CN214299574U - High-efficient swirler reflux unit - Google Patents

Abstract

The utility model provides a high-efficiency swirler reflux device, which comprises an adjusting tank and a high-efficiency swirler, wherein the water outlet of the adjusting tank is connected with the water inlet of the high-efficiency swirler; the water outlet of the high-efficiency cyclone is connected with the water inlet of the underground fire-fighting watering pool through a high-efficiency cyclone water outlet pipe; the high-efficiency rotational flow water outlet pipe is also provided with a branch which is connected with a water inlet of the regulating tank through a sewage return pipe; a valve control unit for controlling the flow direction of liquid is arranged at the joint of the high-efficiency rotational flow water outlet pipe and the sewage return pipe; the structure can prevent sewage which does not reach the standard from entering the fire pool to cause water pollution, and further, underground production and dust removal water are not influenced.

Description

High-efficient swirler reflux unit

Technical Field

The utility model belongs to the technical field of sewage treatment, a high-efficient swirler reflux unit is related to.

Background

The process of the high-efficiency swirler for treating the mine water at present comprises the steps that the mine sewage is lifted to the high-efficiency swirler by a regulating reservoir lifting pump to be treated and then directly enters a fire-fighting water pool to be reused for underground production water and underground dust-removing water, effluent water quality monitoring is detected by a turbidity meter arranged on an outlet pipe of the high-efficiency swirler, operating personnel need to pay attention to turbidity change constantly, when the effluent water quality turbidity exceeds the water quality standard of underground reuse water and underground discharge water, the regulating reservoir lifting pump is closed to stop water treatment, but the water in the high-efficiency swirler still enters the fire-fighting water pool along with the outlet pipe, so that the water in the fire-fighting water pool is polluted, the underground equipment cannot normally produce, dust-removing nozzles are blocked, and suspended matters in the discharge water are influenced, and the environment is polluted.

Disclosure of Invention

An object of the utility model is to provide a high-efficient swirler reflux unit has solved the above-mentioned not enough that exists among the prior art.

In order to achieve the above purpose, the utility model discloses a technical scheme is:

the utility model provides a high-efficiency swirler reflux device, which comprises an adjusting tank and a high-efficiency swirler, wherein the water outlet of the adjusting tank is connected with the water inlet of the high-efficiency swirler; the water outlet of the high-efficiency cyclone is connected with the water inlet of the underground fire-fighting watering pool through a high-efficiency cyclone water outlet pipe; the high-efficiency rotational flow water outlet pipe is also provided with a branch which is connected with a water inlet of the regulating tank through a sewage return pipe;

and a valve control unit for controlling the flow direction of liquid is arranged at the joint of the high-efficiency rotational flow water outlet pipe and the sewage backflow pipe.

Preferably, the valve control unit comprises a PLC control system, an online turbidity meter, a sewage backflow electric valve and a high-efficiency cyclone water outlet electric valve, wherein the sewage backflow electric valve is arranged at a water inlet of the sewage backflow pipe; the water outlet electric valve of the high-efficiency cyclone is arranged on the high-efficiency cyclone water outlet pipe and is arranged at the downstream of the water inlet of the sewage return pipe; the online turbidimeter is arranged on the high-efficiency rotational flow water outlet pipe and is arranged at the upstream of the water inlet of the sewage return pipe; the online turbidity meter is used for collecting the water turbidity in the high-efficiency rotational flow water outlet pipe in real time and transmitting the collected water turbidity to the PLC control system; and the PLC control system is used for comparing the received water turbidity with a preset threshold value and controlling the start and stop of the sewage backflow electric valve and the high-efficiency swirler water outlet electric valve according to a comparison result.

Preferably, the PLC control system is further connected with a display screen.

Preferably, the valve control unit is a three-way valve.

Preferably, a coagulation device is arranged between the water outlet of the regulating reservoir and the high-efficiency cyclone.

Preferably, an underground mine water inlet is arranged on the adjusting tank.

Preferably, a sludge outlet is arranged on the high-efficiency cyclone.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a high-efficient swirler reflux unit through the valve control unit who installs sewage reflux unit additional and control liquid flow direction for sewage that does not reach standard returns to the equalizing basin and carries out retreatment, thereby has stopped that sewage that does not reach standard gets into the fire-fighting water pond and causes water pollution, and then influences the underground production and the dust elimination water.

Further, through detecting quality of water turbidity at the turbidity meter to compare with preset threshold value, realize through PLC control system that real-time linkage motorised valve closes the outlet valve door according to the contrast result, and open the return pipe valve, return to the equalizing basin through the sewage that return line is not up to standard and carry out retreatment, thereby stopped that sewage that is not up to standard gets into the fire-fighting water pond and caused water pollution, and then influence underground production and the dust elimination water.

Drawings

FIG. 1 is a schematic structural view of a reflow apparatus according to the present invention;

fig. 2 is a schematic diagram of a valve control unit according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the high-efficiency cyclone backflow device provided by the present invention comprises an adjusting tank 1 and a high-efficiency cyclone 3, wherein a water outlet of the adjusting tank 1 is connected to a water inlet of the high-efficiency cyclone 3; the water outlet of the high-efficiency swirler 3 is connected with the water inlet of the underground fire-fighting watering pool through a high-efficiency swirling water outlet pipe 4; the high-efficiency rotational flow water outlet pipe 4 is also provided with a branch which is connected with the water inlet of the regulating tank 1 through a sewage return pipe 8;

and a valve control unit for controlling the flow direction of liquid is arranged at the joint of the high-efficiency rotational flow water outlet pipe 4 and the sewage return pipe 8.

Further, the valve control unit comprises a PLC control system, an online turbidity meter 5, a sewage backflow electric valve 6 and a high-efficiency swirler water outlet electric valve 7, wherein the sewage backflow electric valve 6 is arranged at a water inlet of a sewage backflow pipe 8; the high-efficiency cyclone water outlet electric valve 7 is arranged on the high-efficiency cyclone water outlet pipe 4 and is arranged at the downstream of the water inlet of the sewage return pipe 8; the online turbidimeter 5 is arranged on the high-efficiency rotational flow water outlet pipe 4 and is arranged at the upstream of the water inlet of the sewage return pipe 8; the online turbidity meter 5 is used for collecting the turbidity of the water in the high-efficiency rotational flow water outlet pipe 4 in real time and transmitting the collected turbidity of the water to the PLC control system; and the PLC control system is used for comparing the received water turbidity with a preset threshold value and controlling the start and stop of the sewage reflux electric valve 6 and the high-efficiency swirler water outlet electric valve 7 according to a comparison result.

Further, the valve control unit can also be a three-way valve.

Examples

The utility model provides a high-efficiency swirler reflux device, which comprises an adjusting tank 1, a coagulator 2, a high-efficiency swirler 3, a high-efficiency swirler water outlet pipe 4, an online turbidity meter 5, a sewage backflow electric valve 6, a high-efficiency swirler water outlet electric valve 7, a sewage backflow pipe 8, an underground fire-fighting water sprinkling pool 9 and a PLC control system 10, wherein the adjusting tank 1 is provided with an underground mine water inlet; a water outlet arranged on the regulating tank 1 is connected with a water inlet of the coagulation device 2; the water outlet of the coagulation device 2 is connected with the water inlet of the high-efficiency swirler 3; and the purified water outlet on the high-efficiency cyclone 3 is connected with the water inlet of the underground fire-fighting watering pool and the regulating pool 1 respectively.

And a purified water outlet on the high-efficiency cyclone 3 is connected with a water inlet of the underground fire-fighting watering pool through a high-efficiency cyclone water outlet pipe 4.

And a sewage backflow pipe 8 is arranged on the high-efficiency rotational flow water outlet pipe 4 and is communicated with the regulating tank 1 through the sewage backflow pipe 8.

And an online turbidity meter 5 is arranged on the high-efficiency cyclone water outlet pipe 4, and the online turbidity meter 5 is used for acquiring turbidity of water in the high-efficiency cyclone water outlet pipe 4 in real time and transmitting the acquired turbidity to the PLC control system.

The sewage return pipe 8 is disposed downstream of the on-line turbidity meter 5.

And a sewage backflow electric valve 6 is arranged on the sewage backflow pipe 8, and the sewage backflow electric valve 6 is connected with a PLC (programmable logic controller) control system 10.

And a high-efficiency cyclone water outlet electric valve 7 is arranged on the high-efficiency cyclone water outlet pipe 4, and the high-efficiency cyclone water outlet electric valve 7 is connected with a PLC (programmable logic controller) control system 10.

The high-efficiency cyclone water outlet electric valve 7 is arranged at the downstream of the water inlet of the sewage return pipe 8.

And the PLC control system is used for receiving the water turbidity transmitted by the online turbidity meter 5, comparing the water turbidity with a preset threshold value, and controlling the start and stop of the sewage reflux electric valve 6 and the high-efficiency swirler effluent electric valve 7 according to a comparison result.

The PLC control system is also connected with a display screen, and the display screen is used for displaying the turbidity of the water quality collected in real time.

The utility model discloses a working process:

when the display numerical value of the turbidity of the water collected by the online turbidity meter 5 in real time exceeds a preset threshold value of 5NTU, a time relay starts to time, and enters the next state when 5min is reached, namely, the PLC control system controls the opening of the sewage reflux electric valve 6 and controls the closing of the water outlet electric valve 7 of the high-efficiency swirler so that the sewage flows back to the adjusting tank 1;

when the display numerical value of the turbidity of the water collected by the online turbidity meter 5 in real time is smaller than the preset threshold value 5NTU, the time relay starts to time, and the next state is started when the time reaches 5min, namely, the PLC control system controls the opening of the water outlet electric valve 7 of the high-efficiency cyclone, and simultaneously controls the closing of the sewage backflow electric valve 6, so that the system can normally produce water.

Claims (7)

1. The high-efficiency swirler backflow device is characterized by comprising an adjusting tank (1) and a high-efficiency swirler (3), wherein a water outlet of the adjusting tank (1) is connected with a water inlet of the high-efficiency swirler (3); the water outlet of the high-efficiency swirler (3) is connected with the water inlet of the underground fire-fighting watering pool through a high-efficiency swirling water outlet pipe (4); the high-efficiency rotational flow water outlet pipe (4) is also provided with a branch which is connected with a water inlet of the regulating tank (1) through a sewage return pipe (8);

and a valve control unit for controlling the flow direction of liquid is arranged at the joint of the high-efficiency rotational flow water outlet pipe (4) and the sewage return pipe (8).

2. The high-efficiency cyclone backflow device as claimed in claim 1, wherein the valve control unit comprises a PLC control system, an online turbidity meter (5), a sewage backflow electric valve (6) and a high-efficiency cyclone water outlet electric valve (7), wherein the sewage backflow electric valve (6) is arranged at a water inlet of a sewage backflow pipe (8); the high-efficiency cyclone water outlet electric valve (7) is arranged on the high-efficiency cyclone water outlet pipe (4) and is arranged at the downstream of the water inlet of the sewage return pipe (8); the online turbidity meter (5) is arranged on the high-efficiency rotational flow water outlet pipe (4) and is arranged at the upstream of the water inlet of the sewage return pipe (8); the online turbidity meter (5) is used for collecting the water turbidity in the high-efficiency rotational flow water outlet pipe (4) in real time and transmitting the collected water turbidity to the PLC control system; and the PLC control system is used for comparing the received water turbidity with a preset threshold value and controlling the start and stop of the sewage reflux electric valve (6) and the high-efficiency swirler water outlet electric valve (7) according to a comparison result.

3. The high efficiency cyclone backflow device of claim 2, wherein a display screen is further connected to the PLC control system.

4. The high efficiency cyclone backflow device of claim 1, wherein the valve control unit is a three-way valve.

5. The high-efficiency cyclone backflow device as claimed in claim 1, wherein a coagulation device (2) is arranged between the water outlet of the regulating reservoir (1) and the high-efficiency cyclone (3).

6. The high-efficiency cyclone backflow device as claimed in claim 1, wherein an underground mine water inlet is arranged on the adjusting tank (1).

7. The high-efficiency cyclone backflow device as claimed in claim 1, wherein a sludge outlet is arranged on the high-efficiency cyclone (3).

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