seen flowing through the sight
glass of the oil pressure regulator and if the oil pressure
gauge indicates the prescribed pressure.
REACTIVATING THE COMPRESSOR UNIT
- Remove the dust cap from the inlet port and insert the in
take filter.
- Check the oil level of the compressor.
- Check the motor/engine according to the manufacturer's
instructions.
- Open the purifier and change all filter cartridges.
- Run the compressor warm with open filling valves or
outlet valve for approx. 10 minutes.
- Check the oil pressure on the pressure gauge. If there is
any fault, check the lubrication of the compressor.
- After 10 minutes, close the filling valves or the outlet valve
and run the unit up to final pressure until the final pres
sure safety valve blows.
- Check the inter-pressure safety valves for leakage.
- Establish cause of any fault from the trouble-shooting
table, chapter 4.5., and take corrective action.
- Stop the system when running properly, the compressor
is then ready for operation.
Instruction Manual Junior II
38
6. REPAIR INSTRUCTIONS
GENERAL
Preventive maintenance usually involves replacing the
valves, gaskets and sealing rings as well as carrying out the
maintenance work. Repair work can be carried out on the
compressor block to a certain extent but a certain experience
and skill is necessary. It should be noted, however, that
- no repair should be carried out on the crankdrive nor on
the bearings
- safety valves are not repaired but always replaced com
pletely.
For many BAUER compressor units, workshop manuals are
available through our customer service.
For questions on maintenance and repair, please contact our
technical service department.
* Exception: mounting bolts of final pressure safety valve: 10 Nm
Instruction Manual Junior II
39
7. TABLES
TIGHTENING TORQUE VALUES
Unless otherwise specified in text, the fol
lowing torque values apply. All valve head
screws require torque wrench tightening!
The indicated torque values are valid for
bolts in greased condition. Replace self-
retaining nuts on reassembly.
Bolt or screw Thread max. torque
Hex and allen head M 6 10 Nm (7 ft.lbs)
Hex and allen head M 8* 25 Nm* (18 ft.lbs)
Hex and allen head M 10 45 Nm (32 ft.lbs)
Hex and allen head M 12 75 Nm (53 ft.lbs)
Hex and allen head M 14 120 Nm (85 ft.lbs)
Hex and allen head M 16 200 Nm (141 ft.lbs)
Pipe connections (swivel nuts): Finger-tight + 1/2 turn
TORQUE SEQUENCE
Tighten valve head and cylinder bolts/nuts equally in the se
quence shown in Fig. 54.
Be sure to tighten all parts in cold condition only.
Fig. 54 Torque sequence
Instruction Manual Junior II
40
LUBRICATION CHART
Usage Lubricants
Rubber and plastic parts, filter housing threads WEICON WP 300 WHITE part no. N19752 or
BAUER special grease part no. 072500
Sealing rings BAUER special grease part no. 072500
Shaft seal (seal)
Shaft seal (shaft)
BAUER special grease part no. 072500
Klüber SK 01-205
Screws, bolts, threads WEICON ANTI-SEIZE AS 040 P part no. N19753 or
equivalent compound with copper or MoS
2
additives
For compressor lubricating oils refer to oil list in chapter 8.
ADHESIVE AND SEALANT CHART
Usage Adhesives and Sealants
Screws Loctite 2701
Seals for conical threads Loctite 243
Metal - metal seals
High temperature connections, e.g. valve heads, cylin
ders
Temperature resistant compound, e.g.
WACKER E10, part no. N18247
Paper gaskets Loctite FAG 2
TESTING AGENTS
Usage Testing agents
Tube connectors, tubes Leakage test spray, part no. FM0089
Instruction Manual Junior II
41
8. ANNEX
Schematic diagram
Lubricating oil list
Parts list
Instruction Manual Junior II
42
Instruction Manual Junior II
43
Instruction Manual Junior II
44
Instruction Manual Junior II
45
Instruction Manual Junior II
46
Instruction Manual Junior II
47
Instruction Manual Junior II
48
5

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