AU2021105272A4

AU2021105272A4 - Landscape integrated box-type substation

Info

Publication number: AU2021105272A4
Application number: AU2021105272A
Authority: AU
Inventors: Jing He; Fei Huang; Maolin LI; Yan Wang; Xiaoning XUE; Wenchao YIN; Yue Zhang; Xin Zhao
Original assignee: China Architecture Design and Research Group Co Ltd
Current assignee: China Architecture Design and Research Group Co Ltd
Priority date: 2021-04-22
Filing date: 2021-06-29
Publication date: 2021-10-14
Anticipated expiration: 2029-06-29
Also published as: WO2022222265A1; CN215119829U

Abstract

The utility model relates to a landscape integrated box-type substation, comprising a substation 5 box body; the top of the box body is provided with a vegetation groove, and the bottom of the vegetation groove is paved with a waterproof isolation layer; four corners of the box body are provided with rainwater guide pipes; and the rainwater guide pipes are communicated with the vegetation groove. The utility model is simple in structure, and gray infrastructure is greened and integrated with the surrounding environment, so that the substation is more natural in appearance. 10 Meanwhile, heat dissipated by the substation is collected, natural precipitation is utilized for plant growth, and a local ecosphere effect is established. 1/1 Drawings 1 2 6 3 7 8 5 Fig.1

Description

1/1

Drawings 1

2

6 3

7

8

Fig.1

Description

Landscape Integrated Box-type Substation

Technical Field The invention belongs to the technical field of power transformation, and particularly relates to a

landscape integrated box-type substation.

Background Art A box-type substation in a city often exists with a relatively simple or rough image, which not

only splits the city environment, but also influences visual sanitation. It lowers the taste of the city,

and affects theimage of the city appearance.

Summary of the Invention In order to solve the problems, the utility model provides a landscape integrated box-type

substation. The utility model is a box-type substation arranged in scenes of sidewalks, parks,

campuses and so on. It is integrated with urban landscapes, which not only has the basic functions

of the substation, but also has the functions of beautifying urban landscapes and decorating urban

environment.

The substation has the advantages that the effect is formed, the characteristics of heat dissipation

of the substation are reasonably used, and natural precipitation is also utilized. Meanwhile, the

substation has the significance of ecosphere education and integrates attractiveness and functions.

Compared with the prior art, the utility model is directed at the attractiveness of the box-type

substation, and the gray infrastructure is greened and integrated with the surrounding environment,

so that the substation is more natural in appearance. Meanwhile, heat dissipated by the substation

is collected, natural precipitation is utilized for plant growth, and a local ecosphere effect is

established.

The utility model shapes its naturalness in a natural form; and the substation can "contain" nature

as much as possible, and be integrated with urban landscape environment. Meanwhile, heat

dissipated by the substation and natural precipitation are actively collected, and a local small

ecosphere is established. Relying on green plants, it is coordinated with urban landscapes, and also

provides good living environment for urban residents.

The purpose of the utility model is achieved as follows.

A landscape integrated box-type substation comprises a substation box body;

the top of the box body is provided with a vegetation groove, and the bottom of the vegetation groove is paved with a waterproof isolation layer; four corners of the box body are provided with rainwater guide pipes; and the rainwater guide pipes are communicated with the vegetation groove. According to the utility model, by designing the top vegetation groove and the rainwater guide pipe, rainwater accumulation and overflow are realized. The vegetation at the top can have water storage when there is less rainfall, and the vegetation can absorb heat from the substation, which promotes vegetation growth and facilitates cooling of the substation. When the rainfall is large, the waterproof isolation layer prevents rainwater from entering the box body and flows into the rainwater guide pipe from the vegetation groove to overflow the water. According to a preferred embodiment of the utility model, a sidewall of the bottom of the vegetation tank is provided with a water permeable hole, a water flow conduit communicated with the water permeable hole is fixed at the position of the water permeable hole, and both ends of the water flow conduit are communicated with the rainwater guide pipe. The water in the vegetation groove can be uniformly and rapidly discharged through the water flow conduit. According to a preferred embodiment of the utility model, each water flow conduit is tangentially and obliquely arranged from one end to the other end; or the water flow conduit is of an inverted V-shaped structure inclined from the middle to the both ends. Meanwhile, due to the inclined arrangement, rainwater can conveniently and quickly flow into the rainwater guide pipe, which prevents water accumulation in the water flow conduit from generating peculiar smell. According to a preferred embodiment of the utility model, the water flow conduit is located above a heat dissipation window, the water flow conduit is of a slotted structure, with an opening formed upwards and a rain shield extending outwards provided. The slotted structure is convenient for blocking water overflowing from the sidewall of the vegetation groove when rainwater is too large, and meanwhile, and it is more convenient for the accumulated water to volatilize; and the rain shield extending outwards can further prevent the heat dissipation window from being rained. According to a preferred embodiment of the utility model, a filter material is installed inside the rainwater guide pipe. By arranging the filter material, rainwater can be filtered and discharged. According to a preferred embodiment of the utility model, a sidewall of the rainwater guide pipe is provided with an openable/closable door, and a sealing gasket is provided between the edge of the door and the wall of the rainwater guide pipe. The maintenance of the filter material can be facilitated by the openable/closable door, and the sealing gasket can ensure the sealing and waterproofness of the pipeline. According to a preferred embodiment of the utility model, the filter material is a filter screen or a cylindrical activated carbon filter element perpendicular to the rainwater guide pipe. According to a preferred embodiment of the utility model, an inner wall of the rainwater guide pipe is clamped with a plastic ring, and the filter screen is installed on the plastic ring. The plastic ring clamped on the inner wall can be provided with a plurality of layers of filter screens to ensure the filtering effect. According to a preferred embodiment of the utility model, at least one plant box is further provided on a sidewall of the box body and below the water flow conduit. A plant box is arranged on the sidewall of the box body, and the vegetation covers the periphery of the whole box body, which is attractive. Meanwhile, the excessive heat is greatly absorbed, and cooling is facilitated. According to a preferred embodiment of the utility model, the plant box and the vegetation groove are filled with sponge. The sponge is beneficial to water storage and guarantees the water requirement of plants. The utility model has at least the following beneficial effects. The utility model is a box-type substation arranged in scenes of sidewalks, parks, campuses and the like. It is integrated with urban landscapes, which not only has the basic functions of the substation, but also has the functions of beautifying urban landscapes and decorating urban environment. The substation has the advantages that the effect is formed, the characteristics of heat dissipation of the substation are reasonably used, and natural precipitation is also utilized. Meanwhile, the substation has the significance of ecosphere education and integrates attractiveness and functions. Compared with the prior art, the utility model is directed at the attractiveness of the box-type substation, and the gray infrastructure is greened and integrated with the surrounding environment, so that the substation is more natural in appearance. Meanwhile, heat dissipated by the substation is collected, natural precipitation is utilized for plant growth, and a local ecosphere effect is established. The utility model shapes its naturalness in a natural form; and the substation can "contain" nature as much as possible, and be integrated with urban landscape environment. Meanwhile, heat dissipated by the substation and natural precipitation are actively collected, and a local small ecosphere is established. Relying on green plants, it is coordinated with urban landscapes, and also provides good living environment for urban residents.

Brief Description of the Drawings

Fig. 1 is a structurally schematic view of the utility model; In the drawings, 1-vegetation groove; 2-baffle; 3-rainwater guide pipe; 4-plant box; 5-cabinet door; 6-water permeable hole; 7-water flow conduit; and 8-heat dissipation window.

Detailed Description of the Invention The utility model will be further described with reference to the drawings. Embodiment 1 Fig. 1 is a schematic view of the utility model; a landscape integrated box-type substation comprises a substation box body; the top of the box body is provided with a vegetation groove 1, and the bottom of the vegetation groove 1 is paved with a waterproof isolation layer; the four corners of the box body are provided with rainwater guide pipes 3; and the rainwater guide pipe 3 is communicated with the vegetation groove 1. Four rainwater guide pipes 3 are arranged at four corners of the box body, the top of the box body 3 is flush with the top of the vegetation groove 1, and the bottom of the box body is connected with the ground. On the one hand, it acts for overflowing and on the other hand, it assists for supporting. Specifically, a sidewall of the bottom of the vegetation groove 1 is provided with a water permeable hole 6, a water flow conduit 7 communicated with the water permeable hole is fixed at the position of the water permeable hole 6, and both ends of the water flow conduit 7 are communicated with the rainwater guide pipe 3. A plurality of water permeable holes 6 are arranged in a row or a plurality of rows, facilitating drainage of accumulated water. The diameter of the rainwater guide pipe 3 is larger than that of the water flow conduit 7, and waterproof and corrosion-resistant materials are selected, for examples, PVC pipes, PTEE pipes, etc. The water in the vegetation groove can be uniformly and rapidly discharged through the water flow conduit. The both ends of the four water flow conduits 7 on four sidewalls are communicated with the guide pipes 3, so that rainwater can be discharged quickly. In particular, rainwater can conveniently and quickly flow into the rainwater guide pipe 3, which prevents water accumulation in the water flow conduit 7 from generating peculiar smell. Each water flow conduit is tangentially and obliquely arranged from one end to the other end; or the water flow conduit is of an inverted V-shaped structure inclined from the middle to the both ends. Specifically, in order to prevent water overflowing from the sidewall of the vegetation groove 1 from entering the heat dissipation window 8, the water flow conduit 7 is located above the heat dissipation window 8, the water flow conduit 7 is of a slotted structure, and meanwhile, it is more convenient for the accumulated water to volatilize; and an opening is formed upwards and a rain shield extending outwards is provided. The rain shield extending outwards can further prevent the heat dissipation window from being rained. Specifically, a filter material is installed inside the rainwater guide pipe 3. By arranging the filter material, rainwater can be filtered and discharged. Preferably, the rainwater guide pipe 3 can be connected into a recycling pipeline or a water storage tank, so that subsequent irrigation and cleansing use are facilitated; and a disinfection agent is arranged in the recycling pipeline or the water storage tank for disinfection treatment. Meanwhile, a disinfection box can also be placed in the rainwater guide pipe. In particular, an openable/closable door (not shown in the figure) is arranged on the sidewall of the rainwater guide pipe 3, which is convenient for maintenance of the filter material, and a sealing gasket is provided between the edge of the door and the wall of the rainwater guide pipe, which can ensure the sealing and waterproofness of the pipeline. Specifically, the filter material is a filter screen or a cylindrical activated carbon filter element perpendicular to the rainwater guide pipe. Specifically, an inner wall of the rainwater guide pipe is clamped with a plastic ring, and the filter screen is installed on the plastic ring. The plastic ring clamped on the inner wall can be provided with a plurality of layers of filter screens to ensure the filtering effect. The plastic ring is elastic, can be easily clamped on the guide pipe wall, and can be taken out conveniently; and the filter screen is directly placed on the plastic ring. Specifically, at least one plant box is further provided on a sidewall of the box body and below the water flow conduit. A plant box is arranged on the sidewall of the box body, and the vegetation covers the periphery of the whole box body, which is attractive. Meanwhile, the excessive heat is greatly absorbed, and cooling is facilitated. The shape and size of the vegetation boxes can be different. For example, a plurality of small vegetation boxes are arranged on a cabinet door 5, and large vegetation boxes are arranged on the sidewall of the non-cabinet door. Different vegetation can be planted in the plant box. Specifically, the plant box and the vegetation groove are filled with sponge. The sponge is beneficial to water storage and guarantees the water requirement of plants. Meanwhile, compared with soil, the sponge is cleaner, and will not easily cause the loss of mud and water which affects the subsequent filtration and recycling of the water, and the nutrient solution can be added into the sponge dropwise. Only preferred embodiments of the present utility model are described in the above mentioned, but the scope of protection of the utility model is not limited thereto. It should be understood by those skilled in the art that modifications and improvements may be made to these embodiments without departing from the principles and spirit of the present utility model, the scope of which is defined by the claims and their equivalents, and these modifications and improvements should also be within the scope of protection of the present utility model.

Claims

1. A landscape integrated box-type substation, comprising a substation box body; wherein the top of the box body is provided with a vegetation groove, and the bottom of the vegetation groove is paved with a waterproof isolation layer; four corners of the box body are provided with rainwater guide pipes; and the rainwater guide pipes are communicated with the vegetation groove.

2. The landscape integrated box-type substation according to claim 1, wherein a sidewall of the bottom of the vegetation groove is provided with a water permeable hole, a water flow conduit communicated with the water permeable hole is fixed at the position of the water permeable hole, and both ends of the water flow conduit are communicated with the rainwater guide pipe.

3. The landscape integrated box-type substation according to claim 2, wherein each of the water flow conduits is tangentially and obliquely arranged from one end to the other end; or the water flow conduit is of an inverted V-shaped structure inclined from the middle to the both ends.

4. The landscape integrated box-type substation according to claim 3, wherein the water flow conduit is located above a heat dissipation window, the water flow conduit is of a slotted structure, with an opening formed upwards and a rain shield extending outwards provided.

5. The landscape integrated box-type substation according to any one of claims 1 to 4, wherein a filter material is installed inside the rainwater guide pipe.

6. The landscape integrated box-type substation according to claim 5, wherein a sidewall of the rainwater guide pipe is provided with an openable/closable door, and a sealing gasket is provided between the edge of the door and the wall of the rainwater guide pipe.

7. The landscape integrated box-type substation according to claim 5, wherein the filter material is a filter screen or a cylindrical activated carbon filter element perpendicular to the rainwater guide pipe.

8. The landscape integrated box-type substation according to claim 7, wherein an inner wall of the rainwater guide pipe is clamped with a plastic ring, and the filter screen is installed on the plastic ring.

9. The landscape integrated box-type substation according to claim 8, wherein at least one plant box is further provided on a sidewall of the box body and below the water flow conduit.

10. The landscape integrated box-type substation according to claim 5, wherein both the vegetation box and the vegetation groove are filled with sponge.