CN209779747U - Reclaimed water recycling system - Google Patents

Abstract

The utility model discloses a reuse of reclaimed water system, including water storage portion, water-collecting circulation pipeline and organized drainage structure, water storage portion, water-collecting circulation pipeline and organized drainage structure interconnect form inner loop water system, inner loop water system is connected with running water supply system. The utility model discloses a collect-save-utilize-collect the circulation, reach the maximize with water resource utilization. Not only can meet the functions of recovering rainwater and waste water, but also has the functions of draining and dispersing water. The device adopted by the system is convenient to install and dismantle and can be repeatedly used; the reclaimed water recycling system is integrated into a tap water supply system, so that the influence on construction and construction or life caused by the supply interruption of a water source in the absence of water is avoided.

Description

Reclaimed water recycling system

Technical Field

The utility model relates to a reuse of reclaimed water technical field, in particular to reuse of reclaimed water system.

Background

The term "reclaimed water" is used in relation to the supply (feed) and discharge (drain) of water. The reclaimed water reuse technology is the standard of treating the reclaimed water to non-drinking water, and is mainly used for water which is not in direct contact with human bodies, such as ground and automobile cleaning, greening watering, fire fighting, industrial common water and the like, so that the purposes of saving water and protecting water resources are achieved.

The water consumption of the construction project site is roughly divided into domestic water, construction water and office water, the project period is generally 1-3 years or even longer, the water consumption is large, the water consumption control of the construction site is beneficial to saving the construction cost, and the effects of protecting the environment and preventing water pollution can be achieved. Developing reclaimed water recycling technology in engineering projects is an effective method for promoting social and economic sustainable development strategies, and has a profound strategic significance for relieving water crisis.

For water used in a conventional construction site, the defects of the water used in the conventional construction site are mainly as follows:

(1) the tap water resource is wasted.

the greening irrigation, roof water spraying cooling and road surface spraying dust fall of office areas and living areas generally directly use tap water, are large in using amount, are not recycled in one-time use, and are not high in water resource utilization rate.

(2) Rainwater and used water cannot be recycled.

On site, most of natural water sources such as rainwater, domestic water and the like are organized and discharged, and are not collected, stored and reused.

(3) The drainage system is not recyclable.

The field water dispersing and draining is basically a disposable temporary structure, so that the construction is complex, and resource materials cannot be recycled.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve the above problems existing in the prior art, the utility model provides a retrieve rainwater, domestic water on construction project scene and store recycle to can integrate into running water supply system's reuse of reclaimed water system.

The utility model discloses a realize through following technical scheme: a reclaimed water recycling system comprises a water storage part, a water collecting circulation pipeline and an organized drainage structure, wherein the water storage part, the water collecting circulation pipeline and the organized drainage structure are connected with each other to form an internal circulation water system, and the internal circulation water system is connected with a tap water supply system;

The organized drainage structure comprises a cornice ditch and a rainwater pipe, and the rainwater pipe is connected with a drainage hole at the lower part of the cornice ditch;

The water collecting circulation pipeline comprises a water collecting part and a circulation part connected with the water collecting part, and the circulation part comprises a pipeline network for connecting a construction office area and a living accommodation area;

The water collecting part comprises a horizontal drain pipe and a vertical drain pipe communicated with the horizontal drain pipe, the vertical drain pipe is communicated with an air conditioner condensate pipe, and the horizontal drain pipe is fixed on the installation surface through an installation fixing piece.

Further, horizontal drainage pipe passes through installation mounting level is fixed in wall or roof, vertical drainage pipe one end communicate in horizontal drainage pipe's side for it with horizontal drainage pipe is mutually perpendicular, vertical drainage pipe's the other end sets up, and is connected with the air conditioner condensate pipe.

Furthermore, the joint of the communicating part of the vertical drain pipe and the horizontal drain pipe is sealed by sealant.

Furthermore, the organized drainage structure comprises an eaves gutter and a rainwater pipe, and the rainwater pipe is connected to a drainage hole in the lower portion of the eaves gutter.

Further, the eaves gutter longitudinal gradient of the eaves gutter is 1%.

Further, the water storage part comprises a water storage tank, a water pump and a water replenishing pipeline which are connected with each other, and the water storage tank is connected with a tap water supply system.

further, the water storage tank through implement the moisturizing pipeline with running water supply system connects, the water storage tank with be equipped with the check valve between the moisturizing pipeline, make when the water storage tank lacks water, can supply through the running water.

The utility model discloses a theory of operation: the field water collection mainly comprises rainwater and air conditioner condensate water. Collect through to interim board house roofing rainwater and encorbelment in the eaves gutter of outer wall, arrange down the inflow collecting pipe by the downspout and be responsible for to the water storage tank carries out the water conservancy diversion to the declivity. The air conditioner condensate pipe is directly connected to the collecting pipe main pipe. The collected water source is stored in the water storage tank. When water for greening irrigation, roof spraying cooling, toilet flushing and the like is needed, the water storage tank is pumped by the water pump, and water is delivered through the output pipeline.

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

(1) Through collection-storage-utilization-collection circulation, the utilization rate of water resources is maximized. Reducing the demand of the project for tap water;

(2) The recycling of the reclaimed water can reduce the water consumption in the project implementation process. The reclaimed water circulating system can collect rainwater and air conditioner condensate water so as to replace a corresponding drainage structure;

(3) The reclaimed water recycling system not only can meet the functions of recycling rainwater and waste water, but also has the functions of draining and dispersing water. The device adopted by the system is convenient to install and dismantle and can be repeatedly used;

(4) the reclaimed water recycling system is integrated into a tap water supply system, so that the influence on construction and construction or life caused by the supply interruption of a water source in the absence of water is avoided.

Drawings

fig. 1 is a schematic view of the reclaimed water recycling system of the present invention.

FIG. 2 is a schematic view of the water collecting part of the reclaimed water recycling system of the present invention.

FIG. 3 is a schematic view of the organized drainage structure of the reclaimed water recycling system of the present invention.

Detailed Description

for a better understanding and an implementation, the following detailed description of the embodiments of the present invention is given in conjunction with the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The reclaimed water recycling system comprises a water storage part 3, a water collecting circulation pipeline and an organized drainage structure 2, wherein a circulation water channel is shown in figure 1, the water collecting circulation pipeline and the organized drainage structure 2 are arranged and installed on the wall surface and the roof according to the field condition and are connected with the water storage part to form an internal circulation water system, and the water storage part 3 is connected with a tap water supply system.

The water storage part 3 comprises a water storage tank 31, a water pump and a water replenishing pipeline which are connected with each other, and the water storage tank is connected with a tap water supply system 32.

the water storage tank 31 is connected with the tap water supply system 32 through a water replenishing pipeline, a one-way valve is arranged between the water storage tank 31 and the water replenishing pipeline, and when the water storage tank 31 is short of water, the one-way valve can be opened to replenish the water storage tank 31 through tap water; when the water storage tank 31 is not short of water, the one-way valve is closed, and the water stored in the water storage tank 31 cannot flow back to the tap water supply system 32.

The water collecting circulation pipeline comprises a water collecting part 1 and a circulation part communicated with the water collecting part 11, the water collecting part 11 comprises a horizontal drainage pipe 11, a vertical drainage pipe 12, an air conditioner condensate pipe 13 and an installation fixing part 14, and the circulation part comprises a pipeline network for connecting a construction office area and a living accommodation area.

The structure of the water collecting part 1 is shown in fig. 2, and the horizontal drain pipe 11, the vertical drain pipe 12 and the air-conditioning condensate pipe 13 are all made of PVC pipes. The installation fixing part 14 is a steel sheet with one end embedded into a wall surface or a roof, the other end of the steel sheet is used for clamping the horizontal drainage pipe 11, a pair of steel sheets are symmetrically arranged to form a clamping space, and the horizontal drainage pipe 11 is arranged in the clamping space and is further fixedly installed on the wall surface or the roof.

in this embodiment, the fixing members 14 are used to fix every 120 mm.

the horizontal drainage pipe 11 is horizontally arranged on the ground, one end of the vertical drainage pipe 12 is communicated with the side face of the horizontal drainage pipe, so that the vertical drainage pipe is perpendicular to the horizontal drainage pipe 11, and a joint at the communication position is sealed by sealant, so that the effect of strengthening and fixing can be achieved while water leakage is prevented. The other end of the vertical water drainage pipe 12 is arranged upwards, and the air conditioner condensate pipe 13 is directly placed into the end, arranged upwards, of the vertical water drainage pipe 12.

In this embodiment, the diameter of the horizontal drainage pipe 11 is 110 mm; the diameter of the vertical drainage pipe 12 is 20mm, and the length is 500 mm.

As shown in fig. 3, the organized drainage structure 2 includes a gutter 21 and a rainwater pipe 22, and the rainwater pipe 22 is connected to a drain hole 211 at the lower part of the gutter 21.

in this embodiment, the width of the eaves gutter 21 is 300mm, the longitudinal gradient of the eaves gutter is 1%, and the diameter of the rain pipe 22 is 100 mm; correspondingly, the diameter of the drain hole 211 is slightly smaller than 100mm, so that the rainwater pipe 22 is more stably installed, and meanwhile, a fixing part is eliminated, so that the rainwater pipe is more convenient to disassemble; the joint of the drain hole 211 and the rain pipe 22 is sealed by sealant or integrally formed, so as to prevent water leakage.

in this embodiment, in order to avoid roof leakage, the distance between two adjacent rain water pipes is less than or equal to 24 m.

The foregoing is considered as illustrative of the preferred embodiments of the invention and is not intended to limit the invention in any way. Various equivalent changes and modifications can be made on the basis of the above embodiments by those skilled in the art, and all equivalent changes and modifications within the scope of the claims should fall within the protection scope of the present invention.

Claims (6)

1. A reclaimed water recycling system is characterized in that: the water storage part, the water collecting circulation pipeline and the organized drainage structure are connected with each other to form an internal circulation water system, and the internal circulation water system is connected with a tap water supply system;

The organized drainage structure comprises a cornice ditch and a rainwater pipe, and the rainwater pipe is connected with a drainage hole at the lower part of the cornice ditch;

The water collecting circulation pipeline comprises a water collecting part and a circulation part connected with the water collecting part, and the circulation part comprises a pipeline network for connecting a construction office area and a living accommodation area;

The water collecting part comprises a horizontal drain pipe and a vertical drain pipe communicated with the horizontal drain pipe, the vertical drain pipe is communicated with an air conditioner condensate pipe, and the horizontal drain pipe is fixed on the installation surface through an installation fixing piece.

2. The reclaimed water reuse system according to claim 1, wherein: the horizontal drainage pipe passes through installation mounting level is fixed in wall or roof, vertical drain pipe with the horizontal drainage pipe communicates with each other, and with horizontal drainage pipe is mutually perpendicular, vertical drainage pipe one end sets up, and is connected with the air conditioner condensate pipe.

3. The reclaimed water reuse system according to claim 2, wherein: and the joints at the embedding positions of the vertical drain pipe and the horizontal drain pipe are sealed by sealant.

4. The reclaimed water reuse system according to claim 3, wherein: the vertical slope of the eaves gutter is 1%.

5. The reclaimed water reuse system according to claim 1, wherein: the water storage part comprises a water storage tank, a water pump and a water replenishing pipeline which are connected with each other, and the water storage tank is connected with a tap water supply system.

6. The reclaimed water reuse system according to claim 5, wherein: the water storage tank is connected with the tap water supply system through the water replenishing pipeline, and a one-way valve is arranged between the water storage tank and the water replenishing pipeline, so that the water storage tank can be replenished through tap water when water is lacking.