SU1689650A1 - Device for testing gas protection pickups - Google Patents

Abstract

The invention relates to the mining, mining, oil and gas industry and is intended to monitor and diagnose the operability of gas protection sensors in coal mines, communication collectors and other objects of these industries. The purpose of the invention is to increase the speed and reliability of control of functional 7 3aqyc / rrtf вЈ i-l-i -Т- | Enabled start-prozr -Telement sensors gas protection. The device contains a manual control unit 1, clock frequency generators 2 and gating pulses 6, divider 3, counter 4, control unit 5, elements 7, 14 and 16, key 8, switch 9, test 10 and exemplary 11 and 18 sensors, block 13 memory, light blocks 15 and sound 17 indications and block 12 of the factory gas protection system relay. From the manual control unit 1, signals are received to alternately connect the individual parts of the reference sensor 11 with the corresponding parts of the test sensor 10 to the block 12. The quality of teamwork is highlighted on the display of the light indication unit 15. In the event of a malfunction, the flashing is performed in a blinking mode and an audible alarm is given. If necessary from the block. 1 manual control, you can connect an additional exemplary sensor 18 to the sensor 10 under test and adjust it with a methane-air mixture. 3 il. Add. dat chick replay

Description

The invention relates to the mining, mining, oil and gas industry, in particular, to devices that monitor and diagnose the health of gas protection sensors in coal mines, communication collectors and other objects in these industries where automatic systems and gas protection means are used, and can be Used to monitor and diagnose sensors, such as Methane.

The purpose of the invention is to increase the speed and reliability of monitoring the functional elements of gas protection sensors.

FIG. 1 shows a functional diagram of the device; in fig. 2 - functional diagram of the connection of the test sensor with the reference; in fig. 3 - automatic control unit.

The device contains a control code generator consisting of a manual control unit 1, a clock frequency generator 2 and a divider 3 as well as a counter 4, a control block 5, a strobe pulse generator 6, element 7, key 8, switch 9, test sensor 10, exemplary sensor 11, unit 12 of the factory gas protection system relay, unit 13 of memory, element I 14, unit 15 of light indication, element I 16, unit 17 of sound alarm, additional model sensor 18, unit 19 of power supply and metal frame.

The device is made of a metal welded frame on which the front, ... adn, top and two side walls are fixed. A manual control unit 1 is electrically inserted inside the device, electrically connected to a clock pulse generator 2, the output of which is connected via a divider 3 and a counter 4 to one of the inputs of the control unit 5, the other input of which is connected to the manual control unit 1. In turn, the divider 3 is connected through a generator of 6 gating pulses to one of the inputs of the element 7, the other input of which is electrically connected to one of the outputs of the control unit 5. The output of the element 7 is connected to the control input of the key 8. The output of the unit 5 is electrically connected to the switch 9, which commits the functional units of the test sensor 10 to the functional units of the reference sensor 11.

The exemplary sensor 11 is connected via a factory-supplied gas protection system relay unit to the information input of the key 8, the output of which is connected to the input of the memory unit 13.

The output of the memory block 13 is connected via elements And 14 and 16 with light indication blocks 15 and an audible alarm 17. Moreover, elements 14 and 16 are electrically

b connected by control unit 5. In addition, the light indication unit 15 is associated with unit 5, and there is also an additional exemplary sensor 18 connected to the test sensor 10. In addition, in the device

0 there is a power supply unit 19 which is associated with

all electrical units of the device.

After connecting the device to the network

An alternating current appears on the screen of the sign-writing panel of the light-display unit 15 and the symbol V is lit. After that, the On button is turned on. the manual control unit 1, the power supply unit 19 is connected to the units of the device, and the + V symbol is displayed on the display. Then using

0 of the Start GI button starts the 2 clock pulse generator, which, in turn, starts divider 3 and counter 4. A flashing GI symbol is displayed on the display. Connect to the connectors of the device

5 functional units of the sensor under test 10. The frequency of generation of clock pulses is about 2 Hz. The pulses of clock frequencies pass through divider 3 to the input of counter 4 and generator 6 of strobe pulses. On

0, the output 20 of the counter 4 generates a code controlling, through the element 21 of the block 5, the decoder 22, which by means of electronic keys 23 connects a set of relays of the switch 9, which carry out

5 electrical connection of the functional units of the test sensor 10 to the nodes of the block of exemplary sensor 11. The device is ready for operation. After this, the Start contacts are closed.

0 programs of the manual control unit 1 and the automatic control unit 5 is started. In this case, the input element And the 21 block 5 receives signals from the counter 4 and block 1. The output element And 21 is connected to

5 by the input of the decoder 22 of the block 5, which, under the action of the control code from the counter 4, connects electronic relays 23 providing electrical connection between the power supply blocks 19 with different blocks

0 devices, such as. block 15 light indication switching device 9 and others (Fig. 3). The display symbol cz is displayed on the display for 8 seconds.

When checking the sensor supply unit 24

5 10 using the contacts of the relay 26-1 and 27-1 of the switch 9, the node 25 of the power supply of the unit 11 is electrically disconnected from the electrical circuit of the device blocks, and using the contacts 28-1 and 29-1, 30-1, 31-1 and 32 -1 electrical connection occurs node

24 block 10 to the nodes: informational 33, resistors 34, non-detachable elements 35 of block 11, the output of block 11 is connected to block 12 of the factory gas protection system relay, the operation of block 12 corresponds to the normal operation of the power supply 24 of the test sensor 10. Thus, a functional test node 24, the result of the test is fed to the information input of the key 8, the control input of which is connected to the output of the element And 7, to the input of which the signal from the generator 6 of gating pulses and from the unit 5 automatic control and With the simultaneous arrival of these signals at the inputs of the And 7 element, the control signal is sent to the key 8 from the last one. From the output of the key 8, the signal about the operability of the node 24 goes to the memory block 13. During the time of this operation, the symbol BP

Similarly, the following units are checked: executive 36, resistors 37, parasitic elements 38, and the symbols BI, BR, BO are highlighted accordingly.

The time for checking each node separately and, accordingly, for each character takes 8 seconds.

After checking the last node of block 10, the symbol 2 is displayed on the board for 4 seconds, and a sound signal is sent out by block 17, then the symbol lights up, which means that all the test results are recorded in memory block 13 and after 4 seconds the signal from The electronic key 23 of the automatic control unit 5 through the AND 14 element on the board 15 is highlighted. characters of the checked nodes of block 10 are written. Moreover, if the node is in good condition, then the symbol is simply displayed on the scoreboard, if the node is not healthy, the flashing is flashing and at the same time a sound signal is emitted

At the end of the check, the symbol R is displayed on the board, which shines for as long as it takes. If necessary, you can re-highlight the measurement results by closing the corresponding contacts of the manual control unit 1.

When the re-highlighting of the results is over, the F symbol appears briefly on the board and the remote control automatically returns to its initial state, the flashing GU symbol is displayed on the board.

Thus, the test time is about 80 seconds (1 minute 20 seconds).

If necessary, the ZYMYKENIRM of the contacts of the manual control unit 1 can be connected to an additional block of the reference sensor 18 to the sensor 10 under test and adjust the sensor with a methane-air mixture.

Claims (1)

Invention Formula A device for monitoring gas protection sensors, comprising a memory unit, a key, a light indication unit, an exemplary sensor and a power supply unit, characterized in that, in order to improve speed and reliability of control, a manual control unit with Startup buttons has been inserted into it, Program start, Additional sensor and Repeat, driver of control code, control unit, gating pulse generator, And elements, switch, factory gas protection relay unit and additional model sensor, with one pin ki Yaapusk GI is connected via driver of the control code with the input of the generator of gating pulses and with the first input of the control unit, the second input of which is connected to one output of the Start button of the program, the first and second the outputs of the control unit are connected respectively to the control input of the switch and the first input of the first element I, the second input of which is connected to the strobe generator, the inputs and the switch outputs are connected to the terminals for the sensor under test and to the corresponding inputs of the reference sensor, the output of which is connected to the first through the factory relay of the gas protection system the key input, the second input of which is connected to the first key input, the second input of which is connected to the output of the first element I, the key output is connected to the first input of the memory unit, the second input of which connected to one pin of the button Repeat, the second pin of which is combined with one pin of the button An additional sensor and connected to the first output of the power supply unit, the second output of which is connected On the other side of the launch button button, the third output is on the third input of the control unit, and the input of the power supply unit is connected to the On button, the other output of the button is An additional sensor connected to one of the inputs an additional reference sensor connected to the corresponding terminals of the test sensor. rw 2. Fig.E