CS225564B1 - Connection of underground signalling - Google Patents

Description

The present invention relates to a mining signaling circuitry which allows both the transmission of signals from the mining vessels to the machine room and the receipt of their feedback from the machine room to the mining vessels.

So far, devices that consist of a moving current circuit, i.e. a hoisting rope and a balancing rope, and partial electrical circuits that affect the impedance of the moving current circuit, have been used to transmit signals for this purpose. For example, the existing electrical sub-circuit is designed to include switchable non-linear elements such as two silicon diodes. One of these diodes is connected to the hoisting rope by its anode, while the cathode is connected to the balancing rope via the delayed switch-off contact of the signaling button. Further, the end of the hoisting rope is connected via a serial combination of the second diode and the loudspeaker to the end of the balancing rope, wherein the break contact of the signaling button is connected in parallel to the loudspeaker.

Another possibility is that the sub-circuit that connects the ends of the hoisting and balancing cables comprises a diode with a loudspeaker connected in series, wherein the break contact of the signaling button is connected in parallel to the diode and loudspeaker in series.

A disadvantage of these prior art devices is that their sub-electrical circuits need for their proper functioning current pulses which, when passing through the moving current circuit, are able to sufficiently excite the loudspeaker. This drawback is particularly evident in deep mines with the risk of explosion, where current pulses, which have a considerably reduced amplitude to ensure intrinsic safety, do not sufficiently excite the loudspeaker.

These drawbacks are overcome by the mining signaling circuit according to the invention, characterized in that each of the mining vessels is provided with at least one partial electrical circuit consisting of a signaling button, a first and a second transistor, which transistors differ in type, working resistance, limiting resistance, isolation resistance, speaker and battery. The movable current circuit and the electrical sub-circuit are interconnected such that the hauling rope is connected via a first sub-electrical terminal to a parallel combination of the signal contact break contact and the base-emitter of the first transistor whose collector is connected via a resistor to the emitter of the second transistor. and on the other hand through a limiting resistor with the base of the second transistor. The collector of the second transistor is connected to one terminal of the loudspeaker, the other terminal of which is connected via a separating resistor to the emitter of the first transistor and to the break contact of the signaling button, as well as to the other terminal of the partial electrical circuit. Furthermore, the second speaker terminal is connected via a switch contact of the signaling button to one pole of the battery, the opposite pole of which is connected to the emitter of the other transistor. In the case of multistage extraction vessels, the individual electrical circuits of each extraction vessel are connected in series with each other.

The advantage of the connection for the mining signaling according to the invention is that it enables to amplify even very weak pulses that pass through the moving current circuit. These amplified pulses are then able to sufficiently excite the loudspeaker upon confirming the transmitted signal. This advantage is particularly evident in very deep mines with the risk of explosion, in which the magnitude of the current pulses is greatly limited by the applicable safety regulations. Another advantage is that even if the battery is discharged, the device is capable of sending signals from the extraction vessel to the engine room.

In the accompanying drawing, an example of a connection for mining signaling according to the invention is shown schematically, in which: Fig. 1 shows one of the two extraction vessels with a single electrical circuit; Fig. 2 shows the connection of the individual electrical circuits in a three-volume extraction vessel.

A lifting vessel K is suspended at each end of the hoisting rope L1. A balancing rope L2 is attached to the bottom of the two hoisting vessels. The two ropes L1, L2 are galvanically separated from the extraction vessels K. For the sake of clarity, only one sub-circuit E is connected between the ends of the two ropes L1, L2. In the multi-tonnage container K, the individual sub-circuit E is connected in series. The hoisting rope L1 with the balancing rope L2 forms a movable current circuit. Each sub-circuit E for influencing the non-linear impedance of the moving current circuit is composed of a signaling button S, first and second transistors T1 and T2, a working resistor W1, a limiting resistor W2, a decoupling resistor

In this example, the first transistor T1 is of the PNP type and the second transistor T2 is of the NPN type. The movable current circuit and the electrical sub-circuit E are interconnected in such a way that the hoisting rope L1 is connected via the first sub-circuit terminal 1 of the electrical sub-circuit E with a parallel combination of NC contact of signaling button S and base transition - emitter of first transistor T1. via the first working resistor W1 with the emitter of the second transistor T2 and partly through the limiting resistor W2 with the base of the second transistor T2. The collector of the second transistor T2 is connected to one terminal of the loudspeaker R, the other terminal of which is connected via an isolation resistor W3 to the emitter of the first transistor T1, to the break contact SA of the signaling button S, and to the other terminal 2 of the electric sub-circuit E rope L2. The second speaker terminal R is connected to the negative terminal of the battery Z via the NO contact SB of the signaling button S, the positive terminal of which is connected to the emitter of the second transistor T2.

The circuit arrangement in the sub-circuit may also be such that the first transistor T1 is NPN-transitioned and the second transistor T2 is PNP-transitioned. Then, however, the second speaker terminal R is connected via the switch contact SB of the signaling button S to the positive terminal of the battery Z, the negative terminal of which is connected to the emitter of the second transistor T2.

At the time when no signals are sent from the mining vessels K, both ends of the hoisting and balancing cables L1, L2 in both mining vessels K are connected via the break contacts SA of the signaling buttons S in series connected electrical circuits E, both current pulses passing through the moving circuit. polarity.

When transmitting signals from the extraction vessel K, the corresponding signaling button S is pressed and the impedance of the moving current circuit becomes non-linear. The shape of its non-linear characteristic depends on the extraction vessel K from which the signals are transmitted. In this case, the current pulses, which have a considerably reduced amplitude and which pass through the moving current circuit, are rectified and amplified in the sub-circuit E, so that they can sufficiently excite the speaker R.

Claims (2)

SUBJECT 1. Wiring for mine signaling enabling the transmission of signals from the mining vessels to the engine room as well as the receipt of their acknowledgments to the mining vessels by means of a movable current circuit formed by a towing rope and a balancing rope, And affecting its non-linear impedance, characterized in that each extraction vessel (K) is provided with at least one partial electrical circuit (E) consisting of a signaling button (S) of the first and second transistors (T1, T2) differing in type, of the working resistor (W1), the limiting resistor (W2), the isolation resistor (W3), the speaker (R) and the battery (Z), the moving current circuit and the electrical sub-circuit (E) are connected to each other such that is over; the first sub-circuit terminal (1) is connected to a parallel combination of the break contact (SA) of the signaling button (S) and the base-emitter of the first transistor (TI) whose collector is connected via a working resistor (W1j) to the emitter of the second transistor (T2) and on the other hand through a limiting resistor (W2) with the base of the second transistor (T2), the collector of the second transistor (T2) is connected to one terminal of the loudspeaker (R), the other terminal connected to the emitter of the first transistor (T1) and the break contact (SA) of the signaling button (S), as well as the second terminal (2) of the electrical sub-circuit (E) to which the equalization line (L2) is connected, the second speaker outlet (R) via the make contact (SB) of the signaling button (S) connected to one pole of the battery (Z), the opposite pole of which is connected to the emitter of the second transistor (T2). 2. A mine signaling connection according to claim 1, characterized in that the individual electrical circuits (E) of each extraction vessel (K) are connected in series with one another. 2 drawings