SU473013A1 - The device of the centralized control of the operation of mining equipment - Google Patents

Description

one

A device for centralized monitoring of the operation of mining equipment, such as a coal mining combine, contains sensors for monitoring the state of an object, a control unit, a switching unit, a time signal sensor, a dispatcher’s remote control panel, a pulse generator, a coincidence circuit, a control counter, scaling time counters, short duration current idle times, program blocks, counters for counting the number of long idle times, intrinsically safe isolation unit.

The proposed device differs from what is known in that the sensors for monitoring the state of the object are connected to the controlled delay nodes to which the control unit is connected, and the outputs of the delay nodes are connected to the corresponding computer time and current counters through the control block, the outputs of which are connected to software blocks, connected to the inputs of the corresponding metering counts of the number of long downtimes and the control unit, the pulse generator through the switching unit connected to the inputs of the counters the total time of short downtimes and a control counter, the output of which is connected to the outputs of the counters through a coincidence circuit and a switching unit

flowable and simple with control blocks. This makes it possible to increase the accuracy of control, increase the reliability of the device and simplify its design.

The drawing shows a block diagram of the proposed device.

The sensors 1 for monitoring the state of an object are connected via intrinsically safe interlocking blocks 2 with controllable nodes 3 delays,

to which the control unit 4 is also connected, and the outputs of the nodes 3 delays through the control unit 4 are connected to the machine time counters 5 from the beginning of the shift, the counters 6 of the total machine time for the entire operation period and the current counters 7 are simple.

The outputs of the counters 5-7 are connected to the remote controller 8 with a light board. In addition, counters 7 through program blocks 9

connected to the counters 10, the number of long downtime and the control unit 4. The outputs of the counters 10 are also connected to the dispatcher's console 8. The third outputs of the counters 7 are connected to

the switching unit 11 connected through the counters 12 of the total duration of short-term idle times from the beginning of the shift with the dispatcher's console 8. The switching unit 11 is connected to the coincidence circuit 13, the output

which is associated with switching unit 11,

and with a control counter 14 connected to the joint scheme 13.

The time signal sensor ib is also connected to the control unit, and the pulse generator Sh is connected to the switching unit I.

The signal from the sensor 1 for monitoring the state of the object when turning on the next-to-last passes through the intrinsically safe isolation unit 2 to the control unit 4, and the signals from the sensor 15 go to computer time counters 5 and 6. The signal to turn off the object prevents the signals from the time signal from passing to the counters b and b of the accounting of computer time, which begin to take place in the counter 7 of the accounting of the current is simple. If the readings of counter 7 coincide with the number stored in program block 9, corresponding to the maximum time taken for this object, as a valid time simply for technological reasons, this idle time is considered long, and the control unit 4 outputs to the controller’s console 8 light and beep. At the same time, an impulse is transferred to the meter 3, accounting for the number of long idle times from the beginning of the shift, which transfers the meter to a new state. After a long simple object is completed, the control unit 4 generates a command to turn on the sound and light signaling to the dispatcher, and only after a command from the dispatcher's console 8, after reading the counters, the digital reset on the digital scoreboard is 7. To protect the device from fixing the long end, short-term switching on of the monitored object during repair work a controlled node 3 of signal delays was introduced, which is adjusted to a certain shutter speed in accordance with the requirements, imposed on this object, and delays the issuance of a signal about the end of a long just by turning on the object and continuous operation of the latter in a period of time less than that specified by the controllable delay unit b. Managed delay node 6 enters into operation only during a long and simple period. This is provided by applying to one of the inputs of the delay node a signal from the control unit, which is captured when selected by the program block of the form, simply as a long-term one.

In the short term, a simple controlled delay node works as a repeater.

When the object is turned on after less time than specified by software block 9 (idle time is considered short), switching unit 11 is turned on, which connects to the coincidence circuit 13, counter 7 of the current one and simple counter 12 of the total time of short outages from the beginning of the change of this object. In this case, the signals from the pulse generator arrive simultaneously in the control counter 14 and the counter 12 of the total time of short downtime. When accumulating in the control counter 14 the number of pulses equal to the readings of the current counter is just 7, the coincidence circuit 13 turns off the counters 7 and 12 from the switching unit 11 (the counter 12 carries the number of pulses equal to the readings of the idle counter), and the counter is zeroed 7 current

simply .

Subject invention

A device for centralized monitoring of the operation of mining equipment, for example, a coal-mining combine, containing sensors for monitoring the state of an object, a control unit, a switching unit, a time signal sensor, a dispatcher's console from the display panel, a pulse generator, a coincidence circuit, control counters, computer time counters, short-term and current downtime, program blocks, counters for counting the number of long downtimes, intrinsically safe isolation block, characterized by

that, in order to increase the control accuracy, increase the reliability and simplify the device, the sensors for monitoring the state of an object are connected to the controlled delay nodes to which the control unit is connected, and the outputs of the delay nodes are connected to the corresponding computer time and current counters , the outputs of which are connected to software blocks connected to the inputs of the corresponding. counters for counting the number of long downtime and a control unit, the pulse generator through a switching unit connected to the inputs of the counters of the total time of short downtime and

control counter;: in which, through a coincidence circuit, the switching unit is connected to the outputs of the current meters simply and to the control units.