INSTALLATION INSTRUCTIONS Uromat 3000 ________________________________________________________________________ ________________________________________________________________________ English Version 06/00 - 1 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
CONTENTS Page 1. Technical Data 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 1.11 1.12 1.13 1.14 1.
. Adjustments 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.20 3.21 3.22 3.23 3.24 3.25 3.26 3.27 3.28 Installing the Tube Unit Support Arm Central Beam to Center of Bucky Central Beam to Center of I.I. Tabletop, Longitudinal Movement Path Potentiometer Tabletop, Transverse Movement Path Potentiometer Bucky Movement Path Potentiometer I.I.
1. TECHNICAL DATA 1.1 General Safety Information Maintenance and repair may be performed only by an office that is authorized by the manufacturer. In the Federal Republic of Germany, electrical installation of medically used rooms must conform to VDE Regulation 0107. In all other countries, the particular applicable national regulations take precedence and must be observed. These can be found in the system project plan.
1.
88 ° max. ca.1340 0116 7201 max. ca.1450 min. ca. 495 1200 20 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str. 1 -6 of 90 min.500 * 760 780 1335 min.1750 920 * gemÌB DIN EN 349 according to DIN EN 349 mm 680 700 760 780 880 920 1150 1200 1225 1335 1340 1400 1450 1750 1940 2600 65 Gewicht ca. 670 kg weight approx.
06/00 1200 max.300 920 1335 - 7 of 90 20 760 780 min.1750 table extension + foot rest ° * gemÌB DIN EN 349 according to DIN EN 349 Gewicht ca. 670 kg weight approx.
1.6.2 Dimensional Drawing for Floor Mounting, Right-handed Version Drehachse 345 1420 Fußauflagfläche P2 90 74 180 45 90 74 ** 140 205 Kabelanschluß mit Rillenschlauch 450 mm über dem Boden min. Wandabstand 90 200 * 470 900 800 P1 205 690 * Cable intake through the floor ** End of flexible hose for wall connection of 2000 mm flexible hose length 0116 7201 -8 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.6.3 Dimensional Drawing for Floor Mounting, Left-handed Version Drehachse 345 Fußauflagefläche 90 74 74 180 45 P2 90 200 * 470 min. Wandabstand 800 900 1420 P1 205 140 ** 205 690 Kabelanschluß mit Rillenschlauch 450 mm über dem Boden * Cable intake through the floor ** End of flexible hose for wall connection of 2000 mm flexible hose length 06/00 - 9 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.7 Cable Lengths of the High Voltage, Collimator, Bucky and Image Intensifier Cables High voltage cables A, C, D, E, F, 700 cm Collimator cables B, C, D, E, G, 650 cm Bucky, measuring chamber A, K, L, M, P, S, 490 cm Image intensifier cables A, K, L, M, N, 630 cm 0116 7201 -10 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.8 Power Line Connection Data Power lead-in must be routed over a 30 mA fault current interrupter that is provided by the customer. The room installation must comply with VDE 0107. In all other countries outside the Federal Republic Germany, the legally specified country regulations take precedence and must be maintained. Prerequisite: The unit is designed for single-phase DC current with a fixed installation and for a fixed connection using an all-pole separator from the Network (IEC 601, Chapter 57.1).
1.13 Circuit Diagram, Page 1 1.13.1 Description of Circuit Diagram ....... Circuit Diagram, Page 2 = AX Control unit = system, designation ...... Circuit Diagram, Page 3 = AX + A2 Display unit = system, + location, designation 1.13.2 Contents of Circuit Diagram 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.13 1.
1.13 Circuit Diagram, Page 2 06/00 - 13 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 3 0116 7201 -14 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 4 06/00 - 15 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 5 0116 7201 -16 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 6 06/00 - 17 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 7 0116 7201 -18 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 8 06/00 - 19 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 9 0116 7201 -20 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 10 06/00 - 21 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 11 0116 7201 -22 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 12 06/00 - 23 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 13 0116 7201 -24 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 06/00 Circuit Diagram, Page 14 - 25 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.13 Circuit Diagram, Page 15 0116 7201 Collimator connection -26 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
1.
System Location Component Function =AU =AU =AU =AU =AU =AU +A2 +A2 +A2 +A2 +A2 +A2 -K1 -K2 -K3 -K4 -K5 Breaker board Motor breaker for M1 motor Motor breaker for M2 motor Motor breaker for M3 motor Motor breaker for M4 motor Motor breaker for M5 motor =AU =AU =AU =AU =AU =AU +A2 +A2 +A2 +A2 +A2 +A2 -LED1 -LED2 -LED3 -LED4 -LED5 -LED6 Motor breaker LED - K1 energized Motor breaker LED - K2 energized Motor breaker LED - K3 energized Motor breaker LED - K4 energized Motor breaker LED - K5 energized +2
System Location Component Function =AU =AU =AU =AU =AU =AU +A6 +A6 +A6 +A6 +A6 +A6 -X3 -X4 -X5 -X6 -X7 -X8 Terminal strip for Bucky Plug-in connectors for accessories Table, transverse motor plug-in connector Bucky shaft cover plug-in connector Support arm collision, I.I.
System Location Component Function =AU =AU -R5 -R6 Cassette box motor potentiometer Table transverse motor potentiometer =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU =AU -S1 -S2 -S3 -S4 -S5 -S6 -S7 -S8 -S10 -S11 -S12 -S14 -S15 -S16 - S17 - S18 M1 spindle nut safety switch M3 spindle nut safety switch M1 counterweight safety switch M3 counterweight safety switch Vertical movement safety switch Tube unit system safety switch, foot end Tube unit system safety switch, head end Table longit
1.15 Function Description of the Controller a. System Overview The electronic controller for the UROMAT 3000 is comprised of a max. of 5 units that are connected to each other via a bus. UNIT FUNCTION LOCATION Behind the cover panel, top. REMARK CPU board Central unit for the entire controller with all interfaces. All connectors on the CPU board are labeled. Breaker board Board with 5 breakers Behind the cover for the 5 AC motors. panel, below the CPU board.
b. Boards Emergency off Digital Interface Interface to frequency converter Potentiometer monitoring Fiber optic Service LED Connector to Potentiometer for adjustment of the stopping force of the DCPC motor Eprom with Software URO connector DC Motor Service switch power supply Plug-in Processor Module Interface for display Interface for multi-function footswitch- Interface for manual controller CPU Board 0116 7201 -32 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
5 buttons with LED to freely move out of the limit positions 5 Switch breakers for the 5 motors Breaker Board 06/00 - 33 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
Interface for CPU board Key connections Footswitch Board Control Unit Interface for CPU board Display Board 0116 7201 -34 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
2. Installation 2.1 Preparations for Mounting Prepare the unit location according to the dimensional drawing, Page 6 or 7 or Page 8 or 9. Caution: The minimum distances listed in the dimensional drawings must be maintained to assure that all movements of the system are possible. The floor must be capable of bearing a load of 10,450 N on the front mounting points according to Dimensional Drawing, Pages 8 and 9. The P2 mounting points on the back of the unit must each be capable of assuming 1020 N pull.
Fig. 03 Fig. 04 Take off the back wall (Fig. 04/Pos. 7). Notice: The tube unit support arm (Fig. 05/Pos. 1) is hooked onto the opening of the base with the mounting bracket (painted red) (Pos. 2) and secured on the floor plate. The tube unit support arm is unhooked from its holder only after it is installed. 7 8 6 Fig. 05 Fig. 06 2.3 Removing the Unit from the Pallet Remove the transport safety devices (Fig. 05/Pos. 6, 7 + 8 ). Install the two support struts of the installation frame (Fig. 06/Pos.
Install a spindle cross piece (Pos. 5+6) on each end of both support struts. Remove the mounting screws (Fig. 07/Pos. 1+ Fig.06/Pos. 8) of the unit column from the pallet and press it down onto the pallet. Use the 4 lift spindles (Fig. 06/Pos. 7) to evenly raise the unit until the transport pallet (Pos.9) is free and then slide it out from under the unit. Install the 4 castors (Fig. 08/Pos. 3+4) (transport castors) for transport on the support studs (Pos. 1+2).
Fig.09 2.5 Fig. 10 Aligning the Unit Column Check the unit column (Fig. 10/Pos. 1) in both directions using a spirit level that has been placed on the guide rail (Fig. 10/Pos. 3+4). Compensate for the differences using shims (Fig. 11/Pos. 1+2) from the items included in the shipment. Caution: The unit column may not be under tension in any direction. Fig. 11 0116 7201 Fig. 12 -38 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
2.6 Temporarily Connecting Line Power Caution: If the unit is connected to a different line power than that listed on the order, the setting must be changed to the one that corresponds to the local line power as specified by the Wiring Diagram to the power line transformer (Fig. 12/Pos. 1). Provide the unit with power by connecting a temporary connection cable (plug-in cable) to move the table for individual installation steps. Connect the multi-function footswitch on the bottom of the table. Fig. 13 Fig.
2.8 Preinstalling the Tube Unit – Collimator Combination Assemble the tube unit – Collimator combination according to the description in the manufacturer's installation instructions. See Fig. 15 Fig. 15 Fig. 16 2.9 Installing the Tube Unit – Collimator on the Tube Unit Support Arm Tilt the tabletop until it is vertical and move the tube unit carriage towards the foot-end. Remove the cover (Fig. 18/Pos. 6) on the tube unit support arm. Remove the support studs (Fig. 16/Pos.
Place the assembled tube unit – collimator combination (Fig. 17/Pos. 1) on the tube unit support arm (Fig. 18/Pos. 2) using the support studs (Pos. 3), insert the shims (Fig. 16/ Pos. 5) and secure it in place using the 4 screws (Pos. 6). 2.10 Installing the Image Intensifier Remove the I.I. adapter plate (Fig. 20/Pos. 1) from the I.I. carriage (Pos. 2). Secure the I.I. adapter plate (Fig. 19/Pos. 1) in position on the I.I. housing (Pos. 2) with the screws. Install the I.I. unit on the I.I. carriage (Fig.
Fig.21 Fig. 22 2.12 Laying the High Voltage Cables Preparations: Remove the cover (Fig. 18/Pos. 6), the flexible hose holder (Fig. 23/Pos. 1), the flexible hose mount (Pos. 3) and the flexible hose holder (Pos. 5). Remove the lift magnet (Fig. 22/Pos. 1), the latching stud (Pos. 2) and the cable deflector (Pos. 3). Take the two safety limit switches (Fig. 21/Pos. 1+2) out of the tube unit support arm after removing the screws (Pos. 8).
Fig. 23 Lay the cables through the support arm towards the back, through the flexible hose (Pos. 22) and through the carriage (Pos. 23) to the tube and to the collimator. Guide the cable for the control handle (Pos. 24) to the connector strip (Pos. 25) in the support arm and clamp it in place. Secure the cables in place with the cable ties provided. Reinstall the cable deflector (Fig. 22/Pos. 1) the latching studs (Pos. 2) and reinstall the lift magnet (Pos. 3). Reinstall the two safety switches (Fig.
Fig.25 Fig. 26 2.13 Laying the I.I. Cable First lay the I.I. cable coming from the wall through the flexible hose (Fig. 23/ Pos. 9), through the back wall (Pos. 10) and then – if it is coming directly through the floor – to the cable channel (Fig. 23/Pos. 11) and up into the unit base. Lay the I.I. cable parallel to the cables for the unit controller to the cable outlet (on the side of the unit base) (Fig. 25/Pos. 4). Remove the flexible hose (Fig. 26/Pos. 1). Pull the I.I.
Fig. 27 Fig. 28 2.15 Installing the Measuring Chamber Lift up the tabletop (CFC panel) (Fig. 27/Pos. 1), it will be held by the gas spring. Move the tabletop towards the back and remove the front Nirosta panel. Move the tabletop towards the front and remove the rear Nirosta panel. Remove the left (Fig. 27/Pos. 3) and right (Pos. 4) cover panels. Remove the screws for the spiral cable guide panel and remove the cable guide panel.
2.16 Installing the Grid – Replacing the Grid Lift up the tabletop (CFC panel) (Fig. 27/Pos. 1), it will be held by the gas spring. Move the tabletop towards the back and remove the front Nirosta panel. Move the tabletop towards the front and remove the rear Nirosta panel. Remove the left (Fig. 27/Pos. 3) and right (Pos. 4) cover panels. Remove the screws for the spiral cable guide panel and remove the cable guide panel.
2. 18 Installing the Cover Panels Caution: Before the cover panels are installed, it is best to carry out the adjustment as described in Section 3. Tube unit support arm: Place the two halves of the cover panel (Fig. 30/Pos. 1) over the support arm (Pos. 2) while paying attention to the two safety switches (Fig. 21/Pos. 1+2) and secure them in place with the roll pins (Pos. 4). Place the two head cover panels (Pos. 5) over the support arm and secure them in place with the paneling screws (Pos. 6).
Fig. 33 2.20 Fig. 34 Installing the Mount for the Flush Bowl Lift up the tabletop (CFC panel) (Fig. 34/Pos. 1), it will be held in place by the gas spring. Remove the two covers on the tube frame. Insert the left and right mounts (Fig. 33/ Pos. 2+3) into the opening of the tube frame and secure them with 2 screws for each. 2.21 Sealing the Table Frame Cover Panel Seal the table frame cover panel (Fig. 34/Pos. 2) along the table frame using the Sista F 101 sanitary caulking.
3. Adjustment Caution: If changes are made to the movement paths, the software must afterward be corrected. 3.1 Tube Unit Support Arm Check the tube unit support arm (Fig. 51/Pos. 1) with the spirit level (Pos. 2) and loosen the nuts (Fig. 51a/Pos. 5) and the mounting screws (Fig. 51b/Pos. 6). Correct any differences with the screws (Pos. 8). Retighten the mounting screws and nuts. Fig.51 Fig.51b 06/00 Fig.51a Fig.52 - 49 of 90 - 0116 7201 Rev.
3.2 Central Beam - Center of Bucky Determine the deviation of the central beam. Transverse to the tabletop, for this: Caution: Risk of an accident exists here because the tube unit must be loosened. Remove the cover panel (Fig. 52/Pos. 6). Remove the mounting screws (Fig. 52/Pos. 1), remove the shims (Pos. 2) for the tube unit and insert them to compensate for any difference in the central beam. Reinstall the mounting screws (Pos. 1). Lengthwise to the tabletop, for this: Remove the cover panel (Fig.
Fig.55 3.4 Fig.56 Movement Path Potentiometer, Tabletop longitudinal Lift up the tabletop (Fig. 55/Pos. 2) (it will be held in place by the gas spring) and remove the cover panel (Fig. 55/Pos. 1). Move potentiometer =AU -R4 (Fig. 56/Pos. 1) away from the pinion rack, move the tabletop into the centered position. Turn the potentiometer to the middle position, mesh it back into the pinion rack and align the pinion on the rack. Check the function over the entire movement path and reinstall the cover panel.
3.5 Movement Path Potentiometer, Tabletop transverse Remove the cover panel (Fig. 57/Pos. 1). Move the tabletop transversely into the centered position, lift up potentiometer =AU -R6 (Fig. 58/Pos. 1) (the view in Fig. 58 is visible only when the cover is removed Fig. 55/Pos. 3, however, the potentiometer can be reached from behind through the slot Pos.2) and set it to the middle position. Mesh the pinion and align it to the rack.
Fig.61 Fig.62 3.8 Potentiometer 1 – Table Tilt Movement Path Take off the potentiometer belt (Fig. 61/Pos. 2). Move the vertical carriage into the top position and tilt the tabletop so that the potentiometer moves into the highest possible position, e.g. -20° position. Turn potentiometer =AU -R1 (Pos. 1) until it is half a turn in front of the mechanical end position; while doing this, take note of the direction of the turn.
Fig.63 3.10 Fig.64 Tabletop Longitudinal Safety Switch Lift up the tabletop (it will be held in place by the gas spring) and remove the cover panel (Fig. 63/Pos. 1). Set the software end positions to 240+/- 5 mm in each direction. Adjust the limit switch (Fig. 64/Pos. 2) so that it switches off approx. 3 - 5 mm behind each end position. To do this, either the limit switch or the switch strike place can be adjusted. Check the function over the entire movement path and reinstall the cover panel. 3.
3.12 Bucky Movement Path Safety Switch Move the Bucky to the foot end to the mechanical stop, move the system carriage into the exposure position. Adjust the S12 switch (Fig. 66/Pos. 1) so that it positively switches. 3.13 I.I. Carriage Movement Path Safety Switch Remove the cover panel (Fig. 65/Pos. 1). Move the system carriage to the head end until there is 3 mm distance and adjust the switch strike plate (Fig. 67/ Pos. 1) so that it just actuates the S6 switch.
Fig.69 Fig.70 3.16 -20° Tilt Movement Safety Switch Tilt the tabletop into the -20° end position. The top of the two switches is the limit switch and the floating switch (bronze) is also the switch strike plate, respectively. The floating switch (Fig. 69/Pos. 1) should actuate the microswitch approx. 2 mm after the end position (Pos. 2). 3.17 +88° Tilt Movement Safety Switch Tilt the tabletop into the +88° end position.
Fig.71 Fig.72 3.19 Accessory Sensor Switches Securely and audibly insert the table extension or the micturation seat into the opening. The corresponding microswitch is for sensing of the S17 table extension (Fig. 71/ Pos. 1) and S18 is for the micturation seat (Pos. 2). The switch strike plate must be adjusted so that it is on the tip of the nib so that any play will trigger a positive response of the S16 microswitch (Pos. 3). 3.
Fig.73 Fig. 74 3.22 Cassette Carriage Drive Belt Tension Move the tabletop max. forward and take off the cover panel (Fig. 74/Pos. 1) after removing the 5 mounting screws. Belt tension should be determined as follows: The spring balance should be placed centered between the motor-side drive pulley (Fig. 75/Pos. 3) and the belt return pulley (Pos. 2) to achieve a deflection of 1 cm when a force of 25 N is applied. Adjustment can be made by means of the tension screw (Pos.
3.23 Operation in the Service Mode a. Connection of a Laptop To establish a connection with the URO controller, a PC/laptop is required. Equipment: ⇒ PC or laptop with color display (black/white is also sufficient, but makes operation more difficult) ⇒ 486 processor, 16 MB RAM ⇒ Windows 3.x Win 95 operating system (Windows NT can cause difficulties with the Com interface) ⇒ Hard drive ⇒ Serial connection cable (9-pole, Sub-D connector to a 9-pole, Sub-D socket, connected 1 - 1), length > 1m.
The service technician can now start the desired adjustment. The above-listed sequence does not have to be followed when making the connection. However, it should be noted that the cable connection may not be plugged in while power is switched on! c. Setting Parameters A critical and often-used routine is setting the table parameters to adapt speeds or limits.
f. Display Self Test After switching on power, all segments in the tilt display and the large round LED’s are tested individually. If this does not happen, there is a malfunction. Seven-segment display: visible by a circular sequence of the active segments. All segments must light up. If a segment does not go on, there is a malfunction. LED’s: All three LED’s light up cyclically in the three colors: red, green and yellow. If one color does not appear, there is a malfunction. g.
3.25 Collimator Basic Setting Switch the unit into the service mode using the switch (Fig. 77/Pos. 1), the green LED (Pos. 2) on the controller will go on and stay on. Simultaneously press the Store (Fig. 78/Pos. 54) and Reset (Pos. 56) buttons on the control unit, the three memory LED`s (Pos. 51-53) on the control unit will blink green and the LED on the control unit (Fig. 77/Pos. 2) will blink very rapidly. Fig. 77 Fig.
3.26 Setting the Collimator to the Cassette and I.I. Format Cassette Format: To adjust the collimator to the 4 possible film formats, the corresponding cassette must be inserted. Use the button (Fig. 78/Pos. 33) to switch on the collimator light field and center the cassette template included in the shipment so it is centered on the tabletop. With the light field switched on, move the collimator plates using the buttons (Fig. 78/Pos.
3.27 Saving the Parameters in the PC Switch off the unit. Connect the PC and the unit using the connection cable included in the shipment. Switch the unit into the service mode with the switch (Fig. 77/Pos. 1), the green LED (Pos. 2) controller goes on continuously. Start the URO service tool. See 3.23 Open the parameter file included in the shipment and read the parameters from the Uromat and save them (do not overwrite the original file). 0116 7201 -64 of 90 - Rev.
3.28 Electronic Adjustment Parameters Setup Parameters lf. Nr.
58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 0116 7201 Col horizontal Format 2 Col horizontal Format 3 Col horizontal Format 4 Col horizontal delay Col vertical MAX Col vertical MIN Col vertical Format 1 Col vertical Format 2 Col vertical Format 3 Col vertical Format 4 Col vertical delay Iris MAX Iris MIN Iris Zoom-normal Iris Zoom-1 Iris Zoom-2 Iris Zoom-3 Iris
4. Technical Maintenance NOTE: The maintenance described below must be performed every12 months. If unit components need to be moved using the motor during maintenance, or if functions need to be checked while the unit is under power, the unit must be switched off immediately after reaching the new position or after completing the particular work step and the immediately disconnected from power again.
Lift and tilt drive: - Move through the entire lift and tilt range. - Check for soft start and movement out of positions. - Check automatic stop in the horizontal position. - Check automatic stop in the vertical position (88°). - Check automatic stop in the Trendelenburg position (-20°). - Check stop with manual actuation of the limit switches. - Clean the guide rails and the counterweight guides. - Check for play in the bearings. If necessary, readjust them.
- Check automatic stop in foot-end limit position - Clean the guide rails. - Check for play in the bearings. If necessary, readjust. Tube unit support arm, exposure position, park position: - Press the buttons on the control handle and move through the entire movement range. - Check for even movement during the unit movements. - Check for engagement into the end positions. - Clean the guide rails. - Check for play in the bearings. If necessary, readjust them.
4.2 Function Check Switch on the system. Initiate movement through the entire movement path.
Tabletop transverse movement: - Even movement? - Soft startup and soft outward movement? - Automatic stop in the centered position? - Automatic stop in the limit position? - Movement initiated from footswitch? - Movement initiated from the manual control unit? Movable Tube Unit Support Arm: - Easy separation in the exposure position? - Easy separation in the park position? - Even movement? - Positive engagement into the limit positions? Table extension: - Does the table extension engage in place in the op
4.3 Spare Parts, Overview 168 169 174 8 8 173 170 174 209 176 162 / 163 32 179 188 9 7 158 -160 29 / 30 165 184 9 186 78 / 79 176 168 166 169 182 29 / 30 27 246 247 172 162 / 163 171 209 174 32 178 8 175 158 - 160 187 166 165 185 9 181 27 246 0116 7201 -72 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.3.1 Spare Parts, Unit Column (Right-handed, Left-handed Versions) 2 5 4 13 46 38 16 / 15 19 / 21 35 50 41 1 3 38 6 34 48 46 16 / 15 24 13 24 50 19 / 21 36 41/43 40 48 50 13 19 / 21 18 / 19 49 49 16 / 15 40/41 /10 16 / 15 35 19 / 21 51 / 52 11 34 36 06/00 36 - 73 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.3.2 Spare Parts, Table Frame - Tabletop, Right-handed Version 100 220 214 100 100 219 216 218 145 146 215 143 94 90 92 54 53 142 143 63 65 91 94 142 143 93 68 70 69 139 56 / 96 83 59 54 57 54 140 141 108 74 75 72 / 96 81 185 187 129 100 127 76 104 74 79 88 78 126 123 118 128 136 122 130 119 114 120 121 125 116 151 135 0116 7201 -74 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.3.3 Spare Parts, Table Frame - Tabletop, Left-handed Version 100 220 214 100 100 219 216 218 146 145 215 143 94 142 143 62 139 53 65 91 142 143 141 93 54 57 140 90 92 54 108 74 94 67 56 / 96 83 59 54 70 69 75 104 76 79 74 78 88 72 / 96 81 126 123 118 127 185 187 100 128 116 129 136 125 119114122 120 121 130 151 135 06/00 - 75 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.3.4 Spare Parts, Tube Unit Support - Right-handed Version 193 191 / 192 193 / 195 213 207 / 210 -212 198 / 199 209 202 203 - 205 201 191 192 192 191 192 197 191 194 198 / 199 207 / 210 -212 209 213 207 / 210 -212 0116 7201 -76 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.3.5 Spare Parts, Tube Unit Support - Left-handed Version 191 / 192193 193 / 195 213 207 / 210 -212 198 / 199 209 201 202 203 - 205 191 192 192 191 192 191 197 194 198 / 199 207 / 210 -212 213 209 207 / 210 -212 06/00 - 77 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.3.6 Spare Parts, Accessories 241 221 223 228 224 225 (226) 230 (231) 242 222 243 236 237 (238) 239 240 243 235 234 248 233 253 249 251 250 252 0116 7201 249 155 -78 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
4.4 Spare Parts List Note: If there is a failure, components may only be replaced with the listed original parts. When ordering spare parts, always list the complete production number of the unit, the designation and the order number of the part. Replacement of components or assemblies may only be done by us or by offices that have express authorization from us to do this. See also the chapter "Safety-technical Remarks". Pos.
Pos. 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 0116 7201 Designation Part No.
Pos. 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 06/00 Designation Part No.: Spring, extension 0005 0040ac Potentiometer, cpl. 0116 0580 Microswitch 0006 0779a Switch strip 0116 0589 Pinion rack Pinion rack 0116 0587 0116 0588 Worm gear drive motor Spring, extension 0006 0767 0005 0040ac Rocker switch, cpl.
Pos. 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 0116 7201 Designation Part No.: Rubber-metal bumper 0005 0164b Elbow support, cpl. Outlet 0900 1752 0900 1754 Control unit, cpl. Control unit Mount 0116 2200 0116 2210 0116 2220 Display unit, cpl.
Pos. 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 06/00 Designation Part No.: Tube unit studs Adjustment plate 10 thick Adjustment plate 1 thick Adjustment plate 2 thick Adjustment plate 3 thick 0116 1930 0116 1935 0116 1936a 0116 1936b 0116 1936c Switch unit, installed 0116 1995 Command arm, cpl.
5. Troubleshooting Error Number F 1 Cause Corrective Measure Frequency converter 0 for tilt/vertical, system failed. Frequency converter 1 for tilt/vertical, table longitudinal movement, cassette failed. Frequency converters 0+1 failed. Check connection cables, settings (address, Baud rate). Check connection cables, settings (address, Baud rate). Check connection cables, settings (address, Baud rate). F 10 F 11 Footswitch communication problem. Manual control unit communication problem.
F 40 F 41 F 42 F 43 F 44 F 45 F 46 F 47 Format switch cassette incorrect. M1 motor breaker stuck/defective. M2 motor breaker stuck /defective. M3 motor breaker stuck /defective. M4 motor breaker stuck /defective. M5 motor breaker stuck /defective. M6 motor relay stuck /defective. FU0 N>0 active. F 48 FU1 N>0 active. F 50 Collimator malfunction. F 61 F 79 Limit switch, temperature, breaker malfunction, M1 tilt /vertical drive or M3. Limit switch, temperature, breaker malfunction, M2 system drive.
6. Board Replacement All boards are connected to each other by connectors and are replaceable. After they have been replaced correctly, they should perform a self test after power is switched on and log themselves into the CPU. The CPU board and breaker board are accessible after opening the URO cover panel. They are seated on several round snap-on mounts, each of which musts be pressed through. The footswitch board is accessible only after opening the metal housing.
8. MAINTENANCE VERIFICATION Maintenance per the attached maintenance instructions has been performed. When required, parts were replaced only with original replacement parts per the listing. Parts Replaced (list only Pos. No.) ............. Date .................. Company (stamp) ....................... Signature Parts Replaced (list only Pos. No.) ............. Date .................. Company (stamp) ....................... Signature Parts Replaced (list only Pos. No.) ............. Date .....
9. Location of Identification Labels Labeling: see also opposite page 0116 7201 -88 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
Overview of Labels: 1. Model plate 2. CE label IP X1 3. Observe operating instructions 4. Do not sit here - max. load, 30 kg Max. 30 kg/ 66 lb. 5. Caution: crush zone 06/00 6. Inherent filtration - 89 of 90 - 0116 7201 Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
Notes: We reserve the right to make changes resulting from subsequent technical advances.TV/Ru 0116 7201 -90 of 90 - Rev. 00 © 2000 Hans Pausch Röntgengerätebau Graf-Zeppelin-Str.
