EP0000735A1 - Control system for dental chair adjustable by a motor - Google Patents

Abstract

Control device for a dental device, or of which parts thereof can be adjusted in several positions by motor, using actual and setpoint transmitters to form electrical signals which embody the actual or setpoint value of the object to be adjusted, for the object to be adjusted there are several setpoint transmitters embodying the adjustable positions. According to the invention, the actual value of the object to be adjusted is formed by a clock generator (20) coupled to the associated drive motor (7), which outputs pulses which are picked up by a counter (21), counted and added or subtracted depending on the direction of rotation of the drive motor. Electronic read-only memories (23) are provided as setpoint generators. Furthermore, a comparator (24) is provided which is connected on the one hand to the output of the counter element (21) and on the other hand to the read-only memory (23), which compares the counter reading of the counter element (21) with that of the read-only memory (23) in such a way that the drive motor ( 7) switched on via a switching amplifier (26) if there is a difference depending on the sign of the difference in one or the other direction of rotation and switched off at the same counter reading.

Description

The invention relates to a control device for a dental device, or of which parts thereof can be adjusted in several positions by motor, using actual and setpoint transmitters to form electrical signals which embody the actual or setpoint value of the object to be adjusted. wherein for the object to be adjusted there are several setpoint transmitters embodying the adjustable positions.

In a known control device which is provided for controlling a dental treatment chair, electromechanical sensors in the form of potentiometers are provided as setpoint and actual value sensors (DE-OS 19 23 262 and DE-OS 22 51 737). The setting and adjustment of the potentiometers and the programming of the setpoint device is relatively complex. The electromechanical feedback devices also tend to malfunction.

In another known control device (DE-OS-21 19 837), the positions of the objects to be adjusted (backrest, chair seat) are determined by punch cards, which are entered into a transmission device if necessary. Apart from the fact that the handling of such punch cards is relatively cumbersome because the desired card has to be fetched from an archive, such cards are subject to wear and tear. The transmission device for scanning the respective punch card also represents an interference factor.

The invention has for its object to provide a control device of the type mentioned, in which no punch cards or the like. are required, and which contains no parts that are difficult to adjust and prone to failure.

The object is achieved according to the invention in that the actual value of the object to be adjusted is formed by a clock generator coupled to the associated drive motor, which emits pulses which are picked up by a counter, counted and added or subtracted depending on the direction of rotation of the drive motor, that electronic read-only memories are provided as setpoint transmitters and that a comparator is provided on the one hand with the output of the counter and on the other hand with the read-only memory, which compares the counter reading of the counter with that of the read-only memory, such that the drive motor via a switching amplifier in the presence of a difference each switched on according to the sign of the difference in one or the other direction of rotation and switched off at the same counter reading.

• Fig. 1 einen zahnärztlichen Behandlungsstuhl in schematischer Darstellung von der Seite,
• Fig. 2 ein Prinzipschaltbild der Steuereinrich-. tung zur Verstellung der Sitzhöhe des in Fig. 1 gezeigten Stuhles.

Advantageous further developments and refinements of the invention are contained in the subclaims. An embodiment of the invention is explained below with reference to the drawing. Show it:

• 1 shows a dental treatment chair in a schematic representation from the side,
• Fig. 2 is a block diagram of the Steuereinrich-. device for adjusting the seat height of the chair shown in Fig. 1.

Fig. 1 shows a schematic representation of a dental chair seen from the side. The chair essentially consists of a base part 1, to which a parallelogram support arm 2 is articulated, the free end of which is mounted in a support 3 for a seat 4 and a backrest 5. Seat 4 and backrest 5 together form the upper part of the chair, which can be adjusted in height by means of the parallelogram support arm 2 in the two positions I and II indicated by dashed lines. An electric motor-driven spindle drive 6 with a spindle arranged diagonally between two articulation points of the parallelogram arm 2 is provided as the adjusting device. The associated drive motor 7 is arranged outside the parallelogram support arm 2 in a housing of the base part 1. The torque of the motor 7 is transmitted to the spindle via V-belts (not shown) and an intermediate shaft.

The parallelogram support arm 2 contains two link arms 8 and 9. On the lower link arm 8 is a switch 9 attached, which is switched by means of a switching lug 11 arranged on the upper link arm 10 at a certain angular position of the parallelogram arm and thus at a certain height of the seat 4. As will be explained again later, the switch 9 is used to trigger a correction process. With 12 an emergency stop switch arranged on the base part is designated, which is switched either when actuated by the foot of an operator or when the carrier 3 is placed on it.

13 denotes a program control, which is explained in more detail in FIG. 2 and contains the electronic components required for storage and retrieval.

14 with a toggle switch is designated, with which the drive motor 7 can be switched on in one or the other direction of rotation depending on the toggle position of the switch and thus an upward or downward movement of the seat can be initiated. The switch 14 has a defined rest position in both switching directions, i.e. after releasing the actuator, the switch always returns to its rest position. In this position, the circuit of the drive motor is then interrupted. 15 and 16 denote program switches with which two different, fixed positions for the seat height can be called up. Programs are entered via switch 17.

2 shows the principle of program control for a working group, in the present case for the height adjustment of the seat 4.

The actual value of the object to be adjusted (here the seat 4) is formed from the switch-on time and the direction of rotation of the drive motor 7. The switch-on time is obtained from the mains voltage applied to the switched-on motor 7. A clock generator 20 outputs corresponding to the mains frequency of the. Motor pulses to a counting member 21, which, depending on whether the engine is in the one or other direction of rotation runs, and thus the seat of ^g e-raised or lowered, adds the pulses obtained or subtracts . If, for example, the motor is switched on in the direction of rotation that causes the seat to be raised, the grid periods are added; conversely, when the chair is lowered, the network periods are subtracted.

After deviations can occur, for example due to overrun or slippage of the drive motor due to different loads etc. on the counter element 21, which can lead to non-negligible errors with increasing travel time, a correction element 22 is provided which corrects the counter reading of the counter element 21 when the correction switch 9 is switched on . The switch 9 is, as shown in Fig. 1, between the lowest and the uppermost position of the chair fixed to the object to be adjusted. When a certain point is passed, it is closed. As a result, the correction element 21 receives a switching pulse, which causes the count of the counter element 21 to be compared with that of the correction element 22. If the counter reading deviates, the counter member 21 is brought to the counter reading of the correction member 22.

To save the various programs that correspond to the different positions of the seat height (target values), an electronic read-only memory 23, for example an EA-PROM memory, is used. 24 denotes a comparator which compares the actual values from the counter 21 with the target values of the memory 23.

25 is a logic logic circuit (coincidence element) which, when the switch 14 or one of the switches 15 or 16, with which the stored programs can be called up, checks whether this switching or control command is correct. For example, if there are opposing commands for this working group, which can happen, for example, by switching on the two switches 15 and 16, that is to say the simultaneous switching on of two different programs, then the coincidence element 25 refuses to pass on a command. If, on the other hand, the control command is clear, it is passed on to the drive motor 7 via a switching amplifier 26. At the same time, the clock generator 20 and the counter 21 are asked to form the actual value. The counter 21 thus runs as long as the motor 7 is switched on.

If a program defined by the program memory 23 is called up, for example by actuating the switch 15, the comparator 24 first checks whether there is a difference between the count of the counter 21 and the count of the memory 23. If there is one, depending on the sign of the difference, the switching amplifier 26 switches on the motor in the required direction of rotation. If the counter reading, that is to say the actual and target values, matches, the comparator 24 triggers the shutdown of the motor 7. The engine 7 is also switched off when the emergency stop button 12 is actuated.

To save a program, the chair must first be moved to the desired position by hand. This is done by actuating the hand switch 14. By actuating the program input key 17, the program memory 23 is now prepared via the comparator 24 for receiving the position values. If one of the program keys 15 or 16 to which the desired program is to be assigned is then pressed, the memory element 23 takes over the present actual value from the counter element 21. In the same way, the other program can be stored, which is called up via the switch 16.

For the sake of simplicity, the principle of the control device is only described for the seat height adjustment of the chair. Control of the backrest inclination can be carried out in the same way.

Claims (7)

1. Control device for a dental device, or of which parts thereof are motor-adjustable in several positions, using actual and setpoint transmitters to form electrical signals that embody the actual or setpoint of the object to be adjusted, whereby for the Object to be adjusted there are a plurality of setpoint transmitters embodying the adjustable positions, characterized in that the actual value of the object (4) to be adjusted is formed by a clock generator (20) coupled to the associated drive motor (7), which emits pulses from a counter (21) recorded, counted and added or subtracted depending on the direction of rotation of the drive motor, that electronic read-only memories (23) are provided as setpoint transmitters and that a comparator (1) connected on the one hand to the output of the counter element (21) and on the other hand to the read-only memory (23) 24) is provided, the counter reading of the counter (21) with that of the read-only memory s (23) compares in such a way that the drive motor (7) is switched on via a switching amplifier (26) in the presence of a difference depending on the sign of the difference in one or the other direction of rotation and switched off at the same counter reading. 2. Control device according to claim 1, characterized in that a counter reading correction element (22) is present which, at a defined position of the object to be adjusted, compares the counter reading corresponding to this position with that of the counter member (21) and, if necessary, corrects the last-mentioned counter reading. 3. Control device according to one of claims 1 or 2, characterized in that the output of the comparator (24) is connected to a coincidence element (25) which blocks the output when the control signals are different and emits a control signal at the same control signals. 4. Control device according to one of claims 1 to 3, characterized by the application in a dental treatment chair for controlling at least the lifting height of the seat (4) and ^g e-possibly the inclination of the backrest (5). 5. Control device according to claim 4, characterized in that there is a switching element (9) which detects the relative movement of an adjustment object (4, 5) relative to a fixed reference point of the chair and which gives the counter reading correction element (22) a signal when the switching point is reached. 6. Control device according to claim 4 or 5, characterized in that a program switch (15) for the read-only memory (23) and any existing hand or foot switch (14) for manual adjustment of the chair on the coincidence element (25) are performed. 7. Control device according to one of claims 1 to 6, characterized in that the mains frequency of the drive motor (7) is used as the clock frequency.

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