CS254413B1 - Level evaluator for safety in mines - Google Patents

Abstract

Level evaluator for ensuring safety in mines, consisting of a short-circuit reference voltage source, an alarm reference voltage source, an interruption reference voltage source, a short-circuit comparator, an alarm comparator, an interruption comparator, logic and a sensor power supply. This continuously monitors the sensor status, simultaneously checks the status of the line to the sensor and is equipped with a coded output for connecting a data acquisition and transmission device.

Description

The invention relates to a level evaluator for providing safety in mines. It can be used wherever there is a particularly flammable environment and it is necessary to monitor the ambient temperature and report the exceeding of the adjustable limit, as well as check the connection lines from the level evaluator to the sensor.

At present, relay resistance evaluation of the sensor is used to signal “fire hazard”. The relay device does not allow precise setting of the reporting limit - the elements used have a great time and temperature dependence. The device is not very reliable, its operation depends on the mechanical state of the relays used and the characteristics of the amplifiers, and it changes as the components age. It does not allow checking the status of lines and does not allow cooperation with computer equipment.

The level evaluator according to the invention allows the self-evaluation of the connected sensor status and the wiring to the sensor to be checked, the output of the level evaluator being compatible with the computing means. A LJ line is indicated by a normal condition, a line break or a line short.

The essence of the mine safety evaluator according to the invention is that the output of the first reference voltage source is connected to the reference input of the first comparator whose output is. connected to a first logic input, wherein the output of a second reference voltage source is coupled to a reference input of a second comparator whose output is coupled to a second logic input, wherein the output of a third reference voltage source is coupled to a reference input of a third comparator whose output is coupled to a third input logic, wherein the measurement input of the first comparator is coupled to the measurement input of the second comparator and simultaneously to the measurement input of the third comparator and simultaneously to the output of the sensor source and the input terminal of the level evaluator, the coded logic output forming the output terminal of the level evaluator.

Fig. 1 is a block diagram of a level evaluator for providing safety in mines. Fig. 2 is a block diagram of a level evaluator for safety in mines with a filter attached.

The output 11 of the first reference voltage source 10 is connected to the reference input 41 of the first comparator 40, whose output 43 is connected to the first input 71 of the logic 70, wherein the output 21 of the second reference voltage source 20 is connected to the reference input 51 of the second comparator 50. 53 is coupled to the second logic input 72, wherein the output 31 of the third reference voltage source 30 is coupled to the reference input 61 of the third comparator 60, whose output 63 is coupled to the third logic input 73, wherein the measurement input 42 of the first comparator 40 is. connected to the measurement input 52 of the second comparator 50 and simultaneously to the measurement input 62 of the third comparator 60 and simultaneously to the output 81 of the source 80 and the input terminal 100 of the level evaluator, the coded output 74 of logic 70 forming the output terminal 110.

The level evaluator for providing safety in the mines of FIG. 1 operates as follows: The sensor source 80 powers the sensor connected to the input terminal 100 of the level evaluator. The voltage at terminal 100 depends on the magnitude of the monitored variable (eg temperature) and the condition of the wiring to the Sensor. This voltage is applied to the measuring input 42 of the first comparator 40, which indicates a short circuit of the line. If the voltage at the input terminal 100 of the level evaluator is less than the voltage at the reference input 41 of the first comparator 40, its output 43 flips to the active state and sends a "short circuit" signal to the first input 71 of logic 70. 100 of the level evaluator less than the voltage at the reference input 51 of the second comparator 50, the second comparator 50 goes into an active state, and its output 53 sends an "alarm" signal to the second input 72 of the logic 70. voltage at the reference input 61 of the third comparator 60, the third comparator 60 flips to the active state and sends a "broken line" signal to the third input 73 of logic 70. If the voltage at the level evaluator input terminal 100 is between the voltage values at the reference comparator 51 50 and at reference input 61 of the third comp 60, all comparators are in the idle state, the sensor does not report an "alarm" and the wiring is OK. The logic 70 reduces the number of output wires for 4 transmitted information to two and prevents the alarm from signaling in the event of line damage, as the sensor signal cannot be evaluated.

The mine level evaluator of FIG. 2 works identically to the mine level evaluator of FIG. 1, except that a filter 90 is included between the output 81 of the sensor source 80 and the level evaluator input terminal 100 to suppress the interference voltage induced in the mine. that would otherwise cause a short-term false activation of comparators 40, 50 and 60, and thus a false message at the output terminal 110 of the level evaluator.

Claims (2)

SUBJECT OF THE INVENTION A level evaluator for providing safety in mines, characterized in that the output (11) of the first reference voltage source (10) is connected to a reference input (41) of the first comparator (40) whose output (43) is. connected to a first input (71) of the logic (70), wherein, the output (21) of the second The 254 413 reference voltage source (20) is coupled to the reference input (51) of the second comparator (50), the output (53) of which is connected to the second input (72) of the logic (70), the output (31) of the third source (30) the reference voltage is connected to the reference input (61) of the third comparator (60), the output (63) of which is connected to the third input (73) of the logic (70), the measuring input (42) of the first comparator (40) connected to the measurement input (52) of the second comparator (50) and simultaneously with the measurement input (62) of the third comparator (60) and simultaneously with the output (81) of the sensor source (80) and the input terminal (100) of the level evaluator; The logic (70) forms the output terminal (110) of the level evaluator. 2. Level evaluator to ensure safety in mines. according to claim 1, characterized in that the output (81) of the sensor source (80) is connected to the output (91) of a filter (90) whose input (92) forms the input terminal (100) of the level evaluator.