CS273472B1 - Connection for miner's lamp condition measuring - Google Patents

Abstract

The solution concerns the connection for measuring of miner lamp state. It allows clear and unambiguous estimation of lamp presence in the charging stand and monitoring of internal security diode quality.The connection is formed in the following way: In the series with charging resistor a diode is connected, whose cathode is connected simultaneously to positive pole of the lamp, to the resistor and to the input of the evaluating circuit.<IMAGE>

Description

The invention relates to a circuit for measuring the state of a mining luminaire, its presence in a charging stand and the quality of a protective diode built into the mining luminaire.

The prior art methods for measuring the state of a mining luminaire use a mechanical switch at each mining luminaire to determine the presence of a mining luminaire in the charging stand, or to measure the voltage on the luminaire or to measure the charging current.

The use of a mechanical switch is very unreliable and difficult to adjust in operation. The mere measurement of the voltage on the mine luminaire does not provide a reliable indication, because as the charging time progresses, the voltage on the luminaire is near the charging voltage. It is therefore very difficult to distinguish whether the luminaire is already fully charged or not present in the stand.

Determining the presence of a luminaire in the rack by measuring the charging current requires a complex evaluation circuit. Another important criterion is monitoring the quality of the protective diode built into the mine luminaire. This diode, prescribed by the relevant regulation, is intended to ensure that there is no short circuit on the terminal terminals of the lamp during underground work. The permeability of the diode in the reverse direction deteriorates over time due to the aggressive environment inside the mine luminaire. To determine the quality of this diode, the reverse current measurement of all luminaires is used simultaneously by connecting mA to a common positive and negative lead. This method only makes it possible to determine that, although the mine luminaire is of poor quality diode, it does not make it possible to determine which luminaire it is, and this must be determined by a lengthy elimination method.

The above-mentioned drawbacks are eliminated by the circuit for measuring the state of the mine luminaire according to the invention, which is based on the fact that the anode of the diode is connected to the charging resistor and its cathode is connected to the positive pole of the mine luminaire. the output terminal of the evaluation circuit, with a resistor connected to the cathode of the diode being connected upstream of the input terminal.

The advantage of wiring is that it allows to clearly determine the presence of the mine luminaire in the rack, the quality of the protective diode in each mine luminaire separately, and also the voltage waveform during the charging period. This makes it possible to prevent overcharging of mine luminaires, thereby extending their service life and increasing the safety of underground work.

The attached drawing is a block diagram of an exemplary circuit according to the invention.

The positive terminal of the charging voltage conductor 2 is connected to a charging resistor 2 at the other end of which the anode of the diode 1 is connected. The cathode of the diode 1 is connected to the positive terminal of the mine luminaire. 2 3® connected to the negative pole-7 of the charging voltage line. The other end of the resistor 2 is connected to the input terminal a, the output Y of the evaluation circuit 4 being connected to the output terminal b.

The function of the circuit according to the invention is that in the mode of measuring the presence of the mine lamp 2, there is a positive voltage ^{at the} positive terminal 6 of the charging voltage conductor. There is zero potential to the negative pole 7 of the charging voltage conductor. A positive voltage that is greater than the charging voltage is applied to the input terminal a. When the mine luminaire 2 is inserted in the stand, the charging circuit is closed via the charging resistor 2 »diode 1 and mine luminaire 2 · As input X of the evaluation circuit 4, the voltage is equal to the instantaneous voltage on mine luminaire 2 · 2 will not be in the rack, the input X of the evaluation circuit 4 will have the same voltage as the input terminal a, since the diode 1 will be reversed in the reverse direction. In the mode of measurement of the protective diode built into the mine luminaire 2 3®, the positive terminal 6 of the charging voltage conductor is disconnected from the charging voltage and its potential is zero. The negative pole 2 of the charging voltage conductor is connected to a positive voltage that is greater than a multiple

4 *

CS 273472 B1 Charging voltage. Input terminal a has zero potential. If the mine luminaire 6 with a protective reverse diode is inserted in the rack, there will be zero potential at the input X of the evaluation circuit. Otherwise, current will flow through resistor 2 depending on the reverse diode of the protective diode and there will be a positive voltage at the input X of the evaluation circuit 4, the greater the magnitude of the protective diode quality.

The solution can be advantageously used in all organizations using cordless luminaires.

Claims (1)

SUBJECT OF THE INVENTION A circuit for measuring the state of a mine luminaire, characterized in that the anode of the diode (1) is connected to a charging resistor (5) and its cathode is connected both to the positive pole of the mine luminaire (3) and to the input (X) ), whose output (Y) is connected to the output terminal (b) of the evaluation circuit (4), in front of the input terminal (a) is a resistor (z) connected by a second terminal to the cathode of the diode (1).