DE3921158C2 - - Google Patents

Description

The invention relates to a drive device for opening and Closing a door, in particular an articulated door, with a Electric motor, the driving torque of which is essentially the motor current is proportional and with a limitation device of the motor current to a maximum setpoint corresponding to a maximum permissible drive torque.

In vehicles for public transport come frequently Articulated doors for use, the door leaf of several articulated interconnected segments is built. The closing and opening movement of such an articulated door is by means of reached a controllable drive unit, one with the Door leaf drives connected door shaft. The current security Write safety regulations for the protection of the transported persons before that the closing force in all positions of the door one specified limit during closing does not exceed allowed to walk.  

From DE-PS 31 29 163 is a drive device for a Elevator door known in which one as a drive unit AC source connected three-phase asynchronous motor is provided. To limit the door leaf when closing compressive force, a control resistor is provided, which determines the size of the drive torque.

From DE-OS 29 24 884 a drive device for opening and closing a door with an electric motor known Drive torque is essentially proportional to the motor current. Furthermore, the drive unit is assigned a device which within a security area the motor current limited to a maximum setpoint. The facility enables the specification of an over the entire security area constant maximum setpoint.

The invention has for its object a drive direction of the type mentioned so that the closing force a door regardless of the door position on a specific one Maximum value can be limited, the torque of the drive device not necessarily proportional to the closing force is.

This task is carried out in a generic drive device tion solved in that the device is a control device which is the limitation of the motor current according to stored maximum setpoints assigned to specific door positions for the motor currents, the maximum setpoints of the motor currents to the maximum permissible predetermined door closing forces correspond.

The invention is based on the finding that by Use of a drive unit in which the torque in is essentially proportional to the motor current, a particular one simple limitation of the closing force for doors is possible, whose torque is not proportional to the closing force. By  the regulation of the motor current of the drive unit can drive torque are limited so that, for example, at a hinged door closing force in all positions Door does not exceed a specified limit. To the rain regulation of the motor current, a control device is provided, whose command value limits a permissible drive torque Setpoint of the motor current is. This setpoint can, for example be determined experimentally.

Advantageous embodiments of the invention are in the sub claims listed.

In an advantageous embodiment of the invention is as An drive unit provided a DC shunt motor, where the current flowing in the armature is the drive torque  is proportional. The benchmark used here coming control device is one from the position of the door dependent, limiting an admissible drive torque of the motor Target value of the armature current.

In an advantageous development it is provided that the Control device a device for storing the Position of the door dependent setpoint of the motor current ent holds. In such a facility, the course of the permissible motor current depending on the position of the door saved.

It can advantageously be provided that the setpoint of the Motor current from the sum of a moving average, the from the actual value of the motor current in the unobstructed loading Drive results, and a current value is formed, which in trouble-free operation with a maximum permissible drive moment was recorded. To the time dependency of such Taking friction losses into account can advantageously be provided be that a determination of the target value after each problem the door is opened and closed freely. Hereby find temperature and weather-related changes to the door resistances.

In an advantageous embodiment it is provided that the Control device a first measuring device for detecting the Position of the door. Such a measuring device can For example, a rotary signal generator, the drive shaft is assigned to the drive unit. A second measuring device the control device is used to detect the motor current Drive unit.

Furthermore, the control device with an actuator for Adjust the motor current.  

The other elements of the control device can be different to be well structured. In all cases he is a comparator required that the actual value of the motor current with the abge compares the stored setpoint.

The drive device according to the invention can be advantageous different types of door constructions are used. In In all cases it is particularly advantageous that the setting is on the permissible closing force in a particularly simple manner can take place, the structure of the drive according to the invention device is simple and insensitive to faults.

An advantageous embodiment of the invention is in the Drawing shown and is described below. The only figure of the drawing shows a schematic representation a drive device according to the invention on a double folding door is arranged.

In the drawing, a double folding door ( 10 ) of a vehicle of public transport, not shown, is shown in a schematic representation. The double folding door ( 10 ) is made up of door leaf segments ( 11 , 12 ) which are connected to one another at the joint ( 13 ). Not shown in the drawing are the door leaf segments ( 11 , 12 ) associated with guide means which guide the double folding door ( 10 ) to the vehicle body of the vehicle.

The double folding door ( 10 ) is driven by a drive unit ( 14 ) which drives the door shaft ( 16 ) of the double folding door ( 10 ) via a drive shaft ( 15 ).

The applicable safety regulations for doors in public transport vehicles stipulate that the closing force (F) acting on the door leaf segment ( 12 ) must not exceed a predetermined limit value in order to avoid injuries to the transported persons. Due to the door construction of the double folding door ( 10 ), the closing force (F) is not proportional to the torque (M) acting on the door shaft ( 16 ). In order to avoid exceeding the limit value of the closing force (F) in all positions of the bi-fold door (10), An is drive unit (14) provided with a control device, that exceed the driving torque of the drive unit (14) from the position of the bi-fold door (10 depends ) limited.

A DC shunt motor is provided as the drive unit ( 14 ), the drive torque of which is proportional to the armature current. Thus, the drive torque of the drive unit ( 14 ) can be regulated via the armature current.

The control device of the drive unit ( 14 ) has a device, not shown in the drawing, for storing the setpoint value of the armature current which is dependent on the position of the double folding door ( 10 ). In this device, the motor current characteristics are stored as a function of the angle of rotation of the door in trouble-free operation and with the maximum permissible torque. These current values can be obtained experimentally or arithmetically. In order to take into account friction losses acting on the door, the above-mentioned current value is added to form the setpoint of the armature current with a moving average value, which results from the actual value of the armature current in unobstructed operation. In this way, temperature and weather-related changes in the door resistance can also be taken into account. Since the frictional losses on the double folding door ( 10 ) are variable over time, the determination of the setpoint is provided after each flawless opening and closing of the door.

The control device of the double folding door ( 10 ) is constructed from a controller ( 17 ) to which a comparator (not shown in the drawing) is assigned, which compares the actual value of the armature current with the permissible setpoint. The controller ( 17 ) is supplied with signals from a first measuring device ( 18 ) which is coupled to the drive shaft ( 15 ) of the drive unit ( 14 ). The first measuring device ( 18 ) can be an incremental encoder, for example, which determines the angle of rotation of the drive shaft ( 15 ). A second measuring device ( 19 ) is used to detect the armature current of the drive unit ( 14 ). The signals of the second Meßein direction ( 19 ) are fed to the controller ( 17 ). The regulator ( 17 ) is connected to an actuator ( 20 ) which regulates the armature current of the drive unit ( 14 ). The actuator ( 20 ) ensures that the armature current does not exceed the permissible limit.

In obstacle-free operation, the closing force (F) is constant in all positions of the double folding door ( 10 ). If an obstacle occurs on the vehicle door, for example a person standing in the door opening, the actual value of the armature current increases disproportionately. In the comparator of the control device, this actual value is compared with the permissible target value, which depends on the position of the double folding door ( 10 ). Is the actual value of the armature current above the permissible setpoint, the controller ( 17 ) controls the actuator ( 20 ) so that a reduction in the armature current and thus a reduction in the drive torque of the drive unit ( 14 ) is effected.

Claims (6)

1. Drive device for opening and closing a door, in particular an articulated door, with an electric motor, the drive torque is substantially proportional to the motor current and with a device for limiting the motor current to a maximum setpoint corresponding to a maximum permissible drive torque, characterized in that the device a Control device is that which limits the motor current according to stored maximum setpoints for the motor currents assigned to specific door positions, the maximum setpoints of the motor currents corresponding to the maximum permissible predetermined door closing forces. 2. Drive device according to claim 1, characterized in that each maximum setpoint of the motor current from the sum of a time-varying mean value, which results from the actual values of the motor current measured in the area of the respective door position with an unobstructed normal operation of the door ( 10 ), and one of the A current value is assigned to the respective door position, which was determined once for an obstacle-free and largely friction-free door operation with a maximum permissible drive torque. 3. Drive device according to claim 2, characterized in that a determination of each maximum setpoint is provided after each flawless opening and closing of the door ( 10 ). 4. Drive device according to one of the preceding claims, characterized in that the control device has a first measuring device ( 18 ) for detecting the position of the door ( 10 ). 5. Drive device according to one of the preceding claims, characterized in that the control device contains a second measuring device ( 19 ) for detecting the motor current of the drive unit. 6. Drive device according to one of the preceding claims, characterized in that the control device is provided with an actuator ( 20 ) for adjusting the motor current.