SU1675922A1 - Signal receiver - Google Patents

Abstract

The invention relates to telemechanics and can be used to control and monitor a large number of dispersed objects. The purpose of the invention is to increase the safety of the device in an explosive environment. The device contains memory cells 1–3 connected in series, each of which contains a two-position hydraulic two-way switch 4 with two-chamber control. With inputs 5 and 6 and output 7, supply lines 8 and 9, discharge line 10, inputs 11 and 12, respectively, first and the second camera control hydraulic switch 4. 1 Il.

Description

The invention relates to telemechanics and can be used to control and control a large number of dispersed objects.

The purpose of the invention is to increase the safety of the device in an explosive atmosphere.

The drawing shows a schematic diagram of a device with three memory cells,

The device contains series-connected memory cells 1-3, each of which contains a hydraulic on-off three-line switch 4 with two-chamber control, with two inputs 5 and 6, and one output 7, power lines 8 and 9, drain line 10, inputs 11 and 12, respectively the first and second control chambers of the hydraulic on-off three-line switch 4, the device start line 13, the actuator 14.

The device operates as follows.

In the initial state, all hydraulic lines 8, 9, 10, and 13 are connected to the drain, all hydraulic two-position three-line switches 4 are spring-loaded (not shown) in the off position, while the actuators 14 are in the initial position.

To turn on the on / off switch 4 of the first memory cell 1, it is necessary to apply the working fluid under pressure to the hydraulic power line 8 and briefly to the device start line 13. In this case, the on-off switch 4 is turned on, at the output 7 of which the working pressure appears. This pressure, reaching the input 11 of the first control chamber, keeps the on / off switch 4 on-switched on and on, entering the second control chamber 12 of the on-off switch 4 of the cell 2 via the communication line, switches the on-off switch 4 and prepares the conditions for switching on the actuator 14, the inlet 5 of which remains connected to the drain. To enable the actuating element 14 of the cell 2 must be changed to the opposite state in the lines 8 and 9 of the hydraulic power supply. In this case, the on-off switch 4 and the actuator 14 of the cell 1 are turned off and the on-off switch 4 and the actuator 14 of the cell 5 are turned on. Further switching is performed in a similar way. The time parameters of the pressure pulses of the working fluid in lines 8, 9, and Ϊ3 must correspond to the inertial characteristics of the on-off switches

4.

Thus, when switching the working fluid in the hydraulic power lines, a shift of the on state 15 of the memory cells occurs. To turn off the device and return it to its original state, it is necessary to connect lines 8-10 and 13 with a drain.

Claims (1)

20 claims A device for receiving signals containing memory cells, each of which contains an actuating element, output 25 of each memory cell is connected to the first input of the subsequent memory cell, the first power line is connected to the second inputs of the odd memory cells, the second writing line is connected to the second inputs of the even memory cells, characterized in that, in order to increase the safety of operation in an explosive atmosphere, each of the memory cells contains a hydraulic on-off three35 linear switch with two-chamber control, The first input of which is the input of the memory cell, the output of the hydraulic on-off three-line switch with two-chamber control 40 is connected to the input of its first control chamber, with the input of the actuating element and is the output of the memory cell, the input of the second control chamber of the hydraulic two-position three-line switch 45 with two-chamber control is the first input memory cells, the second input of the hydraulic on-off three-line switch with two-chamber control is tret50 them entering the memory cell drain line is connected to the third inputs of all memory cells start line is connected to the first input of the first memory cell.