SU582090A1 - Remote manipulator control system - Google Patents

Description

one

The invention relates to the field of torpor construction and can be used to create remote manipulators.

Known remote manipulators.

The manipulator 1, containing sensors of displacement of the setting body, amplifiers and executive mechanisms of the executive body, has the disadvantage that when working with it the operator experiences great physical loads.

The closest technical solution to the invention is a remote manipulator 2, a computing device, corresponding to 1ON1, whose inputs are connected to the outputs of the displacement sensors of the shoulder and elbow joints of the driver and position sensors of the shoulder and elbow joints, and the outputs - with the inputs of the drives of the shoulder and elbow joints, a displacement transducer wrist, connected through an astatic control unit to the input of a drive actuator, a grab displacement transducer, connected through the unit positionally about unravlenn to the input drive gripper and gripper position sensor connected to one of the inputs of the position control unit.

When working with the specified manipulator, the physical loads on the operator are reduced. However, the parameters of its control system are fixed, which does not allow the system to be optimally configured to perform both coarse and extremely precise operations, taking into account the specifics introduced by the human operator.

The purpose of the invention is to expand the scope of the manipulator.

This is achieved by the fact that the remote manipulator control system contains

serially connected sensor for compressing the handle of the driver of the driver and the block is changed by the gain, the output of which is connected to one of the inputs of the computing device and the static control unit.

The drawing shows a functional diagram of the remote control system.

It contains sensors 1 and 2 displacements.

shoulder joint, elbow joint movement sensor 3, handle compression force sensor 4, movement sensor 5, gripper movement sensor 6, which form the driver unit 7, actuator

Body 8 consisting of actuators 9, 10 shoulder joint, elbow joint 11, sensors 12, 13 of shoulder position, elbow joint position sensor 14, wrist drive 15, gripper device 16, gripper position sensor 17, and computing device 18, the gain variation unit 19, the static control unit 20, the control unit 21 and the position control.

The remote manipulator steering system operates as follows.

The impact on the handle, with the help of the main control circuit, ensures the displacement of the elements of the actuator of the manipulator at speeds proportional to the values of the relative displacements of the elements of the driver. This information is captured using sensors 1, 2, 3. The received signals are sent to computing device 18, where they are processed using the formulas known from the prototype into signals that fall on actuators 9, 10, 11. For this, signals from sensors 12 are also sent to device 18 , 13, 14. Astatic rotation control is carried out from sensor 5, and positional control of the gripper operation - from sensor 6 using feedback from sensor 17. The speed of movement of the actuator of the manipulator is controlled by the operator, who Compressing the control knob by means of sensor 4 sets the amount of machine gain. The signal from sensor 4, converted in block 19, enters the device 18, and also as a signal multiplier from sensor 5 to block 20. The magnitude of the gain is adjusted in accordance with the individual features of the operator and the requirements for accuracy and speed. performing a manufacturing operation. The maximum and minimum (taking into account the realizability) values of the gain factor ensure, respectively, the maximum speed and accuracy of the "operator-maniaulator" system.

The proposed system allows, when performing transport operations that do not require accuracy, to achieve an increase in speed as compared with modes characterized by a high accuracy of the system, more than five times on average. When operating in high accuracy modes, system errors compared to transport modes can also be reduced more than five times in comparison with transport modes.

Claims (2)

1. Directory-reference “Manipul tori. L., 1968, p. 93. 2. USSR author's certificate No. 271252, cl. In 25J 3/04, 1969. I one