CN215630431U - High-rise building waste water cyclic utilization drainage control system - Google Patents

Abstract

The utility model discloses a high-rise building wastewater recycling drainage control system, which comprises a toilet wastewater collecting and treating device and a floor top rainwater collecting and treating device, wherein the toilet wastewater collecting and treating device is provided with a cooling water outlet and a power generation water outlet; the cooling water outlet is connected with one end of a cooling connecting pipe, the other end of the cooling connecting pipe is connected with a cooling water collecting pipe, and the cooling water collecting pipe is connected with an outer wall cooling device. The utility model efficiently utilizes the toilet wastewater and the rainwater, reduces the pressure of sewage discharge treatment, reduces the amount of sewage discharged into municipal pipelines, and achieves the effects of energy conservation and consumption reduction.

Description

High-rise building waste water cyclic utilization drainage control system

Technical Field

The utility model relates to the field of wastewater utilization, in particular to a wastewater recycling drainage control system for a high-rise building.

Background

Water is an irreproducible resource and is not inexhaustible. The human beings can really utilize a part of the water in rivers, lakes and underground water, and the water only accounts for 0.26 percent of the total water of the geosphere. China is a large country with water shortage, and the water in China has two main problems: firstly, water resource shortage and secondly, water pollution is serious. Therefore, water conservation is the responsibility and obligation of our whole people. The water and rainwater for washing and showering in toilets of civil houses, hotels and the like generally directly flow into the sewer pipe through the floor drain to be directly discharged, and generally, the waste water and rainwater used in common cleaning, showering and the like are not very dirty and can be reused.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model aims to provide a toilet wastewater recycling system.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a high-rise building wastewater recycling drainage control system comprises a toilet wastewater collecting and processing device and a floor top rainwater collecting and processing device, wherein the toilet wastewater collecting and processing device is positioned at the bottom of each floor of a toilet, the toilet wastewater collecting and processing device is provided with a cooling water outlet and a power generation water outlet, the power generation water outlet is connected with one end of a drainage pipe, the other end of the drainage pipe is connected with a water collecting pipe, the water collecting pipe is used for collecting drainage from the drainage pipe of each floor, a hydraulic turbine generator set is installed at the bottom of the water collecting pipe, the current output end of the hydraulic turbine generator set is connected with a street lamp device, and the water outlet end of the hydraulic turbine generator set is respectively connected with a flower watering device and a bottom water tank collecting pipe through the water collecting pipe;

the cooling water outlet is connected with one end of a cooling connecting pipe, the other end of the cooling connecting pipe is connected with the cooling water collecting pipe, and the cooling water collecting pipe is connected with an outer wall cooling device;

the rainwater outlet pipe of the floor top rainwater collection and treatment device is connected with the cooling water collecting pipe, and the cooling water collecting pipe is connected with the outer wall cooling device of each floor.

Furthermore, the outer wall cooling device corresponding to each floor is located at the top of each floor, and the cooling connecting pipe corresponding to each floor is located above the outer wall cooling device corresponding to the next floor.

Furthermore, water for the outer wall cooling device on the top layer of the building is from a rainwater outlet pipe of the rainwater collection and treatment device, and the rainwater outlet pipe is positioned above the outer wall cooling device on the top layer of the building.

Further, the outer wall cooling device is in a ring strip shape and surrounds the periphery of the floor, the bottom surface of the outer wall cooling device is provided with N cooling spray nozzles, N is an integer larger than N, and the outer wall cooling device is further provided with a pressurizer.

Furthermore, each floor corresponds the drain pipe is located the floor and leans on one side down and keep away from the one side of cooling connecting pipe, and the two-layer floor of minimum does not set up the drain pipe.

Further, the water turbine generator set is installed at the height position corresponding to the second floor.

Furthermore, the water outlet end of the bottom water tank collecting pipe is connected with the bottom water tank, and the water outlet of the bottom water tank is connected with a car washing device or a road surface cleaning device.

Furthermore, the flower watering device is of an annular tubular structure and surrounds the bottom of the floor, the flower watering device is provided with M flower watering spray outlets, M is an integer larger than 0, and the orientation direction of the flower watering spray outlets deviates from the floor and forms an included angle with the ground.

Further, the flower watering device is provided with a pressure controller.

The utility model has the beneficial effects that:

1. the utility model is provided with the outer wall cooling device, the power generation device, the automatic flower watering device and the low-layer water storage device, efficiently utilizes the toilet wastewater and the rainwater, reduces the wastewater discharge treatment pressure, reduces the amount of wastewater discharged into a municipal pipeline, and achieves the effects of energy conservation and consumption reduction.

2. The utility model applies the wastewater treated by the previous layer to the next layer of the outer wall cooling device, reduces the arrangement of a water pump, and can complete the water supply problem of the outer wall cooling device only by gravity.

3. The pressurizer is arranged on the outer wall cooling device and used for enabling water to enter the cooling spray nozzle under the action of pressure to form water mist, so that the evaporation speed of the water is increased, and the purpose of rapidly cooling is achieved. The flower watering device is provided with a pressure controller. The pressure controller can adjust the spraying distance of water passing through the flower watering spray nozzle, and further realize watering for plants at different distances.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a wastewater recycling and drainage control system for high-rise buildings according to the utility model.

FIG. 2 is a schematic view of a three-dimensional structure of a wastewater recycling drainage control system of a high-rise building installed in the high-rise building.

FIG. 3 is a schematic view II of a three-dimensional structure of a wastewater recycling drainage control system of a high-rise building, which is installed in the high-rise building.

FIG. 4 is a schematic view II of a three-dimensional structure of a wastewater recycling and draining control system of a high-rise building installed in a low-rise building.

Reference numerals: 1. a rainwater collection and treatment device; 2. an outer wall cooling device; 3. a water collecting pipe; 4. a drain pipe; 5. a cooling water collecting pipe; 6. a water turbine generator set; 7. a bottom layer water tank collecting pipe; 8. a flower watering device; 9. a cooling connecting pipe; 10. the top layer of the building; 11. a cooling spray nozzle; 12. a flower watering spray nozzle; 13. and a rainwater outlet pipe.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and the detailed description below:

a high-rise building wastewater recycling drainage control system is shown in figure 1 and comprises a toilet wastewater collecting and treating device and a floor top rainwater collecting and treating device 1; the toilet wastewater collecting and treating device is positioned at the bottom of each layer of toilet, the toilet wastewater collecting and treating device is provided with a cooling water outlet and a power generation water outlet, the power generation water outlet is connected with one end of a water discharge pipe 4, the other end of the water discharge pipe 4 is connected with a water collecting pipe 3, the water collecting pipe 3 is used for collecting the water discharged from the water discharge pipe 4 of each floor, a hydraulic turbine generator set 6 is installed at the lower end of the water collecting pipe 3, the current output end of the hydraulic turbine generator set 6 is connected with a street lamp device, and the water outlet end of the hydraulic turbine generator set 6 is respectively connected with a flower watering device 8 and a bottom layer water tank collecting pipe 7 through the water collecting pipe 3;

as shown in fig. 2, the cooling water outlet is connected with one end of a cooling connecting pipe 9, the other end of the cooling connecting pipe 9 is connected with a cooling water collecting pipe 5, and the cooling water collecting pipe 5 is connected with the outer wall cooling device 2;

the rainwater outlet pipe 13 of the floor top rainwater collection and treatment device 1 is connected with the cooling water collecting pipe 5, and the cooling water collecting pipe 5 is connected with the outer wall cooling device 2 of each floor.

Furthermore, the outer wall cooling device 2 corresponding to each floor is located at the top of each floor, and the cooling connecting pipe 9 corresponding to each floor is located above the outer wall cooling device 2 corresponding to the next floor. The waste water after the last layer of processing is applied to the outer wall heat sink 2 of next floor, has reduced the setting of water pump, only relies on gravity alright accomplish the water supply problem to outer wall heat sink 2.

Furthermore, the water for the outer wall cooling device 2 of the top floor 10 of the building comes from the rainwater outlet pipe 13 of the rainwater collection and treatment device 1, and the rainwater outlet pipe 13 is positioned above the outer wall cooling device 2 of the top floor 10 of the building.

Except the top layer, the water used for cooling the wall surface of each layer is sprayed by the outer wall cooling device 2 at the top of the floor, and the water of the outer wall cooling device 2 of the floor comes from the waste water treatment device of the toilet at the previous layer. The water used for cooling the top-layer wall surface is sprayed out by the outer wall cooling device 2 at the top of the floor, and the water of the top-layer outer wall cooling device 2 is provided by the rainwater collecting and processing device 1 at the top of the floor.

Further, outer wall heat sink 2 is the ring strip form around the floor, and the bottom surface of outer wall heat sink 2 is provided with N cooling fog spray 11, and N is the integer that is greater than, still is provided with the presser on the outer wall heat sink 2. The pressurizer is used for feeding water into the cooling spray nozzle 11 under the action of pressure to form water mist, so that the evaporation speed of the water is increased, and the aim of quickly cooling is fulfilled.

Further, as shown in fig. 3, the corresponding drain pipe 4 of each floor is located at the side close to the lower side of the floor where the corresponding drain pipe is located and away from the cooling connecting pipe 9. As shown in figure 4, in order to flow out of the installation position of the hydraulic turbine generator set 6, the water pressure formed by the water flowing out of the lowest two floors under the action of gravity is not strong, the drain pipe 4 is not arranged on the lowest two floors, and the water treated by the two layers of toilet wastewater collecting and treating devices is sprayed downwards by the outer wall temperature reducing device 2, so that the water can be used for cooling the outer wall, watering flowers and cooling roads.

Further, the hydraulic turbine generator set 6 is installed at a height position corresponding to the second floor.

Furthermore, the water outlet end of the bottom water tank collecting pipe 7 is connected with the bottom water tank, and the water outlet of the bottom water tank is connected with a car washing device or a road surface cleaning device, so that one water is multipurpose.

Further, the flower watering device 8 is of an annular tubular structure and surrounds the bottom of the floor, the flower watering device 8 is provided with M flower watering spray outlets 12, M is an integer larger than 0, and the orientation direction of the flower watering spray outlets 12 deviates from the floor and forms an included angle with the ground.

Further, the flower watering device 8 is provided with a pressure controller. The pressure controller can adjust the spraying distance of water passing through the flower watering spray nozzle 12, and further realize watering for plants at different distances.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (9)

1. A high-rise building wastewater recycling drainage control system is characterized by comprising a toilet wastewater collecting and treating device and a floor top rainwater collecting and treating device (1), the toilet wastewater collecting and treating device is positioned at the bottom of each layer of toilet and is provided with a cooling water outlet and a power generation water outlet, the power generation water outlet is connected with one end of a water discharge pipe (4), the other end of the water discharge pipe (4) is connected with a water collecting pipe (3), the water collecting pipe (3) is used for collecting the drainage from the drainage pipe (4) of each floor, the hydraulic turbine generator set (6) is arranged at the bottom of the water collecting pipe (3), the current output end of the water turbine generator set (6) is connected with the street lamp device, and the water outlet end of the water turbine generator set is respectively connected with the flower watering device (8) and the bottom water tank collecting pipe (7) through a water collecting pipe (3);

the cooling water outlet is connected with one end of a cooling connecting pipe (9), the other end of the cooling connecting pipe (9) is connected with a cooling water collecting pipe (5), and the cooling water collecting pipe (5) is connected with an outer wall cooling device (2);

the rainwater outlet pipe (13) of the floor top rainwater collection and treatment device (1) is connected with the cooling water collecting pipe (5), and the cooling water collecting pipe (5) is connected with the outer wall cooling device (2) of each floor.

2. The wastewater recycling and draining control system for the high-rise building according to claim 1, wherein the outer wall cooling device (2) corresponding to each floor is located at the top of each floor, and the cooling connecting pipe (9) corresponding to each floor is located above the outer wall cooling device (2) corresponding to the next floor.

3. The high-rise building wastewater recycling drainage control system according to claim 1, wherein the water for the exterior wall temperature reduction device (2) of the top floor (10) of the building is from a rainwater outlet pipe (13) of the rainwater collection and treatment device (1), and the rainwater outlet pipe (13) is positioned above the exterior wall temperature reduction device (2) of the top floor (10) of the building.

4. The high-rise building wastewater recycling drainage control system according to claim 1, wherein the outer wall cooling device (2) surrounds the floor in a ring strip shape, the bottom surface of the outer wall cooling device (2) is provided with N cooling spray nozzles (11), N is an integer greater than 0, and the outer wall cooling device (2) is further provided with a pressurizer.

5. The high-rise building wastewater recycling and drainage control system according to claim 1, wherein the drainage pipe (4) corresponding to each floor is positioned at one side close to the lower side of the floor and far away from the cooling connecting pipe (9), and the drainage pipe (4) is not arranged at the lowest two floors.

6. The high-rise building wastewater recycling drainage control system according to claim 1, wherein the water turbine generator set (6) set is installed at a height position corresponding to two floors.

7. The high-rise building wastewater recycling drainage control system according to claim 1, wherein the water outlet end of the bottom water tank collecting pipe (7) is connected with the bottom water tank, and the water outlet of the bottom water tank is connected with a car washing device or a road surface cleaning device.

8. The high-rise building wastewater recycling drainage control system according to claim 1, wherein the flower watering device (8) is of an annular tubular structure surrounding the bottom of the floor, the flower watering device (8) is provided with M flower watering spray nozzles (12), M is an integer greater than 0, and the flower watering spray nozzles (12) face away from the floor and form an included angle with the ground.

9. The high-rise building wastewater recycling drainage control system according to claim 1, wherein the flower watering device (8) is provided with a pressure controller.

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