CN114687426A

CN114687426A - Transformer substation adjustable rainwater multiplexing system

Info

Publication number: CN114687426A
Application number: CN202210221209.5A
Authority: CN
Inventors: 陈军; 郑李利; 王蔚; 周卫东; 练春林; 马晶晶
Original assignee: Yancheng Electric Power Design Institute Co ltd
Current assignee: Yancheng Electric Power Design Institute Co ltd
Priority date: 2022-03-08
Filing date: 2022-03-08
Publication date: 2022-07-01

Abstract

The application discloses multiplexing system of adjustable rainwater of transformer substation. The utility model provides a main aim at provides a multiplexing system of adjustable rainwater of transformer substation, the road surface of district, vacant terrace sets up the water permeability material, the rainwater collects the catch basin to the multiplexing system of rainwater through the natural infiltration of water permeability top layer soil, later through the separation, purify, a series of processes such as infiltration, can be for station district bathroom domestic water, the afforestation vegetation irrigation provides effective source, again can be through natural infiltration supply urban ground water source, can also reduce the external emission of station district rainwater in the period of heavy rainfall, alleviate municipal drainage system's pressure. The operation cost of the transformer substation is reduced, the utilization rate of rainwater is improved, economic benefits are improved, and meanwhile hidden dangers brought to cities by waterlogging are reduced.

Description

Transformer substation adjustable rainwater multiplexing system

Technical Field

The application relates to the technical field of transformer substations, in particular to an adjustable rainwater multiplexing system of a transformer substation.

Background

Currently, in a substation, the existing water intake of the substation is normally (regardless of remote areas) for fire water and domestic water. The water taking mode comprises municipal water and deep well water taking mode. In both modes, a pipeline or equipment needs to be established to take water (the cost is high), regular maintenance is needed (the mode conflicts with an unattended mode), energy is not saved, the environment is protected, and a sustainable development concept is not applied.

Disclosure of Invention

The utility model provides a main aim at provides a multiplexing system of adjustable rainwater of transformer substation, the road surface of district, the vacant terrace sets up the water permeability material, the rainwater collects the catch basin to the multiplexing system of rainwater through the natural infiltration of water permeability top layer soil, later through the separation, purify, a series of processes such as infiltration, can be for station district bathroom domestic water, afforestation vegetation irrigation provides effective source, can again through natural infiltration supply urban underground water source, can also reduce the external emission of station district rainwater in the period of heavy to heavy rain, alleviate municipal drainage system's pressure.

In order to achieve the purpose, the application provides an adjustable rainwater multiplexing system of a transformer substation.

According to this application, the multiplexing system of adjustable rainwater of transformer substation includes: a water collection system and a water storage and recovery system; the water collecting system is connected with the water storage and recovery system through a pipeline and is used for collecting redundant rainwater and conveying the redundant rainwater to the water storage and recovery system; the water storage and recovery system is used for storing and treating rainwater and providing the rainwater for operation and maintenance in the transformer substation.

Further, the application discloses adjustable rainwater of transformer substation multiplex system's preferred structure, water storage recovery system includes the infiltration pond, the infiltration pond is used for infiltrating into groundwater system with the rainwater for replenish groundwater, and the infiltration pond can take partial groundwater to be used for the interior water consumption of transformer substation when the groundwater level is too high simultaneously, reduces the running water quantity of transformer substation.

Furthermore, the water storage and recovery system comprises a permeation pool, the permeation pool is used for permeating rainwater into an underground water system and supplementing underground water, meanwhile, the permeation pool can take part of underground water for water consumption in the transformer substation when the underground water level is too high, and the consumption of tap water in the transformer substation is reduced.

Further, water storage recovery system includes the catch basin, the catch basin is connected with the cistern, there is the purification tank cistern the cistern through pipe connection.

Further, the water collecting system comprises a gravel layer, wherein a permeable asphalt mixing layer is arranged on the gravel layer and used for collecting rainwater and preventing water accumulation on the ground; the gravel layer is arranged below the sand soil roadbed, and the foundation layer is arranged below the sand soil roadbed.

Further, the reservoir is connected with a permeation tank through a pipeline, and the permeation tank is used for supplementing water to underground water or taking water from the underground water.

Furthermore, the reservoir is connected with the water collecting tank through a plurality of high water level water passing holes, and water automatically enters the reservoir when the water level reaches the high water level; and filter screens are arranged at two ends of the high water level water passing hole.

Furthermore, a plurality of high-water-level overflow holes are formed between the water storage tank and the infiltration tank, and filter screens are arranged at two ends of each high-water-level overflow hole; when the water level reaches the high water level, water in the reservoir can enter the infiltration tank, and when the water level of the infiltration tank is higher than the reservoir, the water can flow back.

Furthermore, a middle and high water through hole is arranged between the water storage tank and the purification tank, and when the water level is higher than the middle and high water through hole, water can automatically flow into the purification tank; a middle water level trigger is arranged in the reservoir and connected with a submersible pump; after the middle water level trigger is triggered, the submersible pump is started to drain water to the purification tank.

Furthermore, a booster pump is arranged in the purification tank, and the booster pump is connected to a water supply pipeline in the transformer substation through a pipeline and used in occasions with low requirements on water quality; the low water level trigger is arranged in the purification tank and connected with a water inlet valve, the water inlet valve is connected to external tap water through a pipeline, and when the low water level trigger is triggered, the low water level trigger opens the water inlet valve to supplement water for the purification tank.

Furthermore, be provided with high water level trigger device in the infiltration pond, high water level trigger device is connected with the stealthily dirty pump, and when high water level trigger device triggered the back, will start stealthily dirty pump drainage, prevents that groundwater too much from leading to the ground subsides.

In the embodiment of the application, the utility model provides an adjustable rainwater of transformer substation is system that reuses, through sponge city theory, the road surface of district, the vacant terrace sets up the water permeability material, the rainwater collects the catch basin to the system that reuses of rainwater through the natural infiltration of water permeability top layer soil, later through the separation, purify, a series of processes such as infiltration, can be for station district bathroom domestic water, the afforestation vegetation irrigation provides effective source, again can be through natural infiltration supply urban underground water source, can also reduce the station district rainwater external discharge in the period of heavy rain by the day, alleviate municipal drainage system's pressure. The method is very suitable for the areas where the precipitation is easy to cause waterlogging due to drainage under certain standards or places.

The operation cost of the transformer substation is reduced, the utilization rate of rainwater is improved, economic benefits are improved, and meanwhile hidden dangers brought to cities by waterlogging are reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

fig. 1 is a schematic structural diagram of an adjustable rainwater reuse system of a transformer substation according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a water collecting system of an adjustable rainwater multiplexing system of a transformer substation according to an embodiment of the present application;

the labels in the figure are:

1 is a tap water inlet pipe, 2 is a low water level trigger, 3 is a purification tank, 4 is a purified water outlet pipe, 5 is a booster pump, 6 is a medium water level drain pipe, 7 is a medium water level trigger, 8 is a medium high water level water through hole, 9 is a reservoir, 10 is a high water level overflow hole, 11 is a high water level water through hole, 12 is a water collecting tank, 13 is a water inlet, 14 is a permeation tank, 15 is a high water level trigger device, and 16 is a submersible sewage pump;

101 is a permeable asphalt mixed layer, 102 is an upper crushed stone layer, 103 is a lower crushed stone layer, 104 is a sandy soil road base layer, and 105 is a ground base layer.

Detailed Description

In order to make the technical solutions of the present application better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1:

as shown in fig. 1 and 2, the application discloses a preferred structure of an adjustable rainwater reuse system of a transformer substation, which comprises a water collecting system and a water storage and recovery system; the water collecting system is connected with the water storage and recovery system through a pipeline and is used for collecting redundant rainwater and conveying the redundant rainwater to the water storage and recovery system; the water storage and recovery system is used for storing and treating rainwater and providing the rainwater for operation and maintenance in the transformer substation.

The water collecting system comprises a gravel layer, a permeable asphalt mixing layer 101 is arranged on the gravel layer, and the permeable asphalt mixing layer 101 is used for collecting rainwater and preventing water from accumulating on the ground; a sand and soil roadbed layer 104 is arranged below the gravel layer, and a foundation layer 105 is arranged below the sand and soil roadbed layer 104. The crushed stone layers comprise an upper crushed stone layer 102 and a lower crushed stone layer 103. When the utility model belongs to the green belt, only the lower layer of the gravel layer 103 is provided; the pavement hardening area comprises an upper crushed stone layer 102 and a lower crushed stone layer 103.

The water storage and recovery system comprises a penetration tank 14, wherein the penetration tank is used for penetrating rainwater into an underground water system and supplementing underground water, and meanwhile, when the underground water level is too high, part of underground water can be taken for water consumption in a transformer substation, so that the consumption of tap water in the transformer substation is reduced. The water storage and recovery system comprises a penetration tank 14, wherein the penetration tank is used for penetrating rainwater into an underground water system and supplementing underground water, and meanwhile, when the underground water level is too high, the penetration tank can take part of the underground water for water consumption in a transformer substation, so that the consumption of tap water in the transformer substation is reduced.

The water storage and recovery system comprises a water collecting tank 12, wherein the water collecting tank 12 is connected with a water storage tank 9, and the water storage tank is connected with a purification tank 3 through a pipeline. The reservoir 9 is connected with a permeation tank 14 through a pipeline, and the permeation tank 14 is used for supplementing water to underground water or taking water from the underground water. The reservoir 9 is connected with the collecting tank 12 through a plurality of high water level water through holes 11, and water automatically enters the reservoir 9 when the water level reaches the high water level; and filter screens are arranged at two ends of the high water level water passing hole 11. A plurality of high water level overflow holes 10 are arranged between the reservoir 9 and the infiltration tank 14, and filter screens are arranged at two ends of each high water level overflow hole 10; when the water in the reservoir 9 enters the infiltration tank 14 after the water level reaches the high water level, and the water flows back when the water level of the infiltration tank 14 is higher than the reservoir 9.

A middle and high water through hole 8 is arranged between the reservoir 9 and the purification tank 3, and when the water level is higher than the middle and high water through hole 8, water can automatically flow into the purification tank 3; a middle water level trigger 7 is arranged in the reservoir 9, and the middle water level trigger 7 is connected with a submersible pump; after the middle water level trigger 7 is triggered, the submersible pump is started to drain water to the purification tank 3. The purification tank 3 is internally provided with a booster pump 5, and the booster pump 5 is connected to a water supply pipeline inside the transformer substation through a pipeline and used in occasions with low requirements on water quality; the purification device is characterized in that a low water level trigger 2 is arranged in the purification tank 3, the low water level trigger 2 is connected with a water inlet valve, the water inlet valve is connected to external tap water through a pipeline, and when the low water level trigger 2 is triggered, the low water level trigger 2 opens the water inlet valve to supplement water for the purification tank 3. The infiltration tank 14 is internally provided with a high water level trigger device 15, the high water level trigger device 15 is connected with a submersible sewage pump 16, and when the high water level trigger device 15 is triggered, the submersible sewage pump 16 is started to drain water, so that the foundation sinking caused by excessive underground water is prevented.

During specific use, the water storage and recovery system is arranged in a non-weighing area in the transformer substation. The water collection system is arranged underground in the whole substation.

In the specific operation process, when rainwater falls, water enters the upper gravel layer 102 and the lower gravel layer 103 through the permeable asphalt mixing layer 101, part of water stays in the upper gravel layer 102 and the lower gravel layer 103, and the part of water is drained to the water collecting tank 12 through a pipeline; the water will settle in the sump 12. When the water level reaches the high water level water through hole 11, the water flows into the reservoir 9, and the water in the reservoir 9 enters the purification tank 3 through the high water level water through hole 8. The purifying tank 3 purifies water and supplies the purified water to a toilet and flower watering water in the transformer substation.

When the water level in the purifying tank 3 is too low, the low water level trigger 2 can be triggered to open the water inlet valve, tap water is put into the purifying tank, and the problems of insufficient water for watering flowers and insufficient water for a toilet are solved. When the water level of the reservoir is too high, water enters the infiltration tank 14 through the high water level overflow hole 10, and when the water level of the infiltration tank is too high, the submersible sewage pump is started to discharge the redundant water.

The infiltration tank 14 will infiltrate water into the ground, raising the ground water level and protecting the surrounding address environment. When the groundwater level is too high, the groundwater can be fed back to the reservoir 9 to replenish the reservoir 9. When the water level of the water storage tank 9 is lower than the middle-high water through hole 8, the submersible pump is started to replenish water to the clean water tank.

Like this, through sponge city theory, the road surface of district, vacant terrace set up the water permeability material, and the rainwater collects the catch basin to the multiplexing system of rainwater through water permeability top layer soil natural infiltration, later through a series of processes such as separation, purification, infiltration, can provide effective source for station district bathroom domestic water, afforestation vegetation irrigation, can supply urban underground water source through natural infiltration again, can also reduce the station district rainwater external emission in the period of arriving heavy rain, alleviate municipal drainage system's pressure. The method is very suitable for the areas where the precipitation is easy to cause waterlogging due to drainage under certain standards or places.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims

1. The utility model provides an adjustable rainwater of transformer substation is system for multiplexing which characterized in that: comprises a water collecting system and a water storage and recovery system; the water collecting system is connected with the water storage and recovery system through a pipeline and is used for collecting redundant rainwater and conveying the redundant rainwater to the water storage and recovery system; the water storage and recovery system is used for storing and treating rainwater and providing the rainwater for operation and maintenance in the transformer substation.

2. The substation adjustable rainwater reuse system according to claim 1, wherein the water storage and recovery system comprises a infiltration tank (14) for infiltrating rainwater into an underground water system for replenishing groundwater, and the infiltration tank can take part of groundwater for water consumption in the substation when the groundwater level is too high, so as to reduce the consumption of tap water in the substation.

3. A substation adjustable rainwater reuse system according to claim 2, characterized in that the water storage and recovery system comprises a water collection tank (12), and that the water collection tank (12) is connected with a water reservoir (9) which is connected with a purification tank (3) by means of a pipe.

4. The substation adjustable rainwater reuse system according to claim 3, wherein the water collection system comprises a gravel layer, a permeable asphalt mixing layer (101) is arranged on the gravel layer, and the permeable asphalt mixing layer (101) is used for collecting rainwater and preventing water accumulation on the ground; the gravel layer is provided with a sand and soil roadbed layer (104) below, and the sand and soil roadbed layer (104) is provided with a foundation layer (105) below.

5. A substation adjustable rainwater reuse system according to claim 4, characterized in that said impounding reservoir (9) is connected by piping with a infiltration tank (14), said infiltration tank (14) being used for replenishing or extracting groundwater from water.

6. The substation adjustable rainwater reuse system according to claim 5, characterized in that the impounding reservoir (9) is connected with the water collecting tank (12) through a plurality of high water level water through holes (11), and when the water level reaches a high water level, water automatically enters the impounding reservoir (9); and filter screens are arranged at two ends of the high water level water passing hole (11).

7. The substation adjustable rainwater reuse system according to claim 6, characterized in that a plurality of high water level overflow holes (10) are provided between the reservoir (9) and the infiltration tank (14), and both ends of the high water level overflow holes (10) are provided with filter screens; when the water in the reservoir (9) enters the infiltration tank (14) after the water level reaches the high water level, and the water flows back when the water level of the infiltration tank (14) is higher than the reservoir (9).

8. The substation adjustable rainwater reuse system according to claim 7, characterized in that a middle-high water through hole (8) is provided between the water reservoir (9) and the purification tank (3), and when the water level is higher than the middle-high water through hole (8), water automatically flows into the purification tank (3); a middle water level trigger (7) is arranged in the reservoir (9), and the middle water level trigger (7) is connected with a submersible pump; after the middle water level trigger (7) is triggered, the submersible pump is started to drain water to the purification tank (3).

9. The adjustable rainwater reuse system for transformer substation according to claim 8, characterized in that a booster pump (5) is arranged in the purification tank (3), and the booster pump (5) is connected to a water supply pipeline inside the transformer substation through a pipeline for use in an occasion with low requirement on water quality; the water purification device is characterized in that a low water level trigger (2) is arranged in the purification tank (3), the low water level trigger (2) is connected with a water inlet valve, the water inlet valve is connected to external tap water through a pipeline, and when the low water level trigger (2) is triggered, the low water level trigger (2) opens the water inlet valve to supplement water for the purification tank (3).

10. The transformer substation adjustable rainwater reuse system according to claim 9, characterized in that a high water level trigger device (15) is disposed in the infiltration tank (14), the high water level trigger device (15) is connected with a submersible sewage pump (16), and when the high water level trigger device (15) is triggered, the submersible sewage pump (16) is started to drain water, so as to prevent foundation subsidence caused by excessive groundwater.