Watson-Marlow Bredel E-Manuals

When this pump unit is used as a stand-alone pump it complies with: Machinery Directive 98/37/EC EN60204-1, Low Voltage Directive 73/23/EEC EN61010-1, EMC Directive 89/336/EEC, EN50081-1/EN50082-1.

When this pump unit is to be installed into a machine or is to be assembled with other machines for installations, it must not be put into service until the relevant machinery has been declared in conformity with the Machinery Directive 98/37/EC EN60204-1.

Responsible person: Christopher Gadsden, Managing Director, Watson-Marlow Limited, Falmouth, Cornwall TR11 4RU, England. Telephone +44 (0) 1326 370370 Fax +44 (0) 1326 376009.

Two year warranty

Watson-Marlow Limited warrants, subject to the conditions below, through either Watson-Marlow Limited, its subsidiaries, or its authorised distributors, to repair or replace free of charge, including labour, any part of this product which fails within two years of delivery of the product to the end user. Such failure must have occurred because of defect in material or workmanship and not as a result of operation of the product other than in accordance with the instructions given in this manual.

Conditions of and specific exceptions to the above warranty are

Consumable items such as tubing and rollers are excluded.
Products must be returned by pre-arrangement carriage paid to Watson-Marlow Limited, its subsidiaries, or its authorised distributor.
All repairs or modifications must have been made by Watson-Marlow Limited, its subsidiaries, or its authorised distributors or with the express permission of Watson-Marlow Limited, its subsidiaries, or its authorised distributors.
Products which have been abused, misused, or subjected to malicious or accidental damage or electrical surge are excluded.

Warranties purporting to be on behalf of Watson-Marlow Limited made by any person, including representatives of Watson-Marlow Limited, its subsidiaries, or its distributors, which do not accord with the terms of this warranty shall not be binding upon Watson-Marlow Limited unless expressly approved in writing by a Director or Manager of Watson-Marlow Limited.

Information for returning pumps

Equipment which has been contaminated with, or exposed to, body fluids, toxic chemicals or any other substance hazardous to health must be decontaminated before it is returned to Watson-Marlow or its distributor. A certificate included at the rear of these operating instructions, or signed statement, must be attached to the outside of the shipping carton. This certificate is required even if the pump is unused. If the pump has been used, the fluids that have been in contact with the pump and the cleaning procedure must be specified along with a statement that the equipment has been decontaminated.

Safety

In the interests of safety, this pump and the tubing selected should only be used by competent, suitably trained personnel after they have read and understood this manual, and considered any hazard involved.

Any person who is involved in the installation or maintenance of this equipment should be fully competent to carry out the work. In the UK this person should also be familiar with the Health and Safety at Work Act 1974.

This symbol, used on the pump and in this manual, means: Caution, risk of electric shock.

This symbol, used on the pump and in this manual, means: Caution, refer to accompanying documents.

This symbol, used on the pump and in this manual, means: Do not allow fingers to contact moving parts.

There are dangerous voltages (at mains potential) inside the pump. If access is required, isolate the pump from the mains before removing the cover.

Recommended operating procedures

DO keep delivery and suction lines as short as possible using a minimum number of swept bends.
DO use suction and delivery pipelines with a bore equal to or larger than the bore of the tube fitted in the pumphead. When pumping viscous fluids, the losses caused by increased friction can be overcome by using pipe runs with a cross sectional area several times greater than the pumping element.
DO fit an extra length of pump tube in the system to enable tube transfer. This will extend tube life and minimise the downtime of the pumping circuit.
DO keep the track and rollers clean.

The self-priming nature of peristaltic pumps means valves are not required. Any valves fitted must cause no restriction to flow in the pumping circuit.

When using Marprene tubing, after the first 30 minutes of running, re-tension the tube in the pumphead. Open the guard, hold the tubing at one port whilst pulling the tube tight through the second port. This is to counteract the normal stretching that occurs with Marprene which can go unnoticed and result in poor tube life.

Tube selection The chemical compatibility list published in the Watson-Marlow catalogue is only a guide. If in doubt about the compatibility of a tube material and the duty fluid, request a tube sample card for immersion trials.

Installation

The 624U is suitable for single phase mains electricity supplies only.

To ensure correct lubrication of the gearbox the pump should only be run while its feet are on a horizontal surface. The pump should be positioned to allow a free flow of air around it.

Remove the small transparent plate on the rear panel to gain access to the voltage selector and terminal block.
Set the voltage selector to either 120V for 100-120V 50/60Hz single phase AC supplies or 240V for 220-240V 50/60Hz single phase AC supplies.
Route the mains supply cable through the entry point to the right of the recess, and couple the cable to the terminal block as shown on the rear panel.
There are two alternative connectors. One accepts 20mm rigid or flexible conduit, and the other accepts three core 0.75 square millimetre PVC sheathed mains cable (via the screwed adapter supplied) so that a mains lead can be used.
Ensure that the mains lead is securely retained in the strain relief gland so that IP55 ingress protection is maintained.
Securely replace the transparent plate and the gasket over the recess.

Armoured cable strain relief gland GR 0018
Washer GR 0019
Strain relief gland SL0020

Ingress protection standard will be compromised if the transparent plate is not replaced.

Rear panel recess

The pump rear panel recess houses the following:

Signal range potentiometer
Tachometer switch
Fuse holder
Terminal block
Voltage selection switch
Signal offset potentiometer
Signal overload LED

Troubleshooting

Should the pump fail to operate, make the following checks to determine whether or not servicing is required.

Check that the power switch is on.
Check the mains supply is available at the pump.
Check the voltage selector switch is in the correct position.
Check the fuse in the mains socket.
Check that the pump is not stalled by incorrect fitting of tubing.

Manual operation

Set the Auto/Manual/Max switch to Manual.

Start up Direction Start the pump by turning the Forward/Off/Reverse switch to the required direction of rotation. The preferred direction of rotation is clockwise (with fluid entering at the bottom of the pumphead), which will ensure the longest possible tube life. To operate against higher pressures use anticlockwise rotation.
Prime To prime the pump at maximum speed press the Max button.
Speed control Set speed is indicated on the digital display.
Stop Stop the pump by turning the Forward/Off/Reverse switch to its central Off position. To change the direction of flow, turn the Forward/Off/Reverse switch to its central Off position until the pumphead rotor stops, and then turn it to the required direction of rotation.

If returning from auto control to manual control, it is not necessary to disconnect the process signal from the pump or adjust the calibration potentiometers.

Automatic operation

Set the Auto/Manual/Max switch to Auto.

For all auto and remote control operations, the drive is supplied with a 6-pin waterproof connector.

Watson-Marlow part number UP0035

Correct assembly of the connector plug is essential or the ingress protection standard will be compromised. Never apply mains voltage across any pins on the 6-pin socket. Up to 30V may be applied across pins 2 and 3 but not across other pins. Permanent damage not covered by warranty may result in both instances.

The pump is controllable by an analogue process signal of up to 30V or 32mA. The pump will provide an increasing flow rate for rising control signal (non-inverted response) or an increasing flow rate for falling control signal (inverted response).

Signal offset is the process signal level which has to be reached in order for the pump rotor to start rotating.
Signal range is the change in process signal level necessary to produce the required change in pump rotor speed.

For example, when using a 4mA to 20mA process signal:

Pump response
Signal offset
Signal range

Non-inverted
4mA
16mA

Inverted
20mA
16mA

For voltage modes, a stable variable DC voltage source can be used in conjunction with a DC voltmeter, (maximum 30V DC). Polarity set for a non-inverted response. Reverse polarity for an inverted response.

Voltage signal

Input impedance 220 kOhms

Response
Range V
Offset V
Pin 2
Pin 3

Non-inverted
5 to 30
0 to 30
-
+

Inverted
5 to 24
0 to 24
+
-

For current modes, the same DC source can be used in conjunction with a DC milliampere meter, (maximum 32mA). Polarity set for a non-inverted response. Reverse polarity for an inverted response.

Current signal

Input impedance 250 Ohms

Response
Range mA
Offset mA
Pin 2
Pin 3

Non-inverted
12 to 30
0 to 30
-
+

Inverted
12 to 30
0 to 24
+
-

Calibration procedure

Ensure the correct wiring of the 6 pin plug and insert the plug into the socket at the rear of the pump.

Remove the rear panel window.
Turn the signal offset potentiometer clockwise until the slider traverse limit is reached and is signified by a clicking noise. Now turn the potentiometer ten turns anticlockwise. Repeat for the signal range potentiometer. This ensures correct potentiometer set-up for calibration.
Set the process signal offset.
Turn the signal offset potentiometer clockwise to set the drive shaft speed to the desired minimum.
Set the process signal at its upper range limit (not exceeding 30V or 32mA).
Turn the signal range potentiometer clockwise to set the drive shaft speed to the desired maximum.
Repeat the procedure until pump response coincides exactly with the process signal.
If the signal rises above its designated maximum, the action of the signal conditioner will be to hold the motor to maximum speed at the MAX setting indicated by the LED indicator flashing. If the signal rises above 30V, permanent damage, not covered by warranty, may result.

Securely replace the rear panel recess cover on the back of the pump ensuring the gasket is in the correct position. This will avoid the ingress protection standard of the pump being compromised.

Remote control

Stop/start

Connect remote switch between pins 2 and 5 of the 6 pin socket. Close contact to stop the pump, open to run.

Speed

A remote potentiometer with a nominal value of between 4.7kohm and 5kohm should be wired as shown, When using a remote potentiometer do not connect a voltage/current control signal at the same time. The speed control signal will require calibration relative to the minimum and maximum settings of the potentiometer. Use the offset and range potentiometers as described under calibration.

Tachometer output

This facility can be used to indicate motor speed or total the number of motor revolutions. Select either 1) 0-5V DC or 2) 5V pulse train output using the tachometer output switch.

Care and maintenance

The only scheduled maintenance required for the 624U/R is inspection of the motor brushes and their replacement before their length is less than 6mm. The life of the brushes will depend on the duty of the pump, but is expected to be a minimum of 4,000 hours at maximum speed.

If the pump requires cleaning, use a mild solution of detergent in water after removing the pumphead. Do not use strong solvents.

For gearbox rebuilds, use Lubriplate GR-132 (Bodine reference LG-23) only. This is a lithium combination type thickener, NL GI No.1 grade, non-corrosive extreme pressure lubricant. This product is water resistant and resistant to a large degree to most other contaminants.

Specification

Maximum rotor speed	165 rpm
Power supply	100-120/220-240V /1/ 50/60Hz
Control range	50:1
Power consumption	250 VA
Fuse rating	Type T (anti-surge) 5A
Operating temperature range	5C to 40C
Storage temperature range	-40C to 70C
Weight	21kg (46lbs)
Noise	<70dBA at 1m
Standards	EN60529 (IP55)
	Machinery directive 98/37/EC EN60204-1
	Low voltage directive 73/23/EEC EN61010-1
	EMC directive 89/336/EEC EN50081-1/EN50082-1

Specific drive performance details such as loaded drive speed variation against mains supply voltage fluctuation and drive stability from a cold start to normal operating temperature are available on request. For further information please contact Watson-Marlow Technical Support Department.

Drive spares

Number	Spare	Description
1	MRA0176A	Pcb control
2	FA0002	Mains filter
3	SW0060	Tacho switch
4	SW0086	Voltage switch
5	UP0035	Six-pin plug
6	US0035	Six-pin socket
7	FA0010	Earth filter
8	MR0669S	Cover plate
9	MR0771S	Gasket
10	MRA0328A	Capacitor 250V, pcb-mounted
11	MR0959H	Tacho harness
12	MN0787M	Tacho disc
13	MR0525S	Tacho bracket
14	MR0690S	Gasket
15	MG0600	Motor/gearbox 165rpm
16	BM0015	Motor brush
17	TM0020	Terminal block
18	MR0691S	Gasket
19	OS0042	O ring seal
20	SW0146	Auto/man/max
21	MR0769B	Potentiometer
22	MR0716S6	Knob
23	MR0715M	Locking knob
24	MD0925T	Locking knob (machined)
25	SW0141	Direction switch
26	MRA0261A	Interlock/display pcb
27	MR2087H	Interlock cable
28	MRA0268A	Interlock reed switch
	OG0024	Gearbox lubricant

620RE, 620RE4 and 620R Key safety information

Before opening the pumphead guard please ensure that the following safety directions are followed.

For close-coupled drives, ensure that the pump is isolated from mains voltage.
Ensure that there is no pressure in the pipeline.
If a tube failure has occurred, ensure that any product in the pumphead has been allowed to drain through the controlled waste to a suitable drain.
Ensure that protective clothing and eye protection are worn if hazardous products are being pumped.

620RE, 620RE4 and 620R Safe-guarding

Primary safety on 620 series pumps is provided by the tool-lockable pumphead guard. On electrically-powered cased 600 series pumps, secondary (backup) protection is provided in the form of an electrical interlock which stops the pump if the pumphead guard is opened (and only for so long as the guard is opened). The electrical interlock on cased pumps should never be used as primary protection. Always disconnect the mains power supply to the pump before opening the pumphead guard.
Only primary protection through the tool-lockable guard is provided on pneumatically powered 620 series cased pumps. Only primary protection through the tool lockable pumphead guard is provided on 620 series pumps fitted with industrial AC motors, but an interface kit to allow mains power to be switched by the pumphead guard interlock is available as an extra-cost option.

620RE, 620RE4 and 620R Pumping conditions

Pressure and viscosity

All pressure values in this operating instruction, from which performance and life figures have been calculated relate to peak pipeline pressures.
Although rated to 4 bar working pressure, this pump will generate in excess of 4 bar working pressure if pipeline restrictions are in place. In instances where it is critical that a working pressure of 4 bar is not exceeded, pressure relief valves should be installed in the pipeline.
For pumping duties of 2-4 bar pressure, only close coupled pumps should be used, fitted with 73 Shore hardness Marprene/Bioprene or standard STA-PURE tube elements. "M" in the tube element�s product order code denotes suitability for high pressure use.
When pumping duties of 0-2 bar pressure, use close coupled or cased pumps fitted with 64 Shore hardness elements or the standard range of continuous peristaltic pump tubing.
Viscosity handling is maximised by using 73 Shore hardness Marprene/Bioprene or STA-PURE tube elements in the pumphead.
Ensure that there is always a minimum of one metre of smooth bore flexible tubing connected to the discharge port of the pumphead. This will help minimise any impulse losses and pulsation in the pipeline. This is especially important with viscous fluids and rigid pipework.

620RE, 620RE4 and 620R Pump installation

A correctly engineered installation will promote the best possible tube life, so please ensure that the following guidelines are followed:

Avoid tight pipeline bends, pipe reducers and excessive lengths of smaller bore tubing than that in the pumphead, particularly in pipelines on the suction side.
Ensure that connecting pipe work and fittings are suitably rated to handle the predicted pipeline pressure.
If rigid pipe work comes in close proximity to the pumphead, a drop out section of pipe work will simplify tube replacement.
Ensure that the controlled waste blanking plug is in position if the controlled waste port is not in use. See below.

It is advisable to use controlled waste pipe work if pumping hazardous, aggressive or abrasive fluids or products which will harden in contact with air.
When connecting waste pipe work to the controlled waste port using the coupling adaptor supplied, ensure that there is adequate clearance underneath the pumphead. Waste pipe work should run to a suitable container or drain.
The leak detector installation procedure is included in the leak detector kit.
If unsure of an installation please contact your local Watson-Marlow Technical Support Office for further assistance.

620RE, 620RE4 and 620R General operation

Opening the pumphead guard

Unlock the guard with a 5mm Allen key or a screw driver.
Open the guard to its full extent. This creates the maximum clearance between the tube ports and guard to remove the tubing.

Engaging/disengaging the rollers

The extent of travel of the roller release levers is indicated below. Do not try and force the levers beyond their normal extent of travel as this will damage the rotor.
To engage the rollers snap the roller release levers counter clockwise making sure that the rollers locked out against the tubing. To disengage the rollers, snap the release levers clockwise to their disengaged position. For high pressure tubing elements or four roller pumpheads, the 5mm Allen key can be used to aid leverage when engaging/disengaging the rollers with the release levers.

Make sure that fingers are clear of the front face of the rotor hub when using the roller release levers.

Pre-load checks

Before loading tubing, ensure that all rollers rotate freely, that the tube ports and location grooves are clean and that if in use, the controlled waste pipe work is free of any obstructions.

Closing the pumphead guard and start-up

Ensure that the guard seal is clean, replacing it if necessary.
Ensure that the rollers are engaged and locked out against the tubing
Close the guard and push it against the track until the latch engages.
Connect suitable pipe work to the pumphead using the appropriate connectors for the tube element.

Continuous tubing clamp location in 620R pumpheads

Select the appropriate tube clamp set for the tubing size to be used.
Locate the two "U"-shaped track clamp halves into the pumphead ports (The "U"- shape ensures correct loading)
Locate the corresponding guard clamp halves which have raised "T" locating sections, into the slots on the inner guard face above and below the guard hinge. Push and slide into their locked position.
Closing the guard will align the two halves of the clamp around the tubing.

620RE and 620RE4 tube element loading

620RE element pumpheads are factory set to accept Watson-Marlow LoadSure tube elements. Pumping performance will be adversely affected if LoadSure elements are not used.
Disengage rollers
Locate one of the "D"-shaped flanges into the lower port. (The "D" flange ensures that the element can only be loaded correctly).
Wrap the tube element around the disengaged rollers of the rotor.
Locate the second "D"-shaped flange into the upper port.
Ensure the flat face of each "D" flange sits flush to the flange sealing face of the track.
Engage rollers
Close the guard and push it against the track until the latch engages.

Tube element loading

620RE, 620RE4 and 620R Continuous tube loading

620R continuous tubing pumpheads are factory set to accept Watson-Marlow 600 series 3.2mm wall tubing. Pumping performance will be adversely affected if Watson-Marlow tubing is not used.
Select the tube clamp set which is correct for the tubing size to be used.
Disengage rollers
Locate one end of the tubing into the lower port "U" clamp and hold firmly in position.
Wrap the tubing tightly around the retracted rollers, making sure that there is no twisting through its length.
Locate the other end of the tubing into the upper port "U" clamp.
Hold both ends of the tubing in one hand maintaining tension around the retracted rollers.
Engage rollers
Close the guard and push it against the track until the latch engages
Ensure that continuous tubing is not loosely clamped at the pumphead ports.
Ensure that when the pump is re-started all of the rollers have re-engaged. A roller which has not re-engaged will "click" continuously. No damage will occur if this happens but the roller should be re-engaged manually using the 5mm Allen key. Please refer to the Troubleshooting section.

Continuous tube loading

620RE, 620RE4 and 620R Tube element or continuous tube removal

Unlock the guard and disengage the rollers.
Disconnect the tubing from the external pipeline.
Remove the tubing from the pumphead.

620RE, 620RE4 and 620R Maintenance

Scheduled maintenance

The stainless steel pumping rollers run on sealed bearings and do not require lubrication.
Remove the rotor and lubricate the follower rollers and roller engaging mechanisms with a lithium-based grease. This should be carried out every six months for intermittent duties and every three months for 24 hour duties.
If fluid is spilled inside the pumphead, flush the pumphead out with water and mild detergent as soon as possible. If specific cleaning agents are required to clean the spillage, please consult Watson-Marlow Technical Support Office before proceeding, in order to confirm chemical compatibility.
If the rotor needs to be removed, refer to the guidelines below.

Roller adjustment

620 pumpheads have provision for adjustment to reset the roller/track gap to compensate for wear after extended service in arduous applications.

Roller/track gaps can only be accurately judged without tubing in the pumphead. The gap should be 4.6mm for 3.2mm wall tubing and 5.5mm for LoadSure elements.

If the gap is more than 0.2mm greater than these dimensions, the following may be carried out:

Note the number on the roller arm to which the engraved line on the hexagon-headed main roller pin corresponds.
Remove the circlip (snap-ring) and roller pin.
Relocate the main roller pin, resetting the engraved line to one number lower. For example, if the engraved line was at "-1", reset it to "-2" to reduce the roller track gap.
Ensure the roller pin is correctly seated into the roller arm thrust washer. Replace the circlip.

Rotor removal and re-location

Remove the rotor cover and central locating bolt using a 5mm Allen key. Pull the rotor off the keyed shaft, remove the key and clean thoroughly. Do not use tools to lever the rear face of the rotor away from the inner face of the track, it should come off by hand.
To replace the rotor, locate the key into the keyway and apply a thin layer of grease over the shaft and key. Align the keyway of the rotor to the shaft key and slide the rotor into position, ensuring that a positive "stop" is achieved and ensure that the full length of the drive shaft is fitted into the rotor.

Do not force the rotor into position. The rotor will slide into place easily if correctly aligned.
Tighten the hexagonal locating bolt to a nominal torque of 10Nm using a 5mm Allen key.
The rotor bolt, which is impregnated with "Loctite 218" thread lock, should be subjected to a maximum of three removals/relocations before renewal. To avoid rotor bolt renewal after three removals, apply "Loctite 222" thread lock to the rotor thread before relocation. This is critical to ensure prolonged, secure location of the rotor hub to the drive shaft. Failure to complete this action will invalidate the terms and conditions of the pumphead warranty.
Replace the rotor cover.

When closing the guard, check it does not make contact with the rotor. If it does, then the rotor has been fitted incorrectly. Re-open the guard, remove and refit the rotor, and close the guard.

Track removal (close coupled AC motor gearboxes)

Remove the rotor.
Disconnect the controlled waste pipework if attached.
Loosen the four track retaining screws using a Number 2 Pozi-Driv screwdriver.
Disconnect the mains interlock if connected to a mains contactor
Withdraw the track fully from the gearbox.

Track re-location (close coupled AC motor gearboxes)

Ensure that the track is clean.
Fit the track over the gearbox boss.
Align the track horizontally so that the location holes are aligned with the threaded gearbox holes.
Tighten the four track retaining screws using a Number 2 Pozi-Driv screwdriver.
Re-connect the guard interlock controlled waste pipework if required.

620RE, 620RE4 and 620R CIP and SIP

General

Unlock the guard and disengage the rollers within the tube zone.
Close the guard and squeeze against the track until the latch clicks.
Observe a 1m safety area.

CIP

LoadSure tube elements and continuous tubing can be cleaned using CIP processes.
Ensure that the tubuing material is chemically compatible with the cleaning agent that is to be used.
If cleaning agents are spilled over the pumphead, wash down immediately.
Ensure that controlled waste pipework is fitted to allow a safe release of cleaning agent in the event of a tube failure.

SIP

Only STA-PURE tube elements can be used in a steam in place sterilisation processes.
STA-PURE tubing elements can be sterilised to 3A Class two and FDA minimum recommended standard which is 121C (250F) at 1bar (14.5 psi) saturated steam for 20 minutes.
Monitor the process continuously .
If a tube failure occurs, shut down the process. Do not touch the pumphead until a 20 minute cooling period has been observed.
Ensure a 20 minute acclimatisation period is observed before running the pump following SIP.
Ensure that controlled waste pipework is fitted to allow a safe release of steam in the event of a tube failure..
Ensure a 1m safety zone is maintained around the pumphead during SIP cycles.

Ensure that the pumphead door is closed and locked before SIP cleaning commences.

Pumphead spares

Number
Spare
Description

1

Tube clamp pack: p/n 069.4101.000

2
MR2052C
Oddie fastener

2
MR2053B
Clip: Oddie retainer

2
MR2054T
Oddie washer

2
SG0021
Oddie spring

2
CX0150
Oddie circlip (snap ring)

3
MRA0251A
Track assembly (continuous pumphead) - includes guard

3
MRA0297A
Track assembly (element pumphead) - includes guard

3
MR2000C
Track

4
MRA0249A
Roller assembly element pumphead

<4>
MRA0250A
Roller assembly continuous pumphead

5
MR2027T
Controlled waste threaded fitting 620R

6
MR2028M
Controlled waste port blanking plug

7
MR2018T
Hinge pin

8
MR2055M
Rotor cover

9
MR2021B
Seal - guard

10
MR2002M
Guard without latch and seal

11
MR2015T
Follower roller spindle

12
CX0148
Roller assembly circlip (snap-ring) E type 6 dia

12
MR2014T
Stainless steel roller spindle

12
MR2010T
Thrust washer

13
MR2096T
Controlled waste threaded fitting locking nut

14
MRA0320A
Rotor assembly 2-roller element

14
MRA0321A
Rotor assembly 4-roller element

14
MRA0322A
Rotor assembly 2-roller continuous

15
MR2058B
Grommet - door switch

16
XX0220
Key - metal

17
MR2029T
Cased drive MG605 shaft/rotor hub spacer

18
MR2059T
Adaptor - Bodine (white polypropylene ring)

19
FN0488
Cased drive track locating screw M6x10 locating bolt

20
FN0523
Close-coupled track locating screw M6x20 locating bolt

21
FN0581
Rotor locating washer M6

22
FN0520
Rotor locating bolt M6 x 25

23
TT0006
5mm Allen key

24
MA0017
Guard magnet

CN0187
Plug blanking 10.72M

MRA0268A
Cased drive door switch assembly

MRA0279A
Close-coupled door switch assembly

Technical data

Performance envelope of the 620R, 620RE and 620RE4 mark II rotor

Flow rates

Tube bore
Tube number - #
rpm
Pressure (+)
Suction (-)

Note: Flow rates quoted have been rounded for simplicity, but are accurate to within 5% - well within the normal tubing tolerance variation of flow rate. They should therefore be taken as a guide. Real flow rates in any application must be determined empirically.

620R

Flow rates: Marprene, Bioprene

mm
6.4
9.6
12.7
15.9

inch
1/4
3/8
1/2
5/8

#
26
73
82
184

3-165 (l/min)
0.04 - 2.1
0.08 - 4.1
0.12 - 6.6
0.16 - 8.6

3-165 (USGPM)
0.01 - 0.6
0.02 - 1.1
0.03 - 1.7
0.04 - 2.3

Flow rates: Silicone

mm
6.4
9.6
12.7
15.9

inch
1/4
3/8
1/2
5/8

#
26
73
82
184

3-165 (l/min)
0.04 - 2.0
0.08 - 4.5
0.13 - 6.9
0.16 - 11

3-165 (USGPM)
0.01 - 0.5
0.02 - 1.2
0.03 - 1.8
0.04 - 3.0

Flow rates: Neoprene, STA-PURE

mm
6.4
9.6
12.7
15.9

inch
1/4
3/8
1/2
5/8

#
26
73
82
184

3-165 (l/min)
0.04 - 2.0
0.08 - 4.1
0.12 - 6.6
0.18 - 10

3-165 (USGPM)
0.01 - 0.5
0.02 - 1.1
0.03 - 1.7
0.05 - 2.7

620RE

Flow rates: Marprene TM, Bioprene TM

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.11 - 6.1
0.18 - 9.7

3-165 (USGPM)
0.03 - 1.6
0.05 - 2.6

Flow rates: Marprene TL, Bioprene TL

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.11 - 6.1
0.20 - 11

3-165 (USGPM)
0.03 - 1.6
0.05 - 2.9

Flow rates: Silicone

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.12 - 6.4
0.18 - 10

3-165 (USGPM)
0.03 - 1.7
0.05 - 2.7

Flow rates: Neoprene, STA-PURE

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.12 - 6.6
0.22 - 12

3-165 (USGPM)
0.03 - 1.7
0.06 - 3.1

620RE4

Flow rates: Marprene TM, Bioprene TM

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.09 - 5.2
0.12 - 6.8

3-165 (USGPM)
0.02 - 1.4
0.03 - 1.8

Flow rates: Marprene TL, Bioprene TL

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.09 - 5.2
0.14 - 7.8

3-165 (USGPM)
0.02 - 1.4
0.04 - 2.1

Flow rates: Silicone

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.10 - 5.4
0.13 - 7.0

3-165 (USGPM)
0.03 - 1.4
0.03 - 1.9

Flow rates: Neoprene, STA-PURE

mm
12
17

LoadSure
LoadSure

3-165 (l/min)
0.10 - 5.6
0.15 - 8.3

3-165 (USGPM)
0.03 - 1.5
0.04 - 2.2

Dimensions in mm

620R product codes

mm
inch
#
Marprene
Bioprene
Peroxide
silicone
Platinum
silicone

6.4
1/4
26
902.0064.032
903.0064.032
910.0064.032
913.0064.032

9.6
3/8
73
902.0096.032
903.0096.032
910.0096.032
913.0096.032

12.7
1/2
82
902.0127.032
903.0127.032
910.0127.032
913.0127.032

15.9
5/8
184
902.0159.032
903.0159.032
910.0159.032
913.0159.032

mm
inch
#
STA-PURE
Neoprene
Butyl
Tygon

6.4
1/4
26
960.0064.032
920.0064.032
930.0064.032
950.0064.032

9.6
3/8
73
960.0096.032
920.0096.032
930.0096.032
950.0096.032

12.7
1/2
82
960.0127.032
920.0127.032
930.0127.032
950.0127.032

15.9
5/8
184
960.0159.032
920.0159.032
930.0159.032
950.0159.032

mm
inch
#
Fluorel
Gore
fluoroelastomer
/PTFE

6.4
1/4
26
970.0064.032
965.0064.032

9.6
3/8
73
970.0096.032
965.0096.032

12.7
1/2
82
970.0127.032
965.0127.032

15.9
5/8
184
970.0159.032
965.0159.032

620RE and 620RE4 LoadSure product codes

12mm
DIN 15

12mm
Tri-clamp 3/4in

17mm
DIN 15

17mm
Tri-clamp 3/4in

STA-PURE
960.0120.PFD
960.0120.PFT
960.0170.PFD
960.0170.PFT

Gore
fluoroelastomer
/PTFE
965.0120.PFD
965.0120.PFT
965.0170.PFD
965.0170.PFT

Bioprene TM
903.M120.PFD
903.M120.PFT
903.M170.PFD
903.M170.PFT

Bioprene
903.0120.PFD
903.0120.PFT
903.0170.PFD
903.0170.PFT

Platinum
silicone
913.0120.PFD
913.0120.PFT
913.0170.PFD
913.0170.PFT

12mm
Cam and Groove 3/4in

17mm
Cam and Groove 3/4in

Marprene TM
902.M120.PPC
902.M170.PPC

Marprene
902.0120.PPC
902.0170.PPC

Peroxide
silicone
910.0120.PPC
910.0170.PPC

Neoprene
920.0120.PPC
920.0170.PPC

Trademarks and disclaimer

Watson-Marlow, Loadsure, Bioprene and Marprene are trademarks of Watson-Marlow Limited.
TYGON is a trademark of the Saint Gobain Performance Plastics Company.
STA-PURE is a trademark of W L Gore & Associates.

The information contained in this document is believed to be correct but Watson-Marlow Limited accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.

Patient-connected use: warning

Warning, These products are not designed for use in, and should not be used for patient connected applications.

Publication history

m-624u-gb-01.htm: Watson-Marlow 624u
First electronically published 11 02.

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