LINET ELEGANZA 5 Service Manual
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LINET ELEGANZA 5 Service Manual

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SERVICE MANUAL
ELEGANZA 5
D9S001GE0-0101
Version
01
Publication Date

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Jamie Drake
May 27, 2025

Bed is going too low and hitting the bottom frame.

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1 comments:
Mr. Anderson
May 27, 2025

If the LINET ELEGANZA 5 bed is going too low and hitting the bottom frame, check for obstacles blocking the brake or bed mechanism. If no obstacle is present and the issue persists, the bed mechanism may be defective. In that case, do not use the bed and notify the service department for repair.

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Summary of Contents for LINET ELEGANZA 5

  • Page 1 SERVICE MANUAL ELEGANZA 5 D9S001GE0-0101 Version Publication Date...
  • Page 2 Translation © LINET, s. r. o., 2017 All rights reserved. Use this Service Manual in combination with User Manual for Eleganza 5 (D9U001GE0-0101). All trademarks and brands are the property of the appropriate owners. The manufacturer reserves the right to changes in the contents of this manual that relate to the product´s technical regulations.

  • Page 3: Table Of Contents

    Contents 1 Introduction – General information ................5 Product label and technical label – location ..................5 1.1.1 Product and technical label description ..................5 Identification of bed sides ........................6 2 Technical data and Symbols ................... 7 3 Theory of Operations ...................... 8 Power box ............................
  • Page 4 3.23.6 Data transmission ........................41 3.23.7 IDrive power box ..........................41 3.23.8 Correction of voltage on iDrive ....................42 3.23.9 iDrive rechargeable battery ......................42 3.24 Outlet ............................45 3.25 Castors ............................46 3.26 Bed wiring diagram ........................48 4 Bed Diagnostic ......................50 Errors – Failure States ........................50 4.1.1 Pop ups ............................50 4.1.2 LED Blinking statuses ........................51 4.1.3 Beeping - Sound signals ......................51...

  • Page 5: Introduction - General Information

    1 Introduction – General information Product label and technical label – location 1.1.1 Product and technical label description D9S001GE0-0101_01 5/81...

  • Page 6: Identification Of Bed Sides

    Identification of bed sides D9S001GE0-0101_01 6/81...

  • Page 7: Technical Data And Symbols

    2 Technical data and Symbols Follow User Manual for Eleganza 5 to find Technical Data and used Symbols. D9S001GE0-0101_01 7/81...

  • Page 8: Theory Of Operations

    3 Theory of Operations The aim of the chapter is to explain the functional principles of sets and individual components of the given LINET product model, and their mutual relations. Power box The power box transforms input voltage to 35V AC and sends it to the control unit (input 9). Mains power is supplied to the power box via a three-core mains cable (in the relevant national standard).

  • Page 9: Technical Parameters

    Power Supply (S6015145ND) 3.1.2 Technical parameters Values Parameters Dimensions: 310 x 125 x 90 AC 230, 100, 110, 127V (±10%) / 50-60 Hz Nominal supply voltage: 2 x tube fuse 5 x 20mm Fuse protection: T2A for 230V; T4A for 100-127V Cover: IP54 Maximum performance:...

  • Page 10: Technical Parameters

    Mains control box (S6015123ND) 3.2.1 Technical parameters Parameters Values Dimensions: 310 x 125 x 90 Cover: IP54 Number of outputs for motor units: Output current for motors: Current load of any motor output during positioning: less than or equal to 5 A Maximum voltage at outputs for motors idling: 42 V DC Maximum performance:...
  • Page 11 3.2.2.2 STOP button located on the LCD panel The main STOP button immediately stops all movements of the bed (undesirable movement) and deactivates GO if positioning is not permitted or during failure of electrical components. A 10 kΩ resistor is connected in parallel to the STOP button inside the keypad.

  • Page 12: Saved Values

    3.2.2.7 Measuring leaks The control unit is capable of measuring leaks in the individual controllers in a range of kΩ. ≥ 1 kΩ - Leakage 390 Ω - OK 0 < 200 Ω - Short If resistance is detected in any of the controllers, it is signalled by all the lock LEDs flashing, the control unit always permitting one movement of the bed after the STOP button is pressed.

  • Page 13: Rechargeable Battery

    Rechargeable battery Input/output voltage 24 V DC Class II IP65 Maximum charging time 24 hours Lead hermetic rechargeable batteries 2x12V/1.2 Ah are connected in series in a plastic housing, protected by a 15 A car fuse and current fuse. The plastic housing is inserted in a control unit box. The rechargeable batteries serve as an emergency backup power source for the bed while it is disconnected from the mains electricity or during transport.

  • Page 14: Head Side Rails

    disconnected, except for CPR function. Head side rails The head side rails are at the sides of the head section of the bed's mattress platform rear section. Depending on the modifications to the bed, one part of the head side rails may include loudspeakers, signalling, Nurse call button, or iBoards with lift controllers.
  • Page 15 Number Description Cable from Nurse Call keyboard to iBoard Nurse Call Cable iBoard Cable The back accelerometer is a part of the both iBoards and is used to determine the tilt of the bed's backrest. When the tilt of the backrest changes gradually due to gravity, the voltage in the accelerometer changes and the angle of tilt is calculated.

  • Page 16: Foot Siderails

    Foot siderails 3.5.1 Controllers in foot side rails The control panels (left/right) allow the patient to set the position of the backrest and thighrest. Autocontour buttons are also available. The keypads are backlit using integrated LEDs. Backlighting has 2 levels - lower (when GO button is inactive) and higher (when GO button is active).
  • Page 17 Siderail Cables (S6015159) Number Description iBoard Cable (Left, Right) Nurse Call Cable (Left, Right) Foot Siderail Control Cable D9S001GE0-0101_01 17/81...

  • Page 18: Additional Supervisor Control Panel (Acp)

    Additional supervisor control panel (ACP) The additional supervisor control panel is an optional control element. It is connected to the control unit via a 14-core cable terminated by a 13-pin DIN connector. The ACP panel is connected to a Plug&Play adaptor on the side of the bed or directly to the control unit in position 1. If the bed is equipped with iBoard panels, this controller does not contain a STOP button.

  • Page 19: Limit Switches

    Limit switches 3.9.1 Left and right side rail limit switches The limit switches serve with the control unit to detect the current position of the side rails. If the side rail is in the up position, the limit switch is pressed via the mechanism of the side rails and a signal is sent to the control unit and vice versa.

  • Page 20: Calf Accelerometer

    3.10 Calf accelerometer The calf accelerometer allows the tilt of the bed's calf rest to be determined. When the tilt of the calf rest changes gradually due to gravity, the voltage in the accelerometer changes and the angle of tilt is calculated. This information is sent to the control unit (input 27).

  • Page 21: Weighing Sensor (Tensometer)

    3.12 Weighing sensor (tensometer) According to the load, the electrical resistance in the weighing sensor changes. The change is transmitted immediately to the weighing module, which processes the values. There are four weighing sensors (tensometers) on the bed – 2 at the feet and 2 at the head. They are secured using eight screws (6±2 Nm). The weighing sensors are connected to the weighing module by a 4-core shielded cable.
  • Page 22 Weight module and tensometers (S6015189ND) D9S001GE0-0101_01 22/81...

  • Page 23: Nurse Call

    3.13 Nurse call A device for urgent summoning of personnel, remote control and communication with patient, nurse call comprises several components. The main component is a central box processing signals from peripheral components and transmitting them to the output. The Nurse Call central box is connected to the weighing module by RJ connector to the position K1 (See schema in chapter ‎...
  • Page 24 Nurse Call Central Box (S6015314) D9S001GE0-0101_01 24/81...
  • Page 25 D9S001GE0-0101_01 25/81...

  • Page 26: Integration Module

    3.14 Integration module The integration module serves as the bed's communication centre. It contains Ethernet and Wi-Fi communication interfaces, via which it transmits data to the server about the operation of the bed. The integration module is connect to position 11 on the control unit. The data from the sensors on the bed and other peripherals are loaded via the following interfaces: Position Function...

  • Page 27: Mattress Platform Actuators

    3.15 Mattress platform actuators Position Description Extension linear actuator Calfrest linear actuator Backrest linear actuator Thighrest linear actuator Mattress platform actuators (S6014175ND) D9S001GE0-0101_01 27/81...

  • Page 28: Backrest Actuator

    3.15.1 Backrest actuator The back motor lifts the bed's back mattress platform. It is connected to the construction using two pins and secured with starlock washers. The back motor contains mechanical unblocking. The head of the motor is connected to the CPR lever by a steel cable.

  • Page 29: Extension Actuator

    3.15.4 Extension actuator The extension motor extends the foot section of the bed's mattress platform. It is connected to the construction using two pins and secured with starlock washers. A two-core cable with repro-Din connector runs from the motor. The cable can be disconnected and is connected to the control unit at position 8.

  • Page 30: Lift Drives - Columns

    3.16 Lift drives - Columns The lift unit has limit switches. It is connected by a cable with an eight-pin connector. The maximum current consumption is 5.5 A. The maximum working voltage is 42V. When loaded it drops to 20-30V. The interference peak voltage generated by the lifting unit may be a maximum of 60V.

  • Page 31: Undercarriage Module (Ucmo)

    3.17 Undercarriage module (UcMo) The undercarriage module (hereinafter UcMo) allows all peripherals located on the undercarriage to be controlled and integrates the control of these peripherals via the control unit. The UcMo is logged in the control unit as digital peripheral No 4. The UcMo is connected to the control unit by a 4-core communication cable to the position 16 with Molex connectors.

  • Page 32: Foot Controller (Height Setting)

    3.18 Foot controller (height setting) The foot controller for height setting is a paired component of the bed. It is located on the undercarriage at the foot section of the bed and attached to the undercarriage frame with two screws (11±1 Nm). There are three buttons on the controller –...

  • Page 33: 5Th Castor

    3.20 5th castor The fifth, electrically lifted, castor allows easier handling of the bed while it is being moved down long, narrow corridors. The 5th castor is controlled using the brake pedal, the signal running to the undercarriage module. The signal from the undercarriage module informs the electronics of the 5th castor whether or not the power lead is plugged into the mains.
  • Page 34 D9S001GE0-0101_01 34/81...

  • Page 35: I-Brake

    3.21 I-Brake The I-Brake is a device allowing automatic braking of unbraked beds after they have been connected to the mains. I-Brake automatically brakes a bed within 60 s after it has been connected to the mains. If the brake is deactivated mechanically (for example, during cleaning), the system brakes the bed again.

  • Page 36: Night Illumination

    3.22 Night illumination The control unit allows a pair of illuminating "white" LEDs to be connected, ensuring illumination of the mattress platform. The night illumination (LEDs) are connected via a ribbon cable to the control unit at position 22. D9S001GE0-0101_01 36/81...

  • Page 37: Idrive - Driven 5Th Castor

    3.23 iDrive - Driven 5th castor The bed may be fitted with a driven i-Drive Power wheel to help hospital personnel move a bed with a patient on it while applying only minimum force. The driven castor (DrCa) i-Drive Power is located in the middle of the bed’s undercarriage. Using the iDrive’s servo mechanism, the iDrive is lifted according to the operator’s need or dropped and forced against the floor in a way that it is possible to use the castor's torque to make it easier to move the bed in a straight direction.
  • Page 38 Driven 5th castor assembly (S6014556ND) D9S001GE0-0101_01 38/81...

  • Page 39: Technical Specifications

    3.23.1 Technical specifications Specifications Value Diameter of i-Drive Power wheel 210 mm 4.40 km/h (±15%) Max. fast forward speed 2.15 km/h (±15%) Max. forward speed 2.15 km/h (±15%) Max. reverse speed 6° Max. angle of climb Noise level (when castor is pulled) 65 dB 3.23.2 Electrical specifications...

  • Page 40: Emergency Button To Retract The Idrive

    NOTE: The main control panel has a touch sensor; the user's hand must be in constant contact with the touch sensor for the functions to be used. If the hand is removed from the touch sensor, i-Drive Power stops. NOTE: The deployment and retraction of the i-Drive Power wheel is controlled electronically on the activation panel. i-Drive Power control panels 3.23.4 Emergency button to retract the iDrive...

  • Page 41: Data Transmission

    3.23.6 Data transmission It is possible to communicate with the control unit and obtain immediate values from the control unit and logged data. The operating hours of individual functions are logged in the control unit, as is their sum, amp hours of driven castor, number and maximum value of over-voltage in the mains, last ten codes of system errors, last 10 codes of emergency stops, last 5 codes of leaks on controller, and number of complete battery discharges.

  • Page 42: Correction Of Voltage On Idrive

    3.23.8 Correction of voltage on iDrive The voltage on the driven castor is corrected both to protect and for greater ease of use. To protect the iDrive, its voltage is corrected so that the current does not exceed approximately 29 A. For more direct movement over an inclined surface, the voltage is corrected according to the tilt of the bed measured by the accelerometer.
  • Page 43 i-Drive Power - connection scheme (S6014581) D9S001GE0-0101_01 43/81...
  • Page 44 Position Description 2 (Position in Control Unit) Power Supply Cable 4 (Position in Control Unit) Activation Box Cable 5 (Position in Control Unit) Servo Lifting Cable 6 (Position in Control Unit) Brake Cable 11 (Position in Control Thermal Sensor Cable Unit) 13 (Position in Control Castor Control Position Cable (with Sensor)

  • Page 45: Outlet

    3.24 Outlet The outlet is an extension of the electrical source via the bed, available only for the US market. It allows peripheral units to be more easily connected. A 3-core cable with plug specified by the standard runs from the bed undercarriage.

  • Page 46: Castors

    3.25 Castors Antistatic castor Castor with lock Castors (S6010167ND) D9S001GE0-0101_01 46/81...
  • Page 47 Antistatic castor Antistatic Castor (S6015012) D9S001GE0-0101_01 47/81...

  • Page 48: Bed Wiring Diagram

    3.26 Bed wiring diagram D9S001GE0-0101_01 48/81...
  • Page 49 D9S001GE0-0101_01 49/81...

  • Page 50: Bed Diagnostic

    4 Bed Diagnostic Errors – Failure States 4.1.1 Pop ups Pop-Up Meaning Action required Activate function by unlocking respective LOCK Function locked lock X-RAY Insert X-Ray cassette holder correctly X-Ray cassette holder not inserted correctly Press GO button to activate keypad or Activation required touchscreen Fold up siderails to enable adjustment of...

  • Page 51: Led Blinking Statuses

    4.1.2 LED Blinking statuses Service / LED status status Mains Battery Thigh Lock Back rest lock Lift lock Foot controls lock Locked Illuminated Illuminated Illuminated Illuminated Short circuit Blinking Blinking Blinking Blinking Blinking 600ms ON, 600ms ON, 600ms ON, 600ms ON, 600ms ON, 600ms OFF 600ms OFF...

  • Page 52: Idrive Signalisation

    iDrive signalisation 4.2.1 Audio signalling  Emergency stop Continuous - 0.5 second  Limiting conditions for starting the bed after switching on touch sensor connection to mains, braked castors, or driven castor up)  Braked castors after pressing movement buttons ...

  • Page 53: Linis

    LINIS To enter LINIS mode simultaneously press MODE + Height adjustment (HA) UP Navigation by (-)/(+) buttons 4.3.1 Description of Linis items displayed on iBoard segment display LINIS Code Description Values 0 (down) – 650 (top) AD COL0 AD potentiometer column 0 0 (down) –...

  • Page 54: Stop Codes

    4.3.2 Stop codes Stop codes Code Reason unexpected lateral tilt detected by main control box motherboard accelerometer foot control pressed after STOP display button pressed after STOP two buttons pushed simultaneously longer than 1 second keyboard not released after system start main control box temperature exceeded column current overload 0 column current overload 1...

  • Page 55: Operation Codes

    4.3.3 Operation codes Operation codes Code Function No function is activated Calfrest – up Autocontour – down Lateral release Examination position Lock – legs Lock – central Lock – backrest Lock – height adjustment Lock - pedals Thighrest – up Calfrest - down Thighrest - down Trendelenburg...

  • Page 56: Faulty Iboard

    Faulty iBoard If one iBoard is faulty:  The iBoard Display will go blank. If both iBoard are faulty:  Both iBoards Displays will go blank.  An alarm will sound. (If the bed is on battery power, the alarm will sound for approximately 1 minute and will then turn off.

  • Page 57: Bed Setup

    5 Bed Setup Column and accelerometer calibration After replacing always calibrate: a) Any column. b) Control box. c) Any accelerometer. Calibration of columns means: Calibrating the speed of the columns during up or down movement. Calibration of accelerometers means: Calibrating the mattress platform, backrest and calfrest accelerometers in the horizontal position. 5.1.1 Column and accelerometer calibration using the ACP ...

  • Page 58: Column And Accelerometer Calibration Using The Iboard

    5.1.2 Column and accelerometer calibration using the iBoard  Enter the calibration mode by pressing a combination of four buttons on the nurse control panel.  Simultaneously press backrest up, backrest down and CPR buttons, and hold for 3 seconds. ...
  • Page 59  To calibrate the columns and accelerometers, press and hold the CPR button until 3 cycles have completed. This is possible from all control panels.  The bed will go into the lowest position and the mattress platform parts will become horizontal. ...

  • Page 60: Calibrating The I-Drive Power ® Accelerometers

    ® Calibrating the i-Drive Power accelerometers It is necessary to calibrate the i-Drive Power® accelerometer after any service intervention. The bed must be on a level floor. This can be checked using the spirit level on the head end of the bed. ®...

  • Page 61: Transport Lock

    In such a case, the function is blocked as protection against a short circuit. Short circuit protection only works when all controls are fitted with RC components and the function is activated in the control box. Eleganza 5 beds have short-circuit detection turned on by default. It is not possible to turn short-circuit detection off.

  • Page 62: Safe Stop (Anticrush)

    Safe Stop (Anticrush) Safe Stop prevents user of the bed from injuries due to crushing by the lowered Mattress Platform. When obstacle occurs on the undercarriage and Mattress Platform is going down, the motion is automatically stopped. 5.5.1 Disable of Safe Stop system Only by iBed Diagnostic application.

  • Page 63: Scale Calibration

    5.6.2.1 General instructions Display:  The identification number and respective value is displayed by turns The next steps are displayed by pressing the (+) button (step forward) and the (-) button (step backward). The first value displayed is always position TENS 1: Identification Value meaning Value...

  • Page 64: Calibration Mode

    5.6.4 Calibration mode:  Press and hold the HOLD button, SPEAKER LEVEL button and BED EXIT OUTER ZONE simultaneously for 5 seconds Display:  The identification number and respective value are displayed. Constant setting: Idetification number Value meaning Value Constant – Tensometer 1 CON 1 1,700 - 2,200 Constant –...
  • Page 65 Saving the value and switching to the next value is done by pressing the SPEAKER LEVEL button. The ,,CAL’’ position displays the calibration constant. D9S001GE0-0101_01 65/81...

  • Page 66: Calibration Constant Setting

    5.6.5 Calibration constant setting Before setting the calibration constant, the technician needs to set the local geographical zone. The technician can set the final customer’s geographical zone after the scale calibration is finished. When in Constant setting mode:  Go to calibration mode – Simultaneously press HOLD + BED EXIT OUTER ZONE + SPEAKER LEVEL ...

  • Page 67: 5.6.6 Reconfiguring The Sensor Constants

    5.6.6 Reconfiguring the sensor constants 5.6.6.1 Location of the tensometers on the bed  No.1. Head left  No.2. Head right  No.3. Foot left  No.4. Foot right Zeroing the scale  Zero display while the bed is unoccupied. ...
  • Page 68 5.6.6.3 Calculating and saving the new sensor constant - sensor 1: sensor 1:  Press the button 0,1/0,5  divide the display value by two 79,5 : 2 = 39,75 Write the new constant value to the position of sensor 1 D9S001GE0-0101_01 68/81...
  • Page 69 5.6.6.4 Calculating and saving the new sensor constant - sensor 2: sensor 2:  Press the button 0,1/0,5  divide the displayed value by two 79,5 : 2 = 39,75 Write the new constant value to the position of sensor 2 D9S001GE0-0101_01 69/81...
  • Page 70 5.6.6.5 Positioning the weights for sensor 3 (left foot sensor) D9S001GE0-0101_01 70/81...
  • Page 71 5.6.6.6 Calculating and saving the new sensor constant - sensor 3: sensor 3:  Press the button 0,1/0,5 79,5 Write the new constant value to the position of sensor 3 D9S001GE0-0101_01 71/81...
  • Page 72 5.6.6.7 Positioning the weights for sensor 4 (right foot sensor) D9S001GE0-0101_01 72/81...
  • Page 73 5.6.6.8 Calculating and saving the new sensor constant - sensor 4: sensor 4:  Press the button 0,1/0,5 79,5 Write the new constant value to the position of sensor 4 D9S001GE0-0101_01 73/81...

  • Page 74: Multizone Bed Exit Alarm Calibration

    Multizone Bed Exit Alarm Calibration Calibrate multizone Bed Exit Alarm as follows:  Ensure the bed is empty and in horizontal position (without mattress, patient or any accessories).  Enter to the calibration mode (Simultaneously press HOLD + BED EXIT OUTER ZONE + SPEAKER LEVEL) ...

  • Page 75: Routine Maintenance, Visual Checks And Performance Test

    6 Routine Maintenance, Visual Checks and Performance Test Picture Action Tools Bed identification Write the bed serial and model numbers onto the preventative check report. Checking the welds Visually check the welds on the whole undercarriage. Torque wrench Checking the tightnesss of the fixings Visually check all screw connections on the whole undercarriage.
  • Page 76 Checking the night light Connect the supply cable to mains electricity. Visually check the function of the light. Checking electrical wiring Visually check all groups of cables on the bed undercarriage. Check that the plastic trunking is securely fixed and that the covers are closed.
  • Page 77 Checking electrical wiring Visually check all groups of cables on the patient surface. Check that the plastic trunking is securely fixed and that the covers are closed. Check that the cables are correctly secured with cable ties. Checking fixations on the patient surface Visually check all screw connections.
  • Page 78 Checking the functions of all actuators Columns, back rest, thigh rest, calf rest and bed extension actuators. Check actuator movement to full extension/retraction. Check the sychronisation of the columns. Check the actuators subjectively for vibration and noise. Check the actuator pins and starlocks. Calibration weights Checking the weighing system Check that the cables between the weighing frame and non-weighing...
  • Page 79 Placing the preventative check sticker on the bed Place the LINET sticker on the foot end crossbar and make a note of the date of the next preventative check (1 year). Preventative check Complete the preventative check report report D9S001GE0-0101_01...
  • Page 80 D9S001GE0-0101_01 80/81...

  • Page 81: Service Tools

    7 Service Tools Tools ist of Socket set tools and equipme Screwdriver set Engineer‘s wrench set needed Hex key bit set servicing Torx bit set the bed Hex key set Knife Set of pliers Torque wrench Hammer, nylon hammer Tape measure Crimping tool for RJ connectors Multimeter Service cable for control box...

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