CN218405653U - Intelligent water supply system for mine ore dressing - Google Patents

Abstract

The utility model discloses an intelligent water supply system for mine ore dressing, which comprises a water source, a water supply pipeline, a water supply pool, a water outlet pipeline, a water using end, a water return pipeline, a water return pool and a controller; the water supply tank is connected with the water supply tank through a water supply pipeline, the water supply tank is connected with the water using end through a water outlet pipeline, and the water using end is connected with the water supply tank through a water return pipeline; the water supply pipeline is provided with a water supply pump; the water outlet pipeline is provided with a water outlet pump. The utility model discloses recycle waste water and utilize, reduce the waste of water resource, detect the liquid level height through set up level sensor in the water supply tank to control the water supply pump or the wet return pump and open and stop, realize intelligent water supply, avoid not stopping in time the pump a large amount of water to spill over and cause the waste of water resource after the water supply tank is full, can monitor parameters such as water supply channel inlet pressure, delivery pressure and flow in real time; and the water can be supplied into the water supply tank in advance through the water supply pump by utilizing the low peak of the electricity price, so that the production cost is reduced.

Description

Intelligent water supply system for mine ore dressing

Technical Field

The utility model relates to a water supply technical field specifically is an intelligent water supply system for mine ore dressing.

Background

Mineral processing equipment needs to be used to the ore dressing plant among the ore treatment process of ore dressing plant, and mineral processing equipment needs to use a large amount of water, and general mine mineral processing equipment water is that the direct extraction water source supplies with the use, continuously supplies water according to production needs, uses the direct emission of back waste water of accomplishing. Along with the annual increase of ore treatment capacity of a concentrating mill, the demand of water resources rises linearly, and the contradiction between the shortage of water resources and the annual increase of water consumption is more and more prominent; the water delivery cost is also increased sharply, so that an intelligent water supply system for mine beneficiation is urgently needed to improve the water resource utilization rate and reduce the cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide an intelligent water supply system for mine ore dressing, reduce the waste of water resource, detect the liquid level height through set up level sensor in the water supply tank to control the water supply pump or the wet return pump and open and stop, realize intelligent water supply, avoid not stopping in time the pump a large amount of water after the water supply tank is full and spill over the waste that causes the water resource, can monitor parameters such as water supply channel inlet pressure, delivery pressure and flow in real time; also can utilize the low peak of electricity price to supply water in advance to the water supply pond through the working shaft, reduce manufacturing cost, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: an intelligent water supply system for mine ore dressing comprises a water source, a water supply pipeline, a water supply pool, a water outlet pipeline, a water using end, a water return pipeline, a water return pool and a controller; the water supply tank is connected with the water supply tank through a water supply pipeline, the water supply tank is connected with the water using end through a water outlet pipeline, and the water using end is connected with the water supply tank through a water return pipeline;

the water supply pipeline is provided with a water supply pump; the water outlet pipeline is provided with a water outlet pump; the water return pipeline is sequentially provided with a water return pool and a water return pump according to the water flow direction;

the water supply tank is provided with a liquid level sensor;

the controller is electrically connected with the water supply pump, the liquid level sensor and the water return pump.

Preferably, the water supply pipeline is provided with a first pressure sensor and a second pressure sensor, the first pressure sensor is close to a water source, the second pressure sensor is close to the water supply tank, and the first pressure sensor and the second pressure sensor are both electrically connected with the controller.

Preferably, the controller controls the water supply pump or the water return pump to start and stop according to a water level height signal of the water supply pool acquired by the liquid level sensor.

Preferably, a flow meter is arranged on the water supply pipeline and close to the water supply tank, and the flow meter is electrically connected with the controller.

Preferably, the water supply pipeline is also provided with an electromagnetic valve close to the water supply tank, and the electromagnetic valve is electrically connected with the controller and is controlled by the controller to open and close.

Preferably, a filter is further arranged on the water return pipeline, the water using end is an ore washing device, and waste water used by the ore washing device is filtered by the filter and then flows back into the water return tank through the water return pipeline.

Compared with the prior art, the beneficial effects of the utility model are that: the waste water used by a water end is filtered and then flows back into a water supply tank, the waste water is recycled, waste of water resources is reduced, a liquid level sensor is arranged in the water supply tank to detect the height of a liquid level, so that a water supply pump or a water return pump is controlled to start and stop, intelligent water supply is realized, waste of water resources caused by that a large amount of water overflows when the water supply tank is not stopped timely after being full is avoided, and parameters such as water inlet pressure, water outlet pressure and flow of a water supply pipeline can be monitored in real time by additionally arranging a pressure sensor I, a flowmeter and a pressure sensor II; in addition, the water can be supplied into the water supply tank in advance through the water supply pump by utilizing the low peak of electricity price, and the production cost is reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention.

In the figure: the system comprises a water source 1, a pressure sensor I2, a water supply pump 3, a water supply pipeline 4, a flow meter 5, an electromagnetic valve 6, a pressure sensor II 7, a liquid level sensor 8, a water supply tank 9, a water outlet pump 10, a water outlet pipeline 11, a water end for 12, a filter 13, a water return pipeline 14, a water return tank 15, a water return pump 16 and a controller 17.

Detailed Description

In the following description, the technical solution of the present invention will be described with reference to the accompanying drawings in the embodiment of the present invention, it should be understood that, if there are the indicated positions or positional relationships such as "upper", "lower", "front", "rear", "left", "right", etc., it only corresponds to the drawings of the present invention, and for convenience of description, it is not intended to indicate or imply that the indicated device or element must have a specific position:

referring to fig. 1, the present invention provides a technical solution: an intelligent water supply system for mine beneficiation comprises a water source 1, a water supply pipeline 4, a water supply pool 9, a water outlet pipeline 11, a water using end 12, a water return pipeline 14, a water return pool 15 and a controller 17; the water source 1 is connected with a water supply tank 9 through a water supply pipeline 4, the water supply tank 9 is connected with a water using end 12 through a water outlet pipeline 11, and the water using end 12 is connected with the water supply tank 9 through a water return pipeline 14; the water supply pipeline 4 is provided with a water supply pump 3; the water outlet pipeline 11 is provided with a water outlet pump 10; the water return pipeline 14 is sequentially provided with a water return pool 15 and a water return pump 16 according to the water flow direction; the water supply tank 9 is provided with a liquid level sensor 8; the controller 17 is electrically connected with the water supply pump 3, the liquid level sensor 8 and the water return pump 16; the water source 1 is connected with a water supply tank 9 through a water supply pipeline 4 and a water supply pump, the water supply tank 9 is connected with a water using end 12 through a water outlet pipeline 11 and a water outlet pump 10, the waste water used by the water using end 12 is treated and then flows back to a water return tank 15, and then flows back to the water supply tank 9, so that a complete system is formed, the waste water can be recycled, and the waste of water resources is reduced;

furthermore, a first pressure sensor 2 and a second pressure sensor 7 are arranged on the water supply pipeline 4, the first pressure sensor 2 is close to the water source 1, the second pressure sensor 7 is close to the water supply tank 9, the first pressure sensor 2 and the second pressure sensor 7 are both electrically connected with the controller 17, the first pressure sensor 2 can detect the water supply pressure at the water inlet end of the water supply pipeline 4, the second pressure sensor 7 can detect the water supply pressure at the water outlet end of the water supply pipeline 4, and whether the water supply pipeline 4 leaks or not is judged through two pressure differences;

further, the controller 17 controls the start and stop of the water supply pump 3 or the water return pump 16 according to a liquid level height signal of the water supply tank 9 acquired by the liquid level sensor 8, and the liquid level sensor 8 is arranged in the water supply tank 9 to detect the liquid level, so that the start and stop of the water supply pump 3 or the water return pump 16 are controlled, intelligent water supply is realized, and waste of water resources caused by that a large amount of water overflows after the water supply tank 9 is full without stopping the pump in time is avoided;

further, a flowmeter 5 is arranged on the water supply pipeline 4 close to the water supply tank 9, and the flowmeter 5 is electrically connected with the controller 17 and used for monitoring the water supply flow of the water supply pipeline 4 in real time;

further, an electromagnetic valve 6 is arranged on the water supply pipeline 4 close to the water supply tank 9, and the electromagnetic valve 6 is electrically connected with the controller 17 and is controlled by the controller 17 to be opened and closed;

furthermore, a filter 13 is further arranged on the water return pipeline 14, the water end 12 is used as an ore washing device, the waste water used by the ore washing device is filtered by the filter 13 and then flows back to the water return pool 15 through the water return pipeline 14, and the waste water is filtered by the ore washing device after being used by the water filter 13 and then flows back to the water return pool 15.

The details of the present invention not described in detail are prior art, and it will be apparent to those skilled in the art that the present invention is not limited to the details of the foregoing exemplary embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the scope of the claims.

Claims (6)

1. The utility model provides a mine ore dressing is with intelligent water supply system which characterized in that: comprises a water source (1), a water supply pipeline (4), a water supply tank (9), a water outlet pipeline (11), a water using end (12), a water return pipeline (14), a water return tank (15) and a controller (17); the water source (1) is connected with a water supply tank (9) through a water supply pipeline (4), the water supply tank (9) is connected with a water using end (12) through a water outlet pipeline (11), and the water using end (12) is connected with the water supply tank (9) through a water return pipeline (14);

the water supply pipeline (4) is provided with a water supply pump (3); the water outlet pipeline (11) is provided with a water outlet pump (10); the water return pipeline (14) is sequentially provided with a water return pool (15) and a water return pump (16) according to the water flow direction;

the water supply tank (9) is provided with a liquid level sensor (8);

the controller (17) is electrically connected with the water supply pump (3), the liquid level sensor (8) and the water return pump (16).

2. The intelligent water supply system for mine beneficiation according to claim 1, wherein: be equipped with pressure sensor (2) and pressure sensor two (7) on water supply pipe (4), pressure sensor (2) are close to water source (1), and pressure sensor two (7) are close to water supply tank (9), and pressure sensor (2) and pressure sensor two (7) all are connected with controller (17) electricity.

3. The intelligent water supply system for mine beneficiation according to claim 1, wherein: the controller (17) controls the start and stop of the water supply pump (3) or the water return pump (16) according to a liquid level height signal of the water supply pool (9) acquired by the liquid level sensor (8).

4. The intelligent water supply system for mine beneficiation according to claim 1, wherein: and a flowmeter (5) is arranged on the water supply pipeline (4) and close to the water supply tank (9), and the flowmeter (5) is electrically connected with the controller (17).

5. The intelligent water supply system for mine beneficiation according to claim 1, wherein: the water supply pipeline (4) is also provided with an electromagnetic valve (6) close to the water supply tank (9), and the electromagnetic valve (6) is electrically connected with the controller (17) and is controlled by the controller (17) to be opened and closed.

6. The intelligent water supply system for mine beneficiation according to claim 1, wherein: still be equipped with filter (13) on return water pipeline (14), water end (12) are washery equipment, and waste water after washery equipment uses flows back to in return water pond (15) through return water pipeline (14) after the filtration of filter (13).

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