阅读说明：本技术 一种地下水池取水系统 (Water taking system of underground water pool ) 是由 武亚雄 齐娇娜 马慧巧 闫海鹰 于 2021-02-09 设计创作，主要内容包括：本发明提供了一种地下水池取水系统,包括：地下水池以及出水渠；所述地下水池包括第一地下水池和第二地下水池,所述第一地下水池与所述出水渠相连通,所述第二地下水池与所述出水渠相连通；所述出水渠内设置若干条取水管路,所述取水管路的入口端置于所述出水渠内,所述取水管路的出口端相汇集并与用水池相连接。本发明提供的地下水池取水系统,很好地解决了现有取水系统稳定性较差、不方便调试的问题。(The invention provides a water taking system of an underground water pool, which comprises: an underground water pool and a water outlet channel; the underground water tank comprises a first underground water tank and a second underground water tank, the first underground water tank is communicated with the water outlet channel, and the second underground water tank is communicated with the water outlet channel; the water outlet channel is internally provided with a plurality of water taking pipelines, the inlet ends of the water taking pipelines are arranged in the water outlet channel, and the outlet ends of the water taking pipelines are converged and connected with a water pool. The underground water pool water taking system provided by the invention well solves the problems of poor stability and inconvenience in debugging of the existing water taking system.)

1. An underground pond water intake system, comprising: an underground water pool and a water outlet channel;

the underground water tank comprises a first underground water tank and a second underground water tank, the first underground water tank is communicated with the water outlet channel, and the second underground water tank is communicated with the water outlet channel;

the water outlet channel is internally provided with a plurality of water taking pipelines, the inlet ends of the water taking pipelines are arranged in the water outlet channel, and the outlet ends of the water taking pipelines are converged and connected with a water pool.

2. The underground pond water intake system of claim 1, wherein the first underground pond is separated from the outlet channel by a wall, and the second underground pond is separated from the outlet channel by a wall;

and three water taking pipelines are arranged in the water outlet channel.

3. The underground pond water intake system of claim 1, wherein the first underground pond is in communication with the outlet channel via a first hoist, and the second underground pond is in communication with the outlet channel via a second hoist.

4. The underground pond water intake system of claim 1, wherein the first underground pond, the second underground pond, and the top of the outlet channel are each provided with a cover plate;

the top of the cover plate is provided with a through hole.

5. The underground pond water intake system of claim 1, wherein the water intake line is provided with a self-priming pump;

the self-priming pump is close to the inlet end of the water intake pipeline.

6. The underground pond water intake system of claim 5, further comprising a detection line;

one end of the detection pipeline is communicated with the water taking pipeline, and the other end of the detection pipeline is provided with a pressure gauge.

7. The underground pond water intake system of claim 6, further comprising a first butterfly valve and a second butterfly valve;

the first butterfly valve is installed on the detection pipeline;

the second butterfly valve is installed on the water intake pipeline.

8. The underground pond water intake system of claim 7, wherein the water intake line is provided with a check valve.

9. The underground pond water intake system of claim 8, wherein the second butterfly valve is located between the check valve and the self-primer pump.

10. The underground pond water intake system of claim 1, wherein a first liquid level gauge is mounted on the top of the first underground pond and a second liquid level gauge is mounted on the top of the second underground pond.

Technical Field

The invention relates to the technical field of water taking from pools, in particular to a water taking system of an underground pool.

Background

At present, the arrangement mode of a water taking system of a conventional underground water tank is that two self-sucking pumps are arranged in a first underground water tank, one self-sucking pump is arranged in a second underground water tank, and the flow of the two self-sucking pumps can meet the requirement of water taking quantity.

But when a self priming pump of first underground water pond damaged unable operation, when just meeting second underground water pond and overhauing, the water intaking system can't satisfy the pond demand water yield, and then influences the operation of follow-up system, seriously influences the operational aspect of whole water treatment in the production.

Disclosure of Invention

The invention aims to provide a water taking system of an underground water pool, and aims to solve the problems that the existing water taking system is poor in stability and inconvenient to debug.

The invention provides a water taking system of an underground water pool, which comprises: an underground water pool and a water outlet channel; the underground water tank comprises a first underground water tank and a second underground water tank, the first underground water tank is communicated with the water outlet channel, and the second underground water tank is communicated with the water outlet channel; the water outlet channel is internally provided with a plurality of water taking pipelines, the inlet ends of the water taking pipelines are arranged in the water outlet channel, and the outlet ends of the water taking pipelines are converged and connected with a water pool.

Furthermore, the first underground water pool and the water outlet channel are separated by a wall body, and the second underground water pool and the water outlet channel are separated by a wall body; and three water taking pipelines are arranged in the water outlet channel.

The first underground water pool, the second underground water pool and the water outlet channel are divided into three independent areas by separating the first underground water pool and the second underground water pool from the water outlet channel through a wall body; the water outlet channel is internally provided with three water taking pipelines, and the water taking pipelines have the effects that: the stability of getting water is increased.

Furthermore, the first underground water tank is communicated with the water outlet channel through a first opening and closing machine, and the second underground water tank is communicated with the water outlet channel through a second opening and closing machine.

The underground water tank is communicated with the water outlet channel through the opening and closing machine, so that water in the underground water tank can conveniently flow into the water outlet channel.

Furthermore, cover plates are arranged at the tops of the first underground water tank, the second underground water tank and the water outlet channel; the top of the cover plate is provided with a through hole.

The effect of setting up the through-hole lies in: the maintenance and cleaning work of workers in the first underground water tank and the second underground water tank is facilitated.

Further, a self-sucking pump is arranged on the water intake pipeline; the self-priming pump is close to the inlet end of the water intake pipeline.

Furthermore, the underground water pool water taking system also comprises a detection pipeline; one end of the detection pipeline is communicated with the water taking pipeline, and the other end of the detection pipeline is provided with a pressure gauge.

The effect of setting up the manometer lies in: the water pressure on the water intake line is monitored.

Furthermore, the underground water pool water taking system also comprises a first butterfly valve and a second butterfly valve; the first butterfly valve is installed on the detection pipeline; the second butterfly valve is installed on the water intake pipeline.

When the pressure needs to be monitored, the first butterfly valve and the second butterfly valve are opened. Wherein, first butterfly valve and second butterfly valve play the effect of control flow.

Further, a check valve is arranged on the water taking pipeline.

The effect of setting up the check valve lies in: prevent the water backflow on the water taking pipeline.

Further, the second butterfly valve is located between the check valve and the self-primer pump.

Furthermore, a first liquid level meter is installed at the top of the first underground water tank, and a second liquid level meter is installed at the top of the second underground water tank.

The effect of arranging the first liquid level meter and the second liquid level meter is that; the water volume of the first underground water tank and the water volume of the second underground water tank can be monitored conveniently in real time.

According to the water taking system for the underground water tank, the water outlet channel is respectively communicated with the first underground water tank and the second underground water tank, so that water in the first underground water tank and the second underground water tank can conveniently enter the water outlet channel; a plurality of water taking pipelines are arranged in the water outlet channel, so that water in the water outlet channel is collected into the water pool through the water taking pipelines; by arranging two underground water pools and a plurality of water taking pipelines, only one underground water pool and two water taking pipelines are accessed to work in the operation process, and the two underground water pools and the plurality of water taking pipelines are mutually standby when the underground water pools are overhauled and the water taking pipelines cannot operate in the existing water taking system; the problem of current water intaking system stability relatively poor, inconvenient debugging has been solved well.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a front view of an underground pond water intake system provided by an embodiment of the present invention;

FIG. 2 is a top view of an underground pond water intake system according to an embodiment of the present invention;

fig. 3 is a schematic connection diagram of a water intake pipeline and a detection pipeline according to an embodiment of the present invention.

Description of reference numerals:

1 is an underground water tank, 11 is a first underground water tank, 12 is a second underground water tank, 13 is a wall body, 14 is a first hoist, 15 is a second hoist, 16 is a first liquid level meter, 17 is a second liquid level meter, and 18 is a through hole;

2 is a water outlet channel; 3, using a water pool; 4 is a water taking pipeline, 41 is a self-priming pump, 42 is a second butterfly valve, and 43 is a check valve; 5 is a detection pipeline, 51 is a first butterfly valve, and 52 is a pressure gauge;

the arrow indicates the direction of water flow.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise. Furthermore, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-3, the present invention provides an underground pond water intake system, comprising: an underground water pool 1 and a water outlet channel 2; the underground water tank 1 comprises a first underground water tank 11 and a second underground water tank 12, the first underground water tank 11 is communicated with the water outlet channel 2, and the second underground water tank 12 is communicated with the water outlet channel 2; a plurality of water taking pipelines 4 are arranged in the water outlet channel 2, the inlet ends of the water taking pipelines 4 are arranged in the water outlet channel 2, and the outlet ends of the water taking pipelines 4 are converged and connected with the water pool 3.

Referring to fig. 1-3, specifically, the underground water tank 1 is used for storing water, the underground water tank 1 includes a first underground water tank 11 and a second underground water tank 12, and both the first underground water tank 11 and the second underground water tank 12 are communicated with the water outlet channel 2, so that water in the first underground water tank 11 and the second underground water tank 12 can conveniently enter the water outlet channel 2; the water supply device is characterized in that a plurality of water taking pipelines 4 are arranged in the water outlet channel 2, the inlet ends of the water taking pipelines 4 are arranged in the water outlet channel 2, and the outlet ends of the water taking pipelines 4 are converged and connected with the water pool 3, so that water in the water outlet channel 2 is converged into the water pool 3 through the water taking pipelines 4.

Further, first underground water pool 11 with the ditch 2 separates through wall body 13, second underground water pool 12 with the ditch 2 separates through wall body 13, separates into three independent region through separating first underground water pool 11, second underground water pool 12 and ditch 2 through wall body 13 between all with first underground water pool 11, second underground water pool 12 and the ditch 2.

Furthermore, three water taking pipelines 4 are arranged in the water outlet channel 2, the underground water pool 1 is divided into a first underground water pool 11 and a second underground water pool 12, and the two underground water pools 1 and the three water taking pipelines 4 are mutually reserved. Prevent that conventional underground water pond water intaking system layout mode from arranging at first underground water pond 11 for two self priming pumps 41, and one self priming pump 41 arranges at second underground water pond 12, damages unable when moving at 11 self priming pumps 41 in first underground water pond, when meeting second underground water pond 12 and overhauls, avoids the water intaking system can't satisfy water consumption pond demand water yield, and then influences the problem of follow-up system operation.

Further, the first underground water tank 11 is communicated with the water outlet channel 2 through a first opening and closing machine 14, and the second underground water tank 12 is communicated with the water outlet channel 2 through a second opening and closing machine 15.

The underground water tank 11 is communicated with the water outlet channel 2 through the opening and closing machine, so that water in the underground water tank 11 can conveniently flow into the water outlet channel 2.

Furthermore, cover plates are arranged at the tops of the first underground water tank 11, the second underground water tank 12 and the water outlet channel 2; the top of the cover plate is provided with a through hole 18.

The effect of setting up the through-hole lies in: the maintenance and cleaning work of workers in the first underground water tank 11 and the second underground water tank 12 is facilitated.

Further, a first liquid level meter 16 is installed at the top of the first underground water tank 11, and a second liquid level meter 17 is installed at the top of the second underground water tank 12.

The effect of providing the first level gauge 16 and the second level gauge 17 is that; the water volume of the first underground water tank 11 and the second underground water tank 12 can be monitored conveniently in real time.

Referring to fig. 3, specifically, the water intake pipeline 4 is used for taking water, an inlet end of the water intake pipeline 4 is disposed in the water outlet channel 2, and an outlet end of the water intake pipeline 4 is converged and connected to the water basin 3.

Further, a self-priming pump 41 is arranged on the water taking pipeline 4; the self-priming pump 41 is close to the inlet end of the water taking pipeline 4, and water in the water outlet channel 2 is pumped out through the work of the self-priming pump 41.

Further, the underground water pool water taking system also comprises a detection pipeline 5; one end of the detection pipeline 5 is communicated with the water taking pipeline 4, and the other end of the detection pipeline 5 is provided with a pressure gauge 52.

The effect of providing the pressure gauge 52 is: the water pressure on the water intake line 4 is monitored.

Further, the underground water pool water taking system also comprises a first butterfly valve 51 and a second butterfly valve 42; the first butterfly valve 51 is installed on the detection pipeline; the second butterfly valve 42 is mounted on the water intake pipe 4.

When monitoring of the pressure is required, the first butterfly valve 51 and the second butterfly valve 42 are opened. Wherein, the first butterfly valve 51 and the second butterfly valve 42 play a role of controlling flow; in addition, it is worth noting that the first butterfly valve 41 must be opened as long as the pressure is monitored, and the second butterfly valve 42 must be opened as long as water is taken.

Further, a check valve 43 is disposed on the water intake pipeline 4, and the second butterfly valve 42 is located between the check valve 43 and the self-priming pump 41.

The effect of providing the check valve 43 is: preventing the water on the water taking pipeline 4 from flowing backwards.

The operation steps of the underground water pool water taking system provided by the invention are as follows: at this 2 water intaking systems of underground water pool 2 initial stage of commissioning, when treating that 2 liquid levels in two underground water pools reach the requirement, open one of them headstock gear wantonly, water gets into outlet channel 2 a period, satisfies the water intaking 4 back of requirement, opens two arbitrary qualified self priming pumps 41 of process debugging, goes into outlet channel 2's water pump to water pool 3, and after the commissioning is qualified, the water intaking systems of underground water pool drops into the normal operating procedure.

Therefore, according to the water taking system for the underground water tank, provided by the invention, the water outlet channel is respectively communicated with the first underground water tank and the second underground water tank, so that water in the first underground water tank and the second underground water tank can conveniently enter the water outlet channel; a plurality of water taking pipelines are arranged in the water outlet channel, so that water in the water outlet channel is collected into the water pool through the water taking pipelines; by arranging two underground water pools and a plurality of water taking pipelines, only one underground water pool and two water taking pipelines are accessed to work in the operation process, and the two underground water pools and the plurality of water taking pipelines are mutually standby when the underground water pools are overhauled and the water taking pipelines cannot operate in the existing water taking system; the problem of current water intaking system stability relatively poor, inconvenient debugging has been solved well.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.