CN114645561A - Method for recycling rain sewage on construction site - Google Patents

Abstract

The invention provides a method for recycling rain sewage on a construction site, which comprises the following steps: s1, arranging an overground rain sewage collecting system, collecting the overground rain sewage, and introducing the overground rain sewage into a basement fire pool after filtering; s2, arranging an underground rain sewage collecting system, collecting underground rain sewage, and introducing the underground rain sewage into the basement fire pool after filtering; and S3, arranging a floor water supply system, and introducing the water storage in the basement fire water pool into the floor water supply system. The invention effectively utilizes the basement fire pool as the water storage reservoir, collects and utilizes the rain sewage of the construction site through the automatic control pump, the filter tank and the like, and achieves the effects of changing waste into valuable, protecting the environment, innovating and increasing the efficiency.

Description

Method for recycling rain sewage on construction site

Technical Field

The invention relates to the technical field of rain sewage collection and utilization in building sites, in particular to a recycling method of rain sewage in a building site.

Background

The rain sewage collecting and utilizing system frequently sees the shadow of the rain sewage in the building field which develops at a high speed, and how to effectively and practically implement the rain sewage on the ground becomes a difficult problem in the mind of numerous engineers in the industry. The natural rainfall is the focus of attention of engineers at all times, natural rainwater cannot be dredged well, great troubles are brought to the plane arrangement and the construction process of a construction site, and the progress and the construction quality of site construction are affected. On the contrary, natural rainwater can also be utilized as construction water, so that waste is changed into valuable, and value is brought to project promotion. However, the collection and utilization of the existing rain sewage in the construction site are often restricted in the construction site, and the effect is not good.

Disclosure of Invention

Aiming at the prior art, the invention provides a method for recycling rain sewage on a construction site.

The invention provides a method for recycling rain sewage on a construction site, which comprises the following steps:

s1, arranging an overground rain sewage collecting system, collecting the overground rain sewage, and introducing the overground rain sewage into a basement fire pool after filtering;

s2, arranging an underground rain sewage collecting system, collecting underground rain sewage, and introducing the underground rain sewage into the basement fire pool after filtering;

and S3, arranging a floor water supply system, and introducing the water storage in the basement fire water pool into the floor water supply system.

Preferably, in S1, the construction step of arranging the above-ground rainwater and sewage collecting system includes: building a filter tank on a top plate of a basement, building a drainage tank at the terminal of the filter tank, installing a rainwater and sewage filtering device between the filter tank and the drainage tank, installing a water outlet pipe at the outlet of the drainage tank, extending the water outlet pipe to a fire pool of the basement, and conveying natural rainfall and construction water to the filter tank in a temporary pump pumping mode.

Preferably, in S1, the step of installing the rain sewage filtering device includes: and a filtering port is formed in the filtering tank, filtering materials are filled in the filtering port, a drainage tube is arranged on the filtering port, and the drainage tube extends to the drainage tank.

Preferably, in S1, the filter material is a mixture of crushed stone and hemp thread.

Preferably, in S2, the step of disposing the underground rainwater and sewage collecting system includes: after the construction of the basement structure is completed, water pumps are installed in the main water collecting pit and the water collecting pit close to the basement fire-fighting water pool, and the automatic control cabinet matched with the water pumps underground rain sewage to the basement fire-fighting water pool through the temporary fire-fighting water pipe.

Preferably, in S3, the construction step of arranging the floor water supply system includes: a plurality of booster pumps are arranged to be matched with the automatic control electric cabinet and connected through a water pipe, and the stored water in the basement fire pool is conveyed to a floor for water supply.

Preferably, in S3, a concrete foundation of a booster pump is cast in situ on a top plate of the basement, and temporary protection sheds are erected around the concrete foundation for protection.

Preferably, in S3, a water stopping sleeve is pre-installed at the connection position of the water pipe and the basement fire pool, and the interior of the water stopping sleeve is sealed by asphalt hemp thread and plugging agent.

Preferably, a filter tank and an access hole are arranged on the basement fire pool.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention tightly connects the drainage of rain and sewage on the top plate of the ground reservoir, the collection of water stored in the water collecting pit of the ground reservoir and the water supply to the floors, successfully solves the problems caused by natural rain water, and practically solves the problems of natural rain and sewage recovery, storage and floor water supply by combining with the practical experience of site building construction management, thereby achieving the expected aims of convenient construction, safety, reliability, solid waste utilization, energy conservation, environmental protection, engineering cost reduction and the like.

2. The invention effectively utilizes the basement fire pool as the water storage reservoir, collects and utilizes the rain sewage of the construction site through the automatic control pump, the filter tank and the like, achieves the effects of changing waste into valuable, protecting environment, innovating and increasing efficiency through the use of the system, and is a drainage and water-saving method for the construction site which is fit for practical use.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a schematic structural view of an underground storm sewage collection system according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of an underground rainwater sewage collecting system according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a floor water supply system according to an embodiment of the invention.

In the figure: 100. an above-ground rain sewage collection system; 101. a filtering tank; 102. a drainage pool; 103. a filter material; 104. a drainage tube; 105. a water outlet pipe; 200. a basement fire pool; 201. a water stop sleeve; 202. a filter tank; 203. an access hole; 300. a basement roof; 400. an underground rain sewage collection system; 401. a sump; 402. a water pump; 403. a temporary fire hose; 500. a floor water supply system; 501. pressurizing the water pump; 502. a concrete foundation; 503. and (4) galvanizing the water pipe.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Examples

A method for recycling rainwater sewage at a construction site, referring to fig. 1-4, comprising the following steps:

s1, arranging an overground rain sewage collecting system 100, collecting the overground rain sewage, and introducing the filtered overground rain sewage into the basement fire pool 200;

further, the method specifically comprises the following steps: as shown in fig. 2, a filtering tank 101 is built on a top plate 300 of a basement, a drainage tank 102 is built at the terminal of the filtering tank 101, a rainwater and sewage filtering device is installed between the filtering tank 101 and the drainage tank 102, a filtering port can be formed on the filtering tank 101, a filtering material 103 is filled in the filtering port, the filtering material 103 can be a mixture of crushed stones and hemp threads, a drainage tube 104 is installed on the filtering port, and the drainage tube 104 can be a 100mm pvc casing tube and extends the drainage tube 104 to the drainage tank 102; a water outlet pipe 105 is installed at the outlet of the drainage pool 102, the water outlet pipe 105 can adopt a 50PVC sleeve, the water outlet pipe 105 extends to the top of the basement fire pool 200, so that water passing through the filter pool 101 can freely flow into the basement fire pool 200, natural precipitation and construction water are conveyed to the filter pool 101 in a temporary pump pumping mode, and the natural precipitation and the construction water flow into the basement fire pool 200 after being filtered by the filter pool 101; considering that more garbage, soil and the like can be accumulated in the filter tank 101 for a long time, a specially-assigned person can be arranged to perform inspection and cleaning regularly;

s2, arranging an underground rainwater and sewage collecting system 400, collecting underground rainwater and sewage, and introducing the underground rainwater and sewage into the basement fire pool 200 after filtering;

further, the method specifically comprises the following steps: as shown in fig. 3, after the construction of the basement structure is completed, a plurality of water pumps 402 are installed in a water collecting pit 401 which is mainly and close to the basement fire-fighting water pool 200, and the underground rainwater sewage is pumped to the basement fire-fighting water pool 200 by an automatic control cabinet matched with the water pumps 402 through a temporary fire-fighting water pipe 403; it is noted that the sludge and the garbage are reduced as much as possible in the conveying process;

s3, arranging a floor water supply system 500, and introducing water stored in the basement fire pool 200 into the floor water supply system 500;

further, the method specifically comprises the following steps: as shown in fig. 4, a plurality of booster pumps 501 are arranged to be matched with an automatic control electric cabinet, the number of the booster pumps 501 can be increased or decreased according to actual conditions, four booster pumps 501 can be arranged, in order to avoid the influence of the vibration of the booster pumps 501 on the basement foundation structure, the concrete foundation 502 of the booster pumps can be cast on the basement roof 300 in situ, the concrete foundation 502 and the booster pumps 501 are protected by setting up temporary protective sheds around the concrete foundation 502 for avoiding damage and considering construction safety, the concrete foundation 502 can be chiseled off at a later stage, and the water stored in the basement fire pool 200 is conveyed to floors for water supply through the connection of galvanized water pipes 503;

further, a water stop sleeve 201 can be pre-installed at the connecting part of the galvanized water pipe 503 and the basement fire pool 200, and the inside of the water stop sleeve 201 can be subjected to waterproof plugging by using asphalt hemp threads and plugging;

further, as shown in fig. 1, a filter tank 202 can be arranged at the bottom of the basement fire pool 200, an access opening 203 is arranged at one side of the basement fire pool, water storage and garbage accumulation inside the fire pool can be checked through the access opening 203, and the basement fire pool can be arranged and cleaned once a season; in addition, as the large reservoir of the whole system, the basement fire pool 200 needs to complete the waterproof and interior decoration construction of the basement after the structure construction is completed, regularly checks the water storage condition and the sludge accumulation condition of the basement fire pool, and treats the basement fire pool pertinently to ensure the normal operation of the whole system.

The present invention is composed of a floor water supply system 500, an above-ground rain sewage collecting system 100, an underground rain sewage collecting system 400, and a basement fire pool 200. The rainwater and sewage are collected to the filter tank 101 on the ground, and automatically flow into the basement fire pool 200 after being filtered by the filter tank 101, the underground water is accumulated in the water collecting pit 401 and conveyed to the fire pool through the water pump 402, and the stored water in the fire pool is connected and conveyed to floors through the galvanized water pipe 503 for construction and water supply.

In the construction process, the above-ground and underground rain sewage is dredged to a fire pool for collection through each system, and finally the stored water is connected to a floor water supply pipeline through a booster water pump 501 so as to supply water for site construction. The method solves the difficult problem of dredging natural rainwater and construction sewage, avoids the influence of the rainwater and the construction sewage on site construction progress and engineering quality, changes waste into valuable, filters, collects and transports the rainwater and the sewage for site construction, reduces construction water cost, and is green and environment-friendly. Meanwhile, the method has the function of using the basement fire pool in advance, is extremely easy to be applied to construction sites, and is worth being widely popularized.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures made by using the contents of the present specification and the drawings can be directly or indirectly applied to other related technical fields, and are also within the scope of the present invention.

Claims (9)

1. A method for recycling rain sewage on a construction site is characterized by comprising the following steps:

s1, arranging an overground rain sewage collecting system, collecting the overground rain sewage, and introducing the overground rain sewage into a basement fire pool after filtering;

s2, arranging an underground rainwater and sewage collecting system, collecting underground rainwater and sewage, and introducing the underground rainwater and sewage into the basement fire pool after filtering;

and S3, arranging a floor water supply system, and introducing the water storage in the basement fire water pool into the floor water supply system.

2. The method for recycling rainwater collection at a construction site according to claim 1, wherein the step of installing an above-ground rainwater collection system in S1 comprises: building a filter tank on a top plate of a basement, building a drainage tank at the terminal of the filter tank, installing a rainwater and sewage filtering device between the filter tank and the drainage tank, installing a water outlet pipe at the outlet of the drainage tank, extending the water outlet pipe to a fire pool of the basement, and conveying natural rainfall and construction water to the filter tank in a temporary pump pumping mode.

3. The method for recycling rainwater wastewater at a construction site according to claim 2, wherein the step of installing the rainwater wastewater filtering apparatus in S1 comprises: and a filtering port is formed in the filtering tank, filtering materials are filled in the filtering port, a drainage tube is arranged on the filtering port, and the drainage tube extends to the drainage tank.

4. The method of recycling rainwater on a construction site according to claim 3, wherein the filter material is a mixture of crushed stone and hemp at S1.

5. The method for recycling rainwater wastewater at a construction site according to claim 1, wherein the step of arranging the underground rainwater wastewater collection system in S2 comprises: after the construction of the basement structure is completed, water pumps are installed in the main water collecting pit and the water collecting pit close to the basement fire-fighting water pool, and the automatic control cabinet matched with the water pumps underground rain sewage to the basement fire-fighting water pool through the temporary fire-fighting water pipe.

6. The method of recycling rainwater on a construction site according to claim 1, wherein the step of arranging the floor water supply system in S3 comprises: a plurality of booster pumps are arranged to be matched with the automatic control electric cabinet and connected through a water pipe, and the stored water in the basement fire pool is conveyed to a floor for water supply.

7. The method of recycling rainwater on a construction site according to claim 6, wherein in S3, a concrete foundation of a booster pump is cast on a top plate of a basement, and a temporary protective shed is built around the concrete foundation for protection.

8. The method for recycling rainwater and sewage at a construction site according to claim 6 or 7, wherein a water stopping sleeve is pre-installed at a connection part of the water pipe and the basement fire water pool in S3, and the interior of the water stopping sleeve is sealed and waterproofed by asphalt hemp and leaking stoppage king.

9. The method for recycling rainwater wastewater at a construction site according to any one of claims 1 to 7, wherein a filter tank and an access opening are provided in the basement fire pool.

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