SU1043315A1 - Apparatus for remote control of local airing mine fans - Google Patents

Abstract

DEVICE FOR REMOTE CONTROL OF MINE VENTILATORS OF LOCAL AIR VENTILATION by autor.St. No. 708319, characterized in that, in order to improve reliability and safety due to power outages in dead-end production in emergency situations, it is equipped with a prohibition node, made in the form of a transistor switch, the base of which is connected through a diode to the output of the signal receiver, and through a contact the executive relay is the time of the master unit with one of the poles of the power source, to the other pole of which the emitter of the transistor switch is connected, and its collector is connected to the common connection point of the output of the automatic iterated incorporation with the base node of transistor lock key. (L 4 CO OO SL

Description

The invention relates to the mining industry and is concerned with automatic continuous monitoring of the amount of air supplied to the bottom of a dead-end mine, aired by local ventilation fans (VMPs) in gas and dust hazardous mines, and protective electrical power outages when the normal ventilation conditions are disrupted.

According to the main auth. No. 708319, a device for remotely controlling shaft fans is known, which includes an air velocity sensor connected to a communication line with an executive node containing a signal receiver, an automatic reclosing unit, a time master unit, a device with an executive relay and an output transistor, a source power supply and node lock with transit: a torrent key.

In this device, in the event of a failure in the ventilation of the dead end for less than 0.5 to 2 minutes, the voltage in the dead end is supplied without an exposure of 5 to 20 minutes.

during short-term discharge and restoration of the supply voltage in less than 0.5 - 2 min, the voltage in the dead-end production is also supplied without exposure

one.

However, this device does not take into account the possibility of an emergency situation when the ventilation of the dead-end operation is violated, for example, when the air duct rushes, and when the shutter speed is calculated for 0.5-2 minutes to disconnect the group equipment, the supply voltage is switched off for a short time. At the same time, the HFM stops and the airing of the dead-end discharge is completely stopped, which further deteriorates the gas regime of the dead-end production. After the restoration of the supply voltage and the implementation of the automatic pulse charging of the HFMP, the device for the remaining (up to 2 minutes) time again issues a permit for the supply of electricity to the gassed dead-end production, which can create an explosion-fire situation that leads to significant damage people's lives.

The aim of the invention is to improve reliability and safety by turning off power to a dead end in emergency situations.

This goal is achieved by the fact that the device is equipped with a ban Ull, made in the form of a transistor switch, the base of which is connected via a diode to the output of the signal receiver, and the time of the driver unit is connected to the emitter of the transistor switch via the executive relay contact and its collector is connected to the common connection point of the unit output

automatic re-activation with the base of the granzistor key of the blocking node.

The drawing shows the functional diagram of the device.

The device consists of a sensor of air speed 1, lines 2 of communication and execution unit 3, which contains a receiver 4 signals from the sensor, an automatic reclosing unit, a power supply 6, a time set by unit 7 for controlling a group device supplying dead-end current collectors.

The time the master unit consists of a clock generator 8, the main threshold stage 9 and the node 10 of the lock.

The clock generator 8 is made on the basis of a self-oscillating multivibrator with an output relay included in the load circuit of the output transistor.

The main threshold cascade 9 contains a standby multivibrator with an executive relay 11 connected to the load circuit of the output transistor 12, an additional threshold element 13 with the time of the driving capacitor 14 and the output transistor 15, pin 16 of the output relay of the receiver 4

signal.

The node 10 of the lock contains the block-contact 17 of the VMP actuator and the transistor switch 18, included in the output transistor circuit of the main threshold stage, switching the stage on the transistors 19, and 20,

time specifies the C-circuit 21, 22, additional transistor 23, resistors 24-26 and diodes 27 and 28.

The receiver of 4 signals consists of a frequency-DC converter, a threshold device with an adjustable setting for air velocity, and a driver time with an output relay.

The time setting unit of the receiver creates a delay of 0.5 - 2 minutes to shut off the output relay when the speed of the dead air drops below the setpoint. The output signal from the receiver 4 signals can be taken directly from the output of the threshold device or with a time delay to turn off - from the contacts of the output relay, the time of the master node.

The prohibition node 29 contains a transistor switch 30, a contact 31 of the executive relay 11 of the main threshold stage 9, a diode 32 and registrars 33 and 34 defining the operating point of the transistor switch 30.

The device works as follows.

After starting the HFM and establishing a normal dead-air mode of ventilation, the air velocity sensor 1 outputs to line 2 a signal that arrives at the receiver 4 signals of the actuating unit 3. In the receiver 4 signals, an output relay is activated, one contact of which triggers the time of the master unit 7, and contact 16 prepares the circuit on the actuator of the operating relay P. Time for, the giving block starts to work the shutter speed for 520 minutes (depending on the setting). After working off the time delay, the existential relay 11 is turned on during the setting device, which turns on the group unit. If the dead-end ventilation is disturbed when the speed of the incoming air is lower than the setpoint set in the threshold receiver unit, the output relay 4 signals the output relay with a delay of 0.5-2 minutes. Upon expiration of this time delay, the execution relay 11 switches off, disconnecting the group device. The blocking unit for switching on the group device eliminates the exposure of 5–20 min for the supply of electric power to the dead-end generation when the supply voltage is removed and then restored within 0.5–2 min. The prohibition unit 9 prohibits the supply of electricity to the dead-end production of gas mines in emergency situations caused, for example, by a violation of ventilation. Site ban works as follows. In the initial state, the pin 16 of the output relay of the receiver 4 signals and the blocking contact 17 of the VMP actuator are open, the transistor switch 30 is closed, so the relay 11 is turned off and its pin 31 is open. After performing a pulse start of the VMP, the automatic reclosing unit 5 turns on the VMP starter and closes its contact block 17. A signal from the air velocity sensor arrives at receiver 4. When the air speed arrives at the dead-end output, the desired set point at the output of the threshold receiver block is The life increases stepwise and the output relay of the signal receiver turns on. Contact 16 of the output relay closes, preparing the switching circuit of the actuating relay 11, another contact triggers the timing of the master unit 7. A delay of 5-20 minutes is started to turn on the group device. At the same time, from the output of the threshold b, the eye of the receiver, through a diode 32, the potential difference is applied to the input of the transistor switch 30 and opens it. Through the open transistor 30, the zmitter junction of transistor 18 is opened, preparing the switching circuit of the executive relay 11. When the threshold level on the capacitor 14 is reached, the transistor 15 opens. After working for 5–20 min, the output transistor 12 of the main threshold stage 9 opens and turns on the relay 11, allowing flow dead-end power generation. At the same time, the contact 31 of the relay 11 is closed and reliably holds the transistor 30 in the open state. If the dead-end workings are not disturbed, for example caused by a break in the air duct, the speed of the air entering the dead-end output is lower than the set point in the receiver threshold unit 4 signals and the executive relay 11 of the timing unit 7 is turned off with a delay of 0.5-2 minutes. If during this time delay the supply voltage is briefly removed, the VS. actuator and the group unit are switched off. When the supply voltage recovers during a 0.5–2 min test and the automatic pulse start of the VMP, the blocking contact 17 of the VMP starter is closed, the transistors 12 and 15 are opened, but the executive relay 11 and the group device do not turn on airing ...,., .- -, at the output of the threshold block, the potential difference is not sufficient to open the transistor switch 30, therefore, the transistor 18 remains in the closed state. Thus, in the event of violation of the ventilation of the dead-end production after a brief removal and restoration of the supply voltage and the subsequent automatic pulse start of the HFM during the counting time of 0.5-2 minutes to disconnect the group device, the permission to supply electricity to the gassed dead-end production will not be issued.

Claims (1)

MINE REMOTE CONTROL DEVICE FANS OF LOCAL VENTILATION by ed. No. 708319, characterized in that, in order to increase reliability and safety due to power outages in the dead end in emergency situations, it is equipped with a prohibition node made in the form of a transistor switch, the base of which is connected through the diode to the output of the signal receiver, and through the contact of the executive the relay of the timing unit with one of the poles of the power supply, the emitter of the transistor key is connected to the other pole, and its collector is connected to a common connection point of the output of the automatic repeated inclusion with the base of the transistor node lock key.