Created by EBCCW 00:06 96:05 Created by EBCCW 00:06 5112204 Elevator User Manual
Created by EBCCW 00:06 96:05
Elevator User Manual © Flexlink Components AB 2010 All Rights Reserved No part of this program and manual may be used, reproduced, stored or transmitted in any form or by any means without the written permission of FlexLink Components AB. The contents of this manual are for informational use only. All information and specifications contained in this document have been carefully checked to the best efforts of FlexLink Components AB, and are believed to be true and accurate as of time of publishing.
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Created by EBCCW 00:06 5112204 Preface 1 1 Safety 3 1.1 System information 3 1.2 Important safety conditions 4 1.3 Description of safety provisions 6 1.4 Safety measures to be taken 13 1.5 Explanation of symbols 13 2 Technical specification 15 2.1 Technical data 16 2.2 Ordering information 17 2.3 Operating conditions 19 3 Introduction function and components 20 3.1 Purpose of use 20 3.2 Description of the Elevator 21 3.
ii 4.1 Preparation 34 4.2 Unloading instructions 35 5 Installation and adjustment 38 5.1 Provisions to be provided 38 5.2 Mechanical assembly 39 5.3 Electrical installation and controls 41 5.4 Test run 43 5.5 Adjustment 44 5.6 Check / Shadow run 56 6 Instructions for use 58 6.1 Handling 58 6.2 Manual operation 59 7 Technical maintenance 60 7.1 Check and control procedures 60 7.2 Maintenance procedures 61 7.
Created by EBCCW 00:06 5112204 7.4 Maintenance schedule elevator 64 8 Put out of commission 65 8.1 Disconnect the power sources 65 8.2 Disassemble 65 8.3 Transport 66 8.4 Reuse 66 9 Recommended spare parts 67 9.1 Mechanical 67 9.
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Preface Preface Purpose of this manual The purpose of this manual is to describe a number of operations that are intended for the user concerned. Here it becomes clear how the user can work as well and as safely as possible. By making use of clear illustrations and texts FlexLink wants to achieve a simple and safe way of working with the Elevator. This document contains remarks that point out a risky or specific situation to the user.
Preface Requirements of the user The Elevator may be operated by any adult person who has become acquainted with section Safety. If the user is not technically qualified, he or she may not carry out any maintenance or repair activities on the elevator. . . 2 Note! Maintenance activities on the elevator may only be carried out by a technically qualified person.
Safety 1 Safety The Elevator has been designed in such a way, that it can be used and maintained in a safe way. This holds for the application, the circumstances and the instructions described in the manual. Any person working with or on this machine should study the manual and follow the instructions. It is the responsibility of the employer to make sure that the employee is familiar with and follows these instructions.
Safety 1.2 Important safety conditions At the moment that the elevator is going to be operated by a user, the following safety conditions must be met: • Make sure that children or animals have no access to the machine and its surrounding area by, for example, screening off the elevator with a fence. • Only persons who have read and understood the operating instructions are allowed to operate, maintain and clean the machine. • Do not reach into the machine while it is running or on.
Safety 1.2.2 . Service technicians must have: • Sufficient knowledge for reading technical information • Ability to comprehend technical drawings • Basic knowledge of mechanics • Sufficient knowledge in the use of hand tools 1.2.3 .
Safety 1.3 Description of safety provisions As a standard the Elevator is not provided with control and any safety provisions. Before putting the Elevator into operation some safety provisions are to be taken care of. The purpose of these safety provisions is to protect the user, the product and the Elevator against undesired situations (damage). Without these safety provisions FlexLink cannot give a guarantee on any damage caused in absence of these safety provisions.
Safety Note! If it cannot be made sure that there will be no product on the machine that exceeds the minimum or maximum dimensions (see technical specification), the detector described below must be installed on the Elevator. . Height / width detector The product that is put into the Elevator may not get stuck as a result of a too high / wide or twisted product. In order to ensure that products fit in the Elevator and will not get stuck, the input of the Elevator can be checked for height / width.
Safety 1.3.1 Safety system architecture The safety system architecture varies depending on elevator version. Elevators require motor supply voltage and permanent 24V DC power supply for communication devices. Motor supply voltage depends on version (50 Hz version: 400 V AC, 60 Hz version: 480 V AC). Safe 24V DC (disconnected at emergency) is not used although the elevator provides means for passing on the power. 1.3.1.
Safety 1.3.1.2 Profisafe versions Emergency switch and door switch Safety fieldbus protocols provide flexibility in safety architecture. The emergency switch and door switch are connected to safe inputs of the communication interface inside the control box of elevator. Safety outputs of the communication interface disconnects the motor power supply internally in the elevator. Motor supply voltage (VAC) Line main cabinet Permanent 24VDC Safe 24VDC Elevator Safety comm.
Safety 1.3.2 Emergency stops If personal safety is endangered or if there is a risk for equipment damage, the emergency stop button must be immediately pressed. An emergency stop button is mounted on the front of the electrical cabinet. Figure 4 Location of emergency stop button . The emergency stop device does not disconnect power to the machine. For more detailed information about the emergency stop function, see the application manual.
Safety 1.3.3 . Guards The elevator consists of moving parts that can cause injury. Feed-in and feed-out areas around the elevator are unprotected; they must be protected by, for example, the installation of tunnels or similar devices. The elevator may not be operated if the door switch is inoperable or if a stationary guard is improperly fitted. Stationary guards The elevator is protected by stationary guards of clear PC and aluminium.
Safety Examples of service work include: • Disconnection of wiring • Replacement of motors, etc. • Service work in the electrical cabinet, terminal boxes, etc. • Service work performed on the machine that cannot be seen from the electrical cabinet. For adjustment of photo-electric cells, inductive sensors, etc., power is required: - Stop the machine and wait until the moving parts have come to a complete stop. - Ensure that "Start" is turned off. - Open the elevator door. - Make adjustment.
Safety 1.4 Safety measures to be taken For a safe operation of the Elevator a number of safety measures are to be taken. These include the following measures: • Clean floor surface - With a clean floor surface the operator will not be hindered while operating the Elevator. This can prevent tripping or slipping, so that the operator does not unexpectedly come into contact with the Elevator. 1.
Safety 5. Start According to IEC 60417. Pictogram at pushbutton on control box door. 6. Stop According to IEC 60417. Pictogram at pushbutton on control box door. 7. Alarm reset According to IEC 60417. Pictogram at pushbutton on control box door. 8. Up/Down According to IEC 60417. Pictogram at pushbutton on control box door.
Technical specification 2 Technical specification Complete turn-key version. In feed and discharge protections are not included. Cycle time 13- 16 sec (low elevator) 18- 24 sec (high elevator) Max weight* * Max product height 400 mm A number of pallets can be elevated at the same time. Conveyor length Max. length 550/640 mm Conveyor speed 15 m/min Electrical environment 50 Hz: 400 V AC 60 Hz: 480 V AC ESD version elevators are available.
Technical specification 2.
Technical specification 2.
Technical specification Input Variable A- Platform: X85 XK XT B- Pallet width: 240 320 400 480 640 C- Product height: 1-400 mm D- In feed and discharge positions: A A B E F C C D B D E- Door positions: E= Left F= Right E F- Lower height: F Low elevator 300-600 mm High elevator 300-1200 mm G- Upper height: Low elevator 900-1400 mm High elevator 2400-3000 mm H- Drive unit version 50 Hz, European 60 Hz, American I- Fieldbus: PB: Profibus PS: Profisafe DN: Device net J- ESD versio
Technical specification 2.3 Operating conditions The circumstances under which the Elevator can be applied partly depend on the materials selected. FlexLink has defined a number of parameters within which the Elevator would be allowed to function. Should the Elevator still be applied beyond these limiting values, FlexLink cannot guarantee the good functioning of the Elevator.
Introduction function and components 3 Introduction function and components 3.1 Purpose of use The elevator changes the elevation of products in a flow, such as boxes or pallets, according to the principle of first in/first out.
Introduction function and components 3.2 Description of the Elevator The elevator primarily consists of two main units: • Control system • Mechanical lifting device Control system Figure 6 Electrical cabinet Central intelligence and distributed I/O Created by EBCCW 00:06 The elevator is to be controlled by a Line controller and do not itself contain any intelligence such as PLC.
Introduction function and components Safety system Profibus and DeviceNet versions includes an autonomous safety system for the door switch, disconnecting the power suply to the motors through the safety relay and main contactors. For Profisafe versions the door switch and emergency switch are connected to safety inputs of the communication interface. Main contactors are connected to safety outputs of the communication interface.
Introduction function and components Mechanical lifting device For RTI elevators (Paternoster), the lifting device consists of a number of carriers attached to a roller chain. These are powered by a Movimot brake motor mounted in the lower part of the elevator. Feed-in and discharge devices are required for feeding in and feeding out pallets. These are not included with the elevator.
Introduction function and components 3.2.1 Components 3.2.1.1 Electrical cabinet The electrical cabinet is fitted in the front of elevator. The door is equipped with the required means of maneuvering (pushbuttons/lamps) and module electrical main switch. The main switch do not disconnect 24 V DC power supply to module. Figure 8 Electrical cabinet The through-puts in the bottom of box is according to module version, see electrical drawings.
Introduction function and components The fieldbus cable is connected by fast connectors as mentioned above, see electrical documentation. If the module contains several communication interfaces, such as the advanced versions with field distributor, there is still only one connection point for fieldbus. Outside and below the electrical cabinet is the connection point for equipotential bonding, see electrical documentation. .. Warning: The voltage is 400 V AC (or 480 V AC).
Introduction function and components 3.2.1.2 Field distributor The field distributor, used in advanced versions, is the communication interface of the adjustable speed drive for the vertical motion.
Introduction function and components 3.2.1.3 Motor Figure 10 Adjustable speed drive (motor with frequency inverter) Created by EBCCW 00:06 An adjustable speed drive powers the elevator's lifting motion, vertical motion, via roller chain/gears. The drive package is mounted in the lower part of the elevator.
Introduction function and components 3.2.1.4 Guards The elevator consists or moving parts that can cause injury. Feed-in and discharge are covered by stationary and openable guards. The elevator may not be operated if the door switch is inoperable or if a stationary guard is improperly fitted. Stationary guards The elevator is protected by stationary guards of clear PC and aluminium. These guards must be correctly fitted when the elevator is in service.
Introduction function and components Possible conveyor motors placed inside elevator, not part of Elevator module, are not affected by the door switch. Elevator module Vertical motion Discharge conveyor Not part of module Horizontal motion In-feed conveyor Not part of module Figure 12 Elevator module Created by EBCCW 00:06 . 5112204 Warning: Stop the elevator before opening the door. Do not open the door for the purpose of stopping the elevator.
Introduction function and components 3.2.1.5 Sensors 3.2.1.5.1 Lift cage XT Inductive lift cage position sensor X85/XK Photo-electric lift cage position sensor X85/XK Reflector of photo-electric lift cage position sensor Figure 13 Photo-electric cells Photo-electric or inductive sensors, depending on version, are used for detecting that product is positioned in the lift cage.
Introduction function and components 3.2.1.5.2 Vertical motion Lifting interlock sensor Vertical motion position sensors Lifting interlock sensor reflector Figure 14 Inductive sensors Vertical motion sensors Inductive sensors are used at stop positions and low-speed stretches of the vertical motion. Interlocking sensors Created by EBCCW 00:06 Retro-reflective photo-electric sensors are mounted in the upper part of frame with reflectors mounted on the bottom plate of elevator.
Introduction function and components 3.2.1.5.3 Limit switches This does not apply to RTI units. These should be protected by the application. Figure 15 Limit switches The limit switches are located in the upper and lower parts of the frame and are activated in the event of excessive lifting device travel. The upper limit switch interlock the vertical motion upwards electrically and vice versa for the lower limit switch. Thus, activating the lower limit switch still allows upward motion.
Introduction function and components 3.3 Working principle The purpose of the elevator is to transport products / goods vertically to bridge a difference of height or to function as buffer zone. A E Height (Top of chain) F C B A E F E, F Available door positions Right Left Top View D C B D Figure 16 Principle sketch elevator Created by EBCCW 00:06 In most cases the Elevator is integrated in a system. The input / output side of the Elevator is determined by the application.
Unload the elevator 4 Unload the elevator 4.1 Preparation This section describes the steps that are required for unloading the Elevator. It is recommended to make use of the devices described. When using this or another device, this device is expected to be provided with a quality mark. . Note! The operations concerned are to be carried out calmly in order to be able to carefully monitor any movement of the Elevator. Before starting the unloading a good preparation is required.
Unload the elevator 4.2 Unloading instructions Before starting unloading, all fastening means (securing belts, screws, etc.) that secure the Elevator unto the means of transport must be removed. Subsequently check whether the transport supports are still connected well to the Elevator. After this the unloading procedure may be started. 4.2.
Unload the elevator . . . . 36 Note! Be careful that the Elevator does not tip at the moment it almost has been hoisted in the upright position. Make sure there are no persons near the Elevator! Note! Carry out these operations calmly in order to be able to carefully monitor any movement of the Elevator. Note! It is forbidden to walk under the Elevator during putting upright.
Created by EBCCW 00:06 Unload the elevator 1 2 3 4 Figure 17 Erecting the Elevator 5112204 37
Installation and adjustment 5 Installation and adjustment This section deals with the operations to have the elevator function well within a (transport) system. First section 1.2 on page 4, in which the provisions to be taken care of are given, should be studied carefully. section 1.3 on page 6 is particularly important for the elevators that are delivered to the end user not fully assembled. 5.
Installation and adjustment 5.2 Mechanical assembly 5.2.1 Integration in a (transport) system The elevator is a machine that is integrated in a system of conveyors. This means that an input and output are to be connected to it. If the elevator is to be fitted into an existing situation, this usually gives more problems than in a completely new situation. In both cases one should aim at optimum functioning. 5.2.
Installation and adjustment 5.2.3 Validation No. Component Remark Checked 1. Lower end Has the lower end the correct height. For the correct height we refer to the technical specification. Yes / No 2. Upper end Has the upper end the correct height. For the correct height we refer to the technical specification. Yes / No 3. Elevator Is there enough space around the elevator to allow working on it. Yes / No 4.
Installation and adjustment 5.3 Electrical installation and controls 5.3.1 Electrical installation During this phase all necessary cabling is connected to elevator and application code software for controlling the elevator is downloaded to the line controller (IPC/PLC) as well as the fieldbus hardware configuration. Reference to the electrical documentation for the version in question.
Installation and adjustment 5.3.2 Validation The purpose of the validation phase is to prepare the elevator for test run. The validation is performed with empty elevator. No products in elevator. Reference to electrical documentation. Action Remark Power on - Motor supply (Version dependent. 50 Hz: 400 V AC, 60 Hz: 480 V AC) - 24 V DC Voltage check Check equipotential bonding. Check voltages. Turn elevator control box circuit breakers on. Safety check Check that safety system is working properly.
Installation and adjustment 5.4 Test run The purpose is to check functionality. Testing is performed by running manually with an empty elevator without products. Adjustment for making the lift cage stop exactly in horizontal line with connecting tracks is performed in a later stage. Action Remark Manual mode check Elevator can be set to manual mode enabling vertical motion up/down. Vertical motion and end positions Run elevator carefully towards end-position. Listen for noise and vibrations.
Installation and adjustment 5.5 Adjustment 5.5.1 Electrical cabinet The electrical cabinet contains several items which needs correct settings before usage: . • Contactor (for horizontal drive) • Communication interface 5.5.1.1 Adjustment For designations of contactor and communication interface see electrical documentation. Contactor for horizontal drive The contactor includes motor protection which must be adjusted to the rated current of motor.
Installation and adjustment Instruction 1 Activate the reset button for more than 6 s to reach the operating mode "Parameterization" - the green LED PWR flashes once. The LEDs are switched off at intervals of 2 s for 0.3 s in the operating mode "Parameterization" to differentiate from other operating conditions. 2 Set the rated current of the drive with the 240° potentiometer, for value see below. The four LEDs display the set current. Current setting = 0.41 A: PWR=0, ERR=0, L=1, R=0.
Installation and adjustment 5.5.2.1 Adjustments Adress (dip switches) Figure 22 Terminal box cover • Switch off power supply prior to removing/installing the terminalbox cover. • Ensure before startup that all protective covers have been fitted correctly. Necessary settings: • Address (dip switches) For more information see manufacturer manual.
Installation and adjustment 5.5.3 Vertical motion drive Figure 23 Adjustable speed drive (motor with frequency inverter) The motor is frequency controlled with the frequency converter integrated on the motor. The converter requires settings according to application. The drive powers the elevator's lifting motion, via roller chain/gears. The drive package is mounted in the lower part of the elevator. 5.5.3.1 Adjustments Reference to electrical documentation. Reference to manufacturer manual.
Installation and adjustment f2 f1 t1 S1, S2 Figure 24 Frequency controlled Standard elevator settings Potentiometers: • Nominal speed (f1) • Low speed (f2) • Acceleration (t1) • Dip switch (S1, S2) • Address and PWM frequency Advanced elevator settings Potentiometers: • Nominal speed (f1) • Acceleration (f2) • Dip switch (S1, S2) • Address and PWM frequency For more information, see manufacture manual.
Installation and adjustment Adjustment procedure, See section 7.2.2 on page 61 5-10 mm Adjustable screws 2-3 mm Figure 25 Drive and drift chain adjustment 5.5.4 Connecting tracks Elevator lift cage conveyor speed see Technical specification on page 15 The optimal speed of the connecting tracks is equal to elevator lift cage conveyor speed as this prevents product twisting and wear of the high friction conveyor plates. The speed difference may not exceed 15%.
Installation and adjustment 5.5.5.1 Stationary guards The elevator is protected by stationary guards of clear PC and aluminium. These guards must be correctly fitted when the elevator is in service. The stationary guards must be in place when the power is on. 5.5.5.2 Openable guard The elevator is equipped with a service door for accessing the interior. This door is equipped with a door switch. 5.5.5.3 Adjustment To be positioned in line according to figure below. Figure 26 Safety switch, door .
Installation and adjustment 5.5.6 Sensors 5.5.6.1 Lift cage XT Inductive lift cage position sensor X85/XK Photo-electric lift cage position sensor X85/XK Reflector of photo-electric lift cage position sensor Figure 27 Photo-electric cells Photo-electric or inductive sensors, depending on version, are used for detecting that product is positioned in the lift cage.
Installation and adjustment 5.5.6.1.1 Adjustments Photo-electric sensor Adjust the sensor angle towards the reflector. Adjust the reflector angle making the light beam from sensor hit the reflector 90 degrees against reflective surface. The LED of sensor confirms reflection by reflector with not obstacles between. Any obstacle between should cause the LED to fall. If anything blocks the signal between the sensor and reflector, the LED indicator shall turn off.
Installation and adjustment 5.5.6.2.1 Adjustment Vertical motion sensors Interlocking Interlocking Vertical motion Up Low speed area Low speed Lift cage sensor flag Low speed Low speed area Down Reflector Reflector Figure 29 Vertical motion sensors The low speed and stop sensors for up and down must be adjusted in relation to motion speed and flag length. Created by EBCCW 00:06 The distance between low speed sensor and corresponding stop sensor is affected by: 5112204 • Flag length.
Installation and adjustment Interlocking sensors The light beam of the photo-electric sensor should hit the reflector. The lift cage should not act as obstacle at any height. 5.5.6.2.2 Adjustment The sensor is adjusted so that the XT conveyers stops within the area, limited by the two photo-electric laser cells (WL9L). 5.5.6.3 Limit switches This does not apply to RTI units. These should be protected by the application.
Installation and adjustment 5.5.6.3.1 Adjustment Created by EBCCW 00:06 The limit switches are positioned so that they are activated after the upper and lower feed-in and discharge positions and before the dampers (see the figure 30).
Installation and adjustment 5.6 Check / Shadow run In this paragraph the elevator will be checked in a semiloaded condition with all safety provisions activated. If during the shadow run irregular sounds or other anomalies occur or if the elevator does not meet the specification or if with a test of ALL products some of these do not fit on the track or get stuck or slip, the machine may not be tested further and advice should be obtained.
Created by EBCCW 00:06 Installation and adjustment 6. Are there any products that do not run over the transitions uninterruptedly. Yes / No Check the setting of the transition distance or the transition roller. See section 5.2.2 on page 39 ‘integration elevator’. 7. Is the product correctly supplied / discharged at the input / output track. Yes / No The system designer has determined this and will have guidelines with respect to this and know how to adjust an incorrect output. 8.
Instructions for use 6 Instructions for use 6.1 Handling The control box contains pushbuttons and indications (lamps) to start/stop/ jog/alarm och to reset alarms. Pictograms are used for describing purpose of pushbuttons and indications; Start, Stop, Reset, Jog up/down. Pushbutton and lamp overview "Start" is used for starting the module " Stop" is used for stopping the module normally. The elevator can be stopped normally in two ways, quickly or controlled.
Instructions for use Stop procedure Quick stop instruction: Press several times during one second. The elevator will stop immediately/quickly. It will not finish motions in progress. Controlled stop instruction: Press once per second. The elevator will finish ongoing motions before stopping. While stopping, the "Start"-indication flash quickly (2 Hz). When the elevator is stopped the "Start"-indication is off. Emergency stop Emergency stop must not be used for normal stop.
Technical maintenance 7 Technical maintenance Technical maintenance is an important part of this manual. Good maintenance will lead to cost reduction, because defects can be timely recognised and solved. This section starts with a troubleshooting list, subsequently a maintenance schedule is set up in section 7.2 on page 61 describes different maintenance activities.
Technical maintenance 7.2 Maintenance procedures Disconnect the power when performing maintenance on the elevator. . A clearly visible sign must be displayed, indicating that work is underway. If you have questions related to maintenance, contact FlexLink. 7.2.1 Cleaning Periodic cleaning keeps the elevator in service and extends its service life. Do not employ high pressure cleaning on drive ends, chains and electrical components. Cleaning behind guards is conducted with a damp cloth or sponge. 7.2.
Technical maintenance 7.2.3 Motor For standard elevators without field distributor the main switch of the cabinet needs to be switched off and locked prior to motor replacement. • Turn off electrical main switch of module located on control box door. • Check no voltage in motor. • Replace motor electrically and mechanically. • Set all DIP switches and thumb wheels in the cover of the motor according to replaced motor.
Technical maintenance 7.3 Troubleshooting If in doubt concerning the troubleshooting procedures below, contact FlexLink. Troubleshooting guide Symptom Cause Corrective action The elevator does not start Peripheral equipment is not connected. Power not on, emergency stop button pressed, door not closed, no signal from peripheral equipment or circuit breaker tripped. Only personnel with technical knowledge or equivalent sufficient experience may conduct the following actions.
Technical maintenance 7.4 Maintenance schedule elevator The elevator requires relatively little maintenance. Still some maintenance activities are to be carried out. Below there is a maintenance schedule with an interval that is referred to normal operating conditions in an organisation with one shift without excessive accumulation of dirt caused by the products or the environment conditions. The user has to apply an appropriate maintenance schedule dependent on the individual operating conditions.
Put out of commission 8 Put out of commission Place the elevator on a pallet or pallets with specially cut supports and with the electrical cabinet upwards. Secure the elevator with straps. The elevator must be well protected and strapped during transport. At the moment a elevator is put out of operation for some reason, a number of steps are to be taken in order to avoid dangerous situations.
Put out of commission 8.3 Transport While transporting the elevator a number of safety measures are to be taken. Use the tools / aids indicated in section. If not, it is assumed that the tool / device used instead is safe and provided with a quality mark. Carry out the transport operations calmly in order to be able to carefully monitor any movement of the elevator. Note! Vertical or horizontal movement depends on the height of the elevator.
Recommended spare parts 9 Recommended spare parts 9.
Recommended spare parts 12 14 Only XT 15 17 68 5112204
Recommended spare parts 18 8A, 10A 9 5, 6, 7 13 13 20 11 8B 10B Created by EBCCW 00:06 4B 16 5112204 4A 3 11 10B 69
Recommended spare parts Group Pos Part Part no.
Recommended spare parts Group Pos Part Part no. Designation Comments Supplier 18 Photo-electric laser cell 5111749 WL9L-P430 SICK 19 Door switch 5112509 PSEN 1.
Recommended spare parts 9.2 Electrical Spare parts list Kit 5112499 Des Name Manufacturer Manufacturer item nr Comment W320 Cable U.I. Lapp 1119 404 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 4G1.5 W330 Cable U.I.
Recommended spare parts Spare parts list Control box 5112396 Des Name Manufacturer Manufacturer item nr Comment K360, K361 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A360 Safety relay Pilz PNOZ s3 A410 Communication interface Siemens 6ES7151-1AA05-0AB0 T410 Connector Siemens 6ES7193-4CD
Recommended spare parts Spare parts list Kit 5112226 Des Name Manufacturer Manufacturer item nr W320 Cable U.I. Lapp 1119 404 Comment 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 4G1.5 W330 Cable U.I.
Recommended spare parts Spare parts list Control box 5112396 Des Name Manufacturer Manufacturer item nr Comment K360, K361 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A360 Safety relay Pilz PNOZ s3 A410 Communication interface Siemens 6ES7151-1AA05-0AB0 T410 Connector Siemens 6ES7193-4CD
Recommended spare parts Spare parts list Kit 5112227 Des Name Manufacturer Manufacturer item nr Comment W320 Cable U.I. Lapp 1119 404 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 W330 Cable U.I. Lapp 1119 304 4G1.
Recommended spare parts Spare parts list Control box 5112234 Des Name Manufacturer Manufacturer item nr Comment K470, K471 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A410 Communication interface Siemens 6ES7151-1BA02-0AB0 T410 Connector Siemens 6ES7193-4CD30-0AA0 Power supply Siemens 6ES
Recommended spare parts Spare parts list Kit 5112229 Des Name Manufacturer Manufacturer item nr W320 Cable U.I. Lapp 1119 404 Comment 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 4G1.5 W330 Cable U.I.
Recommended spare parts Spare parts list Control box 5112234 Des Name Manufacturer Manufacturer item nr Comment K470, K471 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A410 Communication interface Siemens 6ES7151-1BA02-0AB0 T410 Connector Siemens 6ES7193-4CD30-0AA0 Power supply Siemens 6ES
Recommended spare parts Spare parts list Kit 5112230 Des Name Manufacturer Manufacturer item nr W320 Cable U.I. Lapp 281404 Comment 4G2.5, UL W321 Cable U.I. Lapp 281807 7G1 UL 2x0.75 UL W322 Cable U.I. Lapp 281602 W323 Cable U.I. Lapp 281602 2x0.75 UL W324 Cable U.I. Lapp 281805 5G1 UL W330 Cable U.I. Lapp 281604 4G1.
Recommended spare parts Spare parts list Control box 5112235 Des Name Manufacturer Manufacturer item nr Comment K360, K361 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 1489-A3C160 Q320 Auxiliary contact Moeller Electric 1489-AAHS3 K330 Contactor Phoenix Contact 2297031 A360 Safety relay Pilz PNOZ s3 A410 Communication interface Rockwell 1734-ADN A420, A430, A440 Input module Rockw
Recommended spare parts Spare parts list Kit 5112230 Des Name Manufacturer Manufacturer item nr W320 Cable U.I. Lapp 281404 Comment 4G2.5, UL W321 Cable U.I. Lapp 281807 7G1 UL 2x0.75 UL W322 Cable U.I. Lapp 281602 W323 Cable U.I. Lapp 281602 2x0.75 UL W324 Cable U.I. Lapp 281805 5G1 UL W330 Cable U.I. Lapp 281604 4G1.
Recommended spare parts Spare parts list Control box 5112235 Des Name Manufacturer Manufacturer item nr Comment K360, K361 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 1489-A3C160 Q320 Auxiliary contact Moeller Electric 1489-AAHS3 K330 Contactor Phoenix Contact 2297031 A360 Safety relay Pilz PNOZ s3 A410 Communication interface Rockwell 1734-ADN A420, A430, A440 Input module Rockw
Recommended spare parts Spare parts list Kit 5112224 Des Name Manufacturer Manufacturer item nr W320 Cable U.I. Lapp 1119 404 Comment 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 W325 (+ A001.X410) Connector with cable Phoenix Contact 1525571 Belongs to A001 W326 Cable U.I. Lapp 2170 220 Profibus W330 Cable U.I. Lapp 1119 304 4G1.
Recommended spare parts Spare parts list Control box 5112233 Des Name Manufacturer Manufacturer item nr Comment K360, K361 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 2297031 K330 Contactor Phoenix Contact A360 Safety relay Pilz PNOZ s3 A410 Communication interface Siemens 6ES7151-1AA05-0AB0 T410 Connector Siemens 6ES7193-4CD3
Recommended spare parts Spare parts list Kit 5112139 Des Name Manufacturer Manufacturer item nr Comment W320 Cable U.I. Lapp 1119 404 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 W330 Cable U.I. Lapp 1119 304 4G1.
Recommended spare parts Spare parts list Control box 5112233 Des Name Manufacturer Manufacturer item nr Comment K360, K361 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A360 Safety relay Pilz PNOZ s3 A410 Communication interface Siemens 6ES7151-1AA05-0AB0 T410 Connector Siemens 6ES7193-4CD
Recommended spare parts Spare parts list Kit 5112282 Des Name Manufacturer Manufacturer item nr Comment W320 Cable U.I. Lapp 1119 404 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 W325 (+ A001.X410) Cable with connector Phoenix Contact 1525571 Belongs to A001 W326 Cable U.I. Lapp 2170 220 Profibus W330 Cable U.I. Lapp 1119 304 4G1.
Recommended spare parts Spare parts list Control box 5112133 Des Name Manufacturer Manufacturer item nr Comment K470, K471 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A410 Communication interface Siemens 6ES7151-1BA02-0AB0 T410 Connector Siemens 6ES7193-4CD30-0AA0 Power supply Siemens 6ES
Recommended spare parts Spare parts list Kit 5112285 Des Name Manufacturer Manufacturer item nr W320 Cable U.I. Lapp 1119 404 Comment 4G2.5 W321 Cable U.I. Lapp 1119 107 7G0.75 W322 Cable U.I. Lapp 1119 802 2x0.75 W323 Cable U.I. Lapp 1119 802 2x0.75 W325 (+ A001.X410) Cable with connector Phoenix Contact 1525571 Belongs to A001 W326 Cable U.I. Lapp 2170 220 Profibus W330 Cable U.I. Lapp 1119 304 4G1.
Recommended spare parts Spare parts list Control box 5112133 Des Name Manufacturer Manufacturer item nr Comment K470, K471 Contactor Moeller Electric 276600 DILM7 Q300 Main switch Moeller Electric P1-25/V/SVB-SW Q320 Miniature circuit breaker Moeller Electric 278873 Q320 Auxiliary contact Moeller Electric 286054 K330 Contactor Phoenix Contact 2297031 A410 Communication interface Siemens 6ES7151-1BA02-0AB0 T410 Connector Siemens 6ES7193-4CD30-0AA0 Power supply Siemens 6ES
Supplier’s information 10 Supplier’s information This manual goes together with the elevator of the type mentioned on the order and on the title page of this manual. This document was drawn up by: FlexLink Components AB Date: 2010/03/01 Copyright: FlexLink Sweden, 2010 The machine was produced by: FlexLink Engineering Polska Sp. z.o.o ul. Za Motelem 2c 62-080 Sady Poland E-mail: info.pl@flexlink.com www.flexlink.com . 92 Note! In case of failures please contact the system integrator.
Supplier’s information EC Declaration of Incorporation FlexLink Components AB SE-41550 Göteborg Sweden We hereby declare that the following equipment is intended to be incorporated into a FlexLink conveyor system and thereby forming a machine.
Supplier’s information 94 5112204
