CS231716B1 - Connexion for checking of methan and carbon monoxide in storage - Google Patents

Abstract

The invention relates to a wiring arrangement presence of methane and carbon monoxide in the reservoir, especially in underground mines. The essence of the sampling probe is located inside and at the skip emptying point in the skip feed channel. The probe is connected flexible tube and infra-analyzer, which a single control center is connected by the management and on the relay box. Connection by The invention can be advantageously used in all coal tanks, bulk materials and silage towers where there is a risk of accumulation of explosive anxiety.

Description

The invention relates to a circuit for monitoring the presence of methane and carbon monoxide in a reservoir, in particular in underground mines. This gas, including carbon monoxide, produced by the smell of coal, is collected uncontrolled in a storage tank. In particular, CH4, which collects in the upper parts of the reservoir, can cause a very dangerous explosive atmosphere in strong concentrations. In order to initiate CH4 in the reservoir, the spark caused by the discharge of the mine into the reservoir during its filling is sufficient. The explosion for these causes has already occurred not only in the gassing mines that caused the mine fire, which resulted in loss of human life, but also in ships carrying coal.

Measurement of CH4 or CO has so far been performed only sporadically. Sampling probes are, however, located in these mine workings downstream of the reservoir, where the concentration of CH4 or CO is influenced by the flowing mine winds, and therefore in these places it is significantly lower than in the actual reservoir or skip. Existing methods and connection of measuring devices did not solve either continuous monitoring of dangerous concentrations of CH4 and CO or tete in connection with blocking of further filling of the reservoir.

These risks are minimized by a methane and carbon monoxide wiring circuitry in the container of the present invention. The essence of this connection, which comprises a known sampling probe, is that the probe is located inside the container and, at the skip emptying of the container, it is located in the skip channel of the skip. The sampling probe is connected by a flexible tube with an infrared channel, which is connected to the control room and to the relay box. This relay box is connected to a container or skip skip locking conveyor contactor as well as a drum fan contactor and a hopper closing unit in the container or skip.

The connection according to the invention eliminates the possibility of accumulation of CH4 or CO in the containers and channels of filling skip containers to dangerous concentrations, thus avoiding the possibility of explosions in these spaces. In case of exceeding the safe limit, the concentration of these gases will cause blocking of the additional filling of the tank, stopping of the filling conveyor or tipper and at the same time degassing of the area with dangerous CH4 concentration and sprinkling of the mine. This eliminates the possibility of an explosion occurring directly at its source with all its consequences, ie directly in the reservoir compared to the previous practice, when only measurements were carried out at a location that was not a direct source of explosion. Therefore, the safety of the work is considerably increased by the connection according to the invention.

In the accompanying drawings, an exemplary circuit for monitoring the presence of methane and CO in the reservoir according to the invention is shown schematically in FIG. FIG. 2 is a longitudinal cross-sectional view of the reservoir with the sampling probes in the circuit according to the invention.

In the upper part of the container 1 or in the filling channel of the skip 16, there is a sampling probe 2, which is connected by a flexible tube 11 to the infantry analyzer J for measuring the CH4 and CO content. The infrared analyzer J is connected to the relay box 4 and can also be connected to the control panel, which is not a chair *, by conducting the signal JJX. The relay housing 4 preferably comprises three control relays, one of which is connected to the contactor 6 of the lute fan 2 located at the top of the storage tank 4 and the other is connected to the shut-off unit 6, for example. a contactor 6 for blocking the conveyor 13 of the excavation dp of the magazine J1. The infantry analyzer 8 is fed by a feed line 8. The contactor 6 is supplied with power to the 12 fan 2.

The infantry analyzer J continuously sucks samples of the gaseous mixture from the upper part, the reservoir 1 or the feed channel of the skip 16 via the sampling probe 6 through the flexible tube 11. If the permissible level of CH4 or CO is exceeded, the contact of the emergency state is switched in the infrared analyzer J and a pulse is given to the relay box 4. The individual relays of the relay box 4 give an impulse stopping and at the same time a warning signal is given - acoustic and optical for train sets or air or hydraulic transport and tipping equipment. The next impulse is given by relay box A to contactor 6, thus switching on the blower fan 2. At the same time, an impulse is given to the closing unit g which turns on the sprinkler JLA located in the reservoir J or in the filling point of skip 16. CH4 or CO. If the CH4 and CO levels fall below the permissible limit, the infra-analyzer 2 will give an impulse to the relay box »», after which the fan 2 »of the sprinkler 14 will stop and the alarm signals will be turned off. At the same time, the conveyor 13 is unlocked and the container 6 continues to be filled.

The circuitry according to the invention can be advantageously used in all tanks of coal, loose materials and in forage towers where there is a risk of accumulation of explosive mixtures.

Claims (1)

SUBJECT OF THE INVENTION Wiring for monitoring the presence of methane and carbon monoxide in a container containing a sampling probe, characterized in that the sampling probe (2) is located inside the tank (!) And for skip skip emptying of the tank (1) in the feed channel (15) of the skip (16). being connected by a flexible tube (11) to an infantry analyzer (3) connected both to the control room (10) and to the relay box (4), which is connected to a contactor (5) for locking the feed conveyor (13) of the container (1) or skip (16) as well as the contactor (6) of the lute or fan (7) and the shutter (8) of the sprayer (14) in the hopper or skip (16),