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Summary of Contents for Pfeiffer Vacuum HIPACE 2300 IUT
- Page 1 OPERATING INSTRUCTIONS Translation of the Original HIPACE 2300 IT ∣ IUT Turbopump with temperature management system...
- Page 2 Dear Customer, Thank you for choosing a Pfeiffer Vacuum product. Your new turbopump is designed to support you by its performance, its perfect operation and without interfering your individual application. The name Pfeiffer Vacuum stands for high-quality vacuum technology, a comprehensive and complete range of top-quality products and first-class service.
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Page 3: Table Of Contents
Limits of use of the product Proper use Foreseeable improper use Personnel qualification 2.7.1 Ensuring personnel qualification 2.7.2 Personnel qualification for maintenance and repair 2.7.3 Advanced training with Pfeiffer Vacuum Product description Function 3.1.1 Cooling 3.1.2 Rotor bearing 3.1.3 Drive Identifying the product 3.2.1 Product types... - Page 4 Operating modes 6.2.1 Operation without operating unit 6.2.2 Operation via connection "E74" 6.2.3 Operation via multi-function connection "remote" 6.2.4 Operation via Pfeiffer Vacuum display and control units 6.2.5 Operation via field bus Switching on the turbopump Operation with TMS 6.4.1 TMS connection 6.4.2 Process description for TMS...
- Page 5 Table of contents 13.2 Ordering accessories Technical data and dimensions 14.1 General 14.2 Technical data 14.3 Dimensions Declaration of Conformity 5/76...
- Page 6 Available spare parts Tbl. 21: Accessories Tbl. 22: Conversion table: Pressure units Tbl. 23: Conversion table: Units for gas throughput Tbl. 24: Technical data for HiPace 2300 IT Standard Tbl. 25: Technical data for HiPace 2300 IUT, overhead version 6/76...
- Page 7 HiPace 2300 IT | TC 1200 DN 250 ISO-K Fig. 36: HiPace 2300 IT | TC 1200 DN 250 ISO-F Fig. 37: HiPace 2300 IUT | TC 1200 DN 250 ISO-K Fig. 38: HiPace 2300 IUT | TC 1200 DN 250 ISO-F 7/76...
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Page 8: About This Manual
Keep the manual for future consultation. 1.1 Validity This operating instructions is a customer document of Pfeiffer Vacuum. The operating instructions de- scribe the functions of the named product and provide the most important information for the safe use of the device. The description is written in accordance with the valid directives. The information in this op- erating instructions refers to the product's current development status. -
Page 9: Conventions
About this manual 1.3 Conventions 1.3.1 Instructions in the text Usage instructions in the document follow a general structure that is complete in itself. The required ac- tion is indicated by an individual step or multi-part action steps. Individual action step A horizontal, solid triangle indicates the only step in an action. ►... -
Page 10: Abbreviations
About this manual Operating fluid filler screw This sticker describes the position of the respective filler screw for operating fluid. Protection class This sticker describes protection class 1 for the product. The positioning indicates the position for the ground connection. Cooling water connection COOLING WATER IN This sticker indicates the position and conditions for the cooling... -
Page 11: Trademark Proof
About this manual Abbreviation Meaning in this document Display and Control Unit Nominal diameter as size description Emergency Stop Rotation speed value of a vacuum pump (frequency, in rpm or Hz) Handheld Programming Unit, aid for controlling and monitoring parameters High vacuum flange, high vacuum side Flange: Connector in accordance with ISO 1609 and ISO 2861 Light emitting diode... -
Page 12: Safety
Safety 2 Safety 2.1 General safety information The following 4 risk levels and 1 information level are taken into account in this document. DANGER Immediately pending danger Indicates an immediately pending danger that will result in death or serious injury if not observed. ►... - Page 13 Safety Risks during installation DANGER Danger to life from electric shock Touching exposed and voltage-bearing elements causes an electric shock. Improper connection of the mains supply leads to the risk of touchable live housing parts. There is a risk to life. ►...
- Page 14 Safety WARNING Risk of serious injury from oscillating, toppling or falling objects Incorrect handling during the mechanical installation leads to a risk of oscillating, toppling or falling heavy loads. There is a risk of crushing and impacts (e.g. on colliding flange connections). There is a risk of injuries to limbs, up to and including bone fractures and head injuries.
- Page 15 Safety Risks during maintenance, decommissioning and disposal WARNING Danger to life from electric shock during maintenance and service work The device is only completely de-energized when the mains plug has been disconnected and the tur- bopump is at a standstill. There is a danger to life from electric shock when making contact with live components.
- Page 16 Safety WARNING Risk of scalding from suddenly escaping hot cooling water The turbopump water connections are open to both sides. When connecting the cooling water supply, there is a risk of scalding from suddenly escaping, hot cooling water at over pressure. ►...
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Page 17: Safety Precautions
► Follow the installation instructions for this turbopump. ► Observe the requirements regarding stability and design of the counter flange. ► Use only original accessories or fixing material approved by Pfeiffer Vacuum for the installation. WARNING Risk of injury caused by the turbopump breaking away with the vibration compensator in the event of a malfunction Sudden jamming of the rotor generates high destructive torques in accordance with ISO 27892. -
Page 18: Limits Of Use Of The Product
Safety ► Never put the device into operation with the high vacuum connection open. ► Keep lines and cables away from hot surfaces (> 70°C). ► Never fill or operate the unit with cleaning agents or cleaning agent residues. ► Do not carry out your own conversions or modifications on the unit. ►... -
Page 19: Personnel Qualification
The work described in this document may only be carried out by persons who have appropriate profes- sional qualifications and the necessary experience or who have completed the necessary training as provided by Pfeiffer Vacuum. Training people 1. Train the technical personnel on the product. -
Page 20: Personnel Qualification For Maintenance And Repair
─ Customer with Pfeiffer Vacuum service training ─ Pfeiffer Vacuum service technician 2.7.3 Advanced training with Pfeiffer Vacuum For optimal and trouble-free use of this product, Pfeiffer Vacuum offers a comprehensive range of courses and technical trainings. For more information, please contact Pfeiffer Vacuum technical training. -
Page 21: Product Description
Product description 3 Product description 3.1 Function The turbopump forms a compact unit with the electronic drive unit and the integrated power supply pack. The Temperature Management System (TMS) prevents condensable process residues through control- led heating of the pump housing. The cooling system ensures safe and sufficient heat dissipation with- out energy loss during the heating process. -
Page 22: Cooling
ID no. 000021320. 3.2.1 Product types The product designation of Pfeiffer Vacuum turbopumps from the HiPace series is composed of the family name, the size (which is based on the pumping speed of the vacuum pump) and, if required, an additional feature description. -
Page 23: Scope Of Delivery
Product description Mains voltage ± 10% Motor input power of the electronic drive unit 100 to 120 V AC 700 to 930 W 200 to 240 V AC 1200 W Tbl. 6: Delivered drive power depending on the supplied mains voltage 3.3 Scope of delivery ●... -
Page 24: Transportation And Storage
► Drain off the operating fluid before moving or transporting the vacuum pump. ► Only fill the vacuum pump with operating fluid after mechanical installation. Pfeiffer Vacuum recommends keeping the transport packaging and original protective cov- General information regarding safe transport 1. -
Page 25: Transport In Horizontal Orientation
Transportation and Storage 60° 60° Fig. 4: Slinging points for vertical transport of the turbopump without packaging Instructions for vertical transport 2 eye bolts are included in the shipment and are firmly bolted to the turbopump ex works. 1. Transport the turbopump in its permissible position only. 2. -
Page 26: Storage
– Keep the eye bolt for future use. 4.2 Storage We recommend Pfeiffer Vacuum recommends storing the products in their original transport packaging. Storing the turbopump 1. Seal all flange openings with the original protective caps. 2. Seal all other connections (e.g. venting connection) with the corresponding original parts. -
Page 27: Installation
Installation 5 Installation The installation of the turbopump and its fastening is of outstanding importance. The rotor of the turbo- pump revolves at very high speed. In practice it is not possible to exclude the risk of the rotor touching the stator (e.g. due to the penetration of foreign bodies into the high vacuum connection). The kinetic energy released acts on the housing and on the anchoring of the turbopump within fractions of a sec- ond. -
Page 28: Connecting The High Vacuum Side
● Make sure that all the torques generated if the rotor blocks suddenly, are absorbed by the system on the operator side and the high vacuum connection. ● Only use the approved mounting kits of Pfeiffer Vacuum for the high vacuum connec- tion of the turbopump. -
Page 29: Using A Splinter Shield Or Protective Screen
1 Safety connection, customer-side 5.2.3 Using a splinter shield or protective screen Pfeiffer Vacuum centering rings with splinter shield or protective screen in the high vacuum flange pro- tect the Turbopump against foreign matter from the vacuum chamber. The pumping speed of the pump is reduced according to the passage guide values and the size of the high vacuum flange. -
Page 30: Mounting Orientations
Installation 5.2.5 Mounting orientations NOTICE Destruction of the vacuum pump due to failure to observe the type-specific spatial position Impermissible spatial positions lead to pollution of the vacuum pump by operating fluid. There is a risk of pollution of the process vacuum and damage to the vacuum pump up to and including its de- struction. -
Page 31: Attaching Iso-K Flange Onto Iso-K
Flange connection ISO-K to ISO-F, bracket screws Connection with bracket screw 1. For the connection of the turbopump, use only the approved mounting kits from Pfeiffer Vacuum. 2. Connect the flange with the components of the mounting kit according to the figure. -
Page 32: Fig. 11: Flange Connection Iso-K To Iso-F, Hexagon Head Screw And Tapped Hole
Flange connection ISO-K to ISO-F, hexagon head screw and tapped hole Connection of the hexagon head screw and tapped hole 1. For the connection of the turbopump, use only the approved mounting kits from Pfeiffer Vacuum. 2. Place the collar flange over the high vacuum flange of the turbopump. -
Page 33: Attaching Iso-F Flange To Iso-F
Connection of the hexagon head screw and tapped hole 1. For the connection of the turbopump, use only the approved mounting kits from Pfeiffer Vacuum. 2. Attach the turbopump with centering ring to the counter flange according to the figure. -
Page 34: Filling The Operating Fluid
Connection of the stud screw and tapped hole 1. For the connection of the turbopump, use only the approved mounting kits from Pfeiffer Vacuum. 2. Screw in the stud screws with the shorter end in the tapped holes on the counter flange. -
Page 35: Connecting Fore-Vacuum Side
Installation Fig. 18: The position of the filler screws depends on the mounting orientation. Example: Standard versions Direction of the high vacuum connection Fig. 19: The position of the filler screws depends on the mounting orientation. Example: U versions Direction of the high vacuum connection Procedure 1. -
Page 36: Cooling Water Connection
Use the turbopump only in combination with a suitable backing pump that can deliver up to the required maximum fore-vacuum pressure. To achieve the fore-vacuum pressure, use a suitable vacuum pump or a pumping station from the Pfeiffer Vacuum range. In this case, the backing pump is also controlled directly via the turbopump electronic drive unit interfaces (e.g., relay box or connection cable). -
Page 37: Establishing A Cooling Water Connection With Hose Nozzles
Installation Parameter Cooling water Appearance ● filtered ● mechanically clear ● visually clear ● no turbidity ● no sediment ● free from grease and oil pH value 7 to 9 Carbonate hardness, max. 10 °dH 12.53 °e 17.8 °fH 178 ppm CaC0 Chloride content, max. -
Page 38: Establishing A Cooling Water Connection With Pipe Fittings
2 Cooling water inlet, 1/4" thread Threaded nozzle (2x) Procedure Pfeiffer Vacuum recommends the use of a dirt trap in the supply line. 1. Screw one hose nozzle with sealing ring onto each of the turbopump's cooling water connections. – Tightening torque: max. 15 Nm 2. -
Page 39: Connecting Accessories To Turbopumps With Tms
3 Return line Procedure Pfeiffer Vacuum recommends the use of a dirt trap in the supply line. 1. Debur the internal and external diameter of the pipe on the connection side. 2. Insert the pipe into the pipe fitting up to the limit stop. -
Page 40: Connecting Sealing Gas
► Observe the installation instructions in the operating instructions for the relevant accessory. ► Note the existing configuration of existing connections. ► Use the Pfeiffer Vacuum display and control unit DCU 002, or a DCU with integrated power supply pack. -
Page 41: Installing A Circuit Breaker
Installation Installing the mains disconnection device 1. Install a mains disconnection device as a main switch. 2. Specify the mains disconnection device according to SEMI-S2. 3. Use a circuit breaker with an interrupting capacity of at least 10 kA. 5.8.1 Installing a circuit breaker Circuit breaker Tripping characteristic B or C according to IEC 60947-2... -
Page 42: Establishing The Electric Connection
There are two options for the mains connection for the turbopump and the TMS box. ► Make sure that you have the correct supply voltage. ► Order a corresponding power supply cable from the Pfeiffer Vacuum accessories range. ► Assemble your own power supply cable using the HAN 3A connecting sockets from the shipment. -
Page 43: Operation
Simultaneous loading by means of high drive power (gas throughput, fore-vacuum pressure), high heat radiation, or strong magnetic fields results in uncontrolled heating of the rotor and can destroy the vacuum pump. ► Consult Pfeiffer Vacuum before combining varying loads on the vacuum pump. Lower limit val- ues apply. NOTICE... -
Page 44: Operating Modes
Instructions for operation without control panel 1. Use only the approved Pfeiffer Vacuum mating plug with bridges on the connection of the elec- tronic drive unit. 2. Switch on the mains supply of the turbopump only immediately before operation. -
Page 45: Switching On The Turbopump
Operation The following are available: ● Profibus ● EtherCAT ● DeviceNet Instructions for field bus operation ► See the operating manual of the electronic drive unit with corresponding connection panel. 6.3 Switching on the turbopump WARNING Danger of cut injuries from unexpected start up. The use of mating plugs of the electronic drive unit (accessories) enables the automatic run-up of the vacuum pump as soon the power is turned on. -
Page 46: Operation With Tms
6.5.1 Operating mode display via LED LEDs on the electronic drive unit show the basic operating states of the vacuum pump. A differentiated error and warning display is only possible for operation with the Pfeiffer Vacuum display and control unit or a PC. -
Page 47: Temperature Monitoring
Operation Symbol LED status Display Meaning Currentless On, flashing "pumping station OFF", rotation speed ≤ 60 rpm Green On, inverse flashing "pumping station ON", set rotation speed not reached On, constant "pumping station ON", set rotation speed reached On, flashing "pumping station OFF", speed >... -
Page 48: Tbl. 17: Factory Settings For Delayed Venting In Turbopumps
General information for fast venting We recommend fast venting of larger volumes in 4 steps. 1. Use a Pfeiffer Vacuum venting valve for the turbopump, or match the valve cross-section to the size of the recipient and maximum venting rate. -
Page 49: Maintenance
5. Replace the operating fluid at least every 4 years. 6. Have Pfeiffer Vacuum Service replace the rotor bearing of the turbopump at least every 4 years. 7. Consult with Pfeiffer Vacuum Service about shorter maintenance intervals for extreme loads or im- pure processes. -
Page 50: Changing The Operating Fluid
Maintenance 7.3 Changing the operating fluid WARNING Risk of poisoning from contact with harmful substances The operating fluid and parts of the turbopump may contain toxic substances from pumped media. ► Decontaminate affected parts before carrying out maintenance work. ► Prevent health hazards or environmental impacts with adequate safety precautions. ►... -
Page 51: Filling The Operating Fluid
► Only fill the turbopump with operating fluid after mechanical installation. ► Fill the turbopump with operating fluid via one of the filler screws marked with an oil can symbol only. ► If in doubt, contact Pfeiffer Vacuum. Required consumables ● Operating fluid F3, 50 ml Required tools ●... -
Page 52: Replacing The Electronic Drive Unit
Maintenance Fig. 27: The position of the filler screws depends on the mounting orientation. Example: U versions Direction of the high vacuum connection Procedure 1. Unscrew and remove the higher filler screw from the operating fluid pump. 2. Use the syringe and the operating fluid from the turbopump shipment. 3. -
Page 53: Removing Electronic Drive Unit
Maintenance Backing up settings made by the customer The factory operating parameters are always preset in replacement units. All settings made by the customer to the original electronic drive unit are lost when it is replaced. To preserve your custom settings, you have the following options: 1. -
Page 54: Confirming The Speed Specification
Tbl. 18: Characteristic nominal rotation speeds of the turbopumps Required aids ● A connected Pfeiffer Vacuum display and control unit. ● Knowledge of the configuration and setting of electronic drive unit operating parameters. Adjusting the nominal rotation speed confirmation 1. Observe the display and control unit operating instructions. -
Page 55: Replacing The Heating Jacket
Maintenance 7.5 Replacing the heating jacket WARNING Risk of burns on hot surfaces when using additional equipment for heating during operation The use of additional equipment for heating the vacuum pump or for optimizing the process gener- ates very high temperatures on surfaces that can be touched. There is a risk of burning. ►... -
Page 56: Installing A Heating Jacket
Maintenance 7.5.2 Installing a heating jacket Fig. 31: Installing a heating jacket 1 Heating jacket Plug 2 Lashing strap TMS box Installing a heating jacket 1. Fit the new heating jacket around the cylindrical section of the pump housing. 2. Tighten the lashing strap. 3. -
Page 57: Mounting The Pipe Fittings
Maintenance Fig. 32: Dismantling the pipe fittings 1 Marking on the pipe Lock nut 2 Marking on the lock nut Connector body 3 Marking on the connector body Dismantling the pipe fitting Swagelok pipe fittings can be repeatedly dismantled and remounted. 1. -
Page 58: Decommissioning
Procedures for recommissioning the turbopump 1. Check the turbopump for pollution and moisture. 2. Clean the turbopump exterior with a lint-free cloth and a little isopropanol. 3. If necessary, arrange for Pfeiffer Vacuum Service to completely clean the turbopump. 58/76... - Page 59 Decommissioning 4. Observe the total running time of the turbopump and if necessary, arrange for Pfeiffer Vac- uum Service to replace the bearing. 5. Change the turbopump's operating fluid. 6. Install the turbopump according to these instructions (see chapter “Installation”, page 27).
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Page 60: Recycling And Disposal
9.1 General disposal information Pfeiffer Vacuum products contain materials that you must recycle. ► Dispose of our products according to the following: – Iron –... -
Page 61: Malfunctions
► Follow the installation instructions for this turbopump. ► Observe the requirements regarding stability and design of the counter flange. ► Use only original accessories or fixing material approved by Pfeiffer Vacuum for the installation. WARNING Risk of injury caused by the turbopump breaking away with the vibration compensator in the event of a malfunction Sudden jamming of the rotor generates high destructive torques in accordance with ISO 27892. - Page 62 ● Electronic drive unit de- ● Replace the electronic drive unit. fective ● Contact Pfeiffer Vacuum Service. Turbopump will not start up; green ● For operation without ● Connect the connections according to the elec- LED on the electronic drive unit is control unit: Pins 1-3, tronic drive unit connection diagram.
- Page 63 ● Carry out a differentiated malfunction analysis with a display and control unit. ● Contact Pfeiffer Vacuum Service. Cooling water has soaked the in- ● Leakage in cooling water ● Remove the heater plug from the TMS box.
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Page 64: Service Solutions By Pfeiffer Vacuum
We are always focused on perfecting our core competence – servicing of vacuum components. Once you have purchased a product from Pfeiffer Vacuum, our service is far from over. This is often exactly where service begins. Obviously, in proven Pfeiffer Vacuum quality. - Page 65 Service solutions by Pfeiffer Vacuum 5. Prepare the product for transport in accordance with the provisions in the contamination declaration. a) Neutralize the product with nitrogen or dry air. b) Seal all openings with blind flanges, so that they are airtight.
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Page 66: Spare Parts
Spare parts 12 Spare parts Fig. 34: Spare parts HiPace 2300 IT | IUT Position Designation Size Order number Remark Pieces Electronic drive unit refer to the rating plate depending on the connection TC 1200 panel E74 plug 15-pole P 4723 110 depending on TC version, (with jumpers) Remote plug... -
Page 67: Accessories
Optionally with splinter shield or protective screen. Power supply packs and display units Power supply packs for optimal voltage supply of Pfeiffer Vacuum products are characterized by their compact size and adapted power supply with maximum reliability. Display and operating units are used to check and adjust operating parameters. -
Page 68: Tbl. 21: Accessories
Accessories Description Order number Mounting kit for DN 250 ISO-F, including coated centering ring, stud screws PM 016 485 -T Mounting kit for DN 250 ISO-F, including coated centering ring, splinter shield, stud PM 016 486 -T screws Mounting kit for DN 250 ISO-F, including coated centering ring, protective screen, PM 016 487 -T stud screws Mounting kit for DN 250 ISO-K to ISO-F, with collar flange, coated centering ring,... -
Page 69: Technical Data And Dimensions
Technical data and dimensions 14 Technical data and dimensions 14.1 General This section describes the basis for the technical data of Pfeiffer Vacuum turbopumps. Technical data Maximum values refer exclusively to the input as a single load. ● Specifications according to PNEUROP committee PN5 ●... - Page 70 Technical data and dimensions Type designation HiPace® 2300 IT HiPace® 2300 IT HiPace® 2300 IT HiPace® 2300 IT Run-up time 4 min 4 min 4 min 4 min Pumping speed for Ar 1800 l/s 1800 l/s 1800 l/s 1800 l/s Pumping speed for H 1850 l/s 1850 l/s...
- Page 71 Technical data and dimensions Type designation HiPace® 2300 IT HiPace® 2300 IT HiPace® 2300 IT HiPace® 2300 IT Max. connection pressure 1500 hPa 1500 hPa 1500 hPa 1500 hPa (abs.) for venting/sealing gas valve Cooling water connection G 1/4” G 1/4” G 1/4”...
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Page 72: Dimensions
-25 – 55 °C -25 – 55 °C -25 – 55 °C -25 – 55 °C ature Weight 41.5 kg 42.6 kg 41.5 kg 42.6 kg Tbl. 25: Technical data for HiPace 2300 IUT, overhead version 14.3 Dimensions Dimensions in mm 72/76... -
Page 73: Fig. 35: Hipace 2300 It | Tc 1200 Dn 250 Iso-K
Fig. 36: HiPace 2300 IT | TC 1200 DN 250 ISO-F cooling water out Ø 7-8 mm cooling water in TMS box DN 40 ISO-KF DN 250 ISO-K Fig. 37: HiPace 2300 IUT | TC 1200 DN 250 ISO-K 73/76... -
Page 74: Fig. 38: Hipace 2300 Iut | Tc 1200 Dn 250 Iso-F
Technical data and dimensions cooling water out cooling water in DN 40 ISO-KF DN 250 ISO-F Fig. 38: HiPace 2300 IUT | TC 1200 DN 250 ISO-F 74/76... -
Page 75: Declaration Of Conformity
DIN EN 61010-1: 2011 DIN EN 61326-1: 2013 DIN EN 62061: 2013 The authorized representative for the compilation of technical documents is Mr. Tobias Stoll, Pfeiffer Vacuum GmbH, Berliner Straße 43, 35614 Asslar, Germany. Signature: Pfeiffer Vacuum GmbH Berliner Straße 43...
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