CN219779565U - Intelligent transformer substation - Google Patents

Abstract

The utility model discloses an intelligent transformer substation, which comprises a supporting component and an exhaust component, wherein the supporting component comprises a transformer substation, a stone pad arranged at the bottom of the transformer substation and an inclined top arranged at the top of the transformer substation, the exhaust component comprises an air inlet groove symmetrically arranged at one side of the transformer substation and an inclined plate arranged in the air inlet groove.

Description

Intelligent transformer substation

Technical Field

The utility model relates to the technical field of transformer substations, in particular to an intelligent transformer substation.

Background

The intelligent transformer substation mainly comprises intelligent high-voltage equipment and a transformer substation unified information platform, reliable, economical, integrated, low-carbon and environment-friendly equipment and design are adopted, real-time online analysis and control decision-making of a power grid can be supported, further, the transformer substation of the whole power grid operation reliability and economical efficiency is improved, basic functions such as information acquisition, measurement, control, protection, metering and detection are automatically completed, meanwhile, the transformer substation supporting advanced functions such as real-time automatic control of the power grid, intelligent regulation, online analysis decision-making and collaborative interaction are provided, a large amount of heat is generated during operation of electric equipment installed in the transformer substation, normal use of the transformer substation equipment can be influenced when heat dissipation and ventilation capability are poor, damage to the equipment can be even caused, and the intelligent transformer substation can bring convenience to workers.

Disclosure of Invention

The utility model aims to provide an intelligent transformer substation for solving the problems in the background technology.

In order to achieve the above purpose, the utility model provides the following technical scheme that the intelligent transformer substation comprises a supporting component and an exhaust component, wherein the supporting component comprises a transformer substation, a stone pad arranged at the bottom of the transformer substation and an inclined top arranged at the top of the transformer substation, and the exhaust component comprises an air inlet groove symmetrically arranged at one side of the transformer substation, an inclined plate arranged in the air inlet groove, a ventilating fan arranged in the air inlet groove, a lower air pipe arranged at one end of the air inlet groove and an upper air pipe arranged at one end of the other air inlet groove.

Preferably, a station door is installed on the front surface of the transformer substation, a door handle is installed on the front surface of the station door, and a plurality of supporting seats are installed in the transformer substation.

Preferably, a plurality of guiding gutter have been seted up at the top of swash plate, the internally mounted of air inlet groove has first filter screen, and first filter screen is located between swash plate and the ventilation fan.

Preferably, a plurality of lower air outlets are formed in the top of one side of the lower air pipe, the lower air outlets are located between the supporting seats, the baffle is installed at the first lower air outlet, and the filter screen is installed in the plurality of lower air outlets.

Preferably, a plurality of upper air outlets are formed in the bottom of one side of the upper air pipe, an air outlet groove is formed in the other side of the transformer substation, and a second filter screen is mounted in the air outlet groove.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

according to the utility model, the air pipes are arranged, when the temperature of the internal environment of the transformer substation is higher, the ventilating fan is started to perform air supply work, air enters the upper air pipe and the lower air pipe from the air inlet groove, the upper air pipe sends out the air from the upper air outlet formed in the bottom of one side to supply air to the internal environment, the air flow is accelerated, the lower air pipe sends out the air from the lower air outlet formed in the top of one side to the outside, the lower air outlet is positioned between the supporting seats, the discharged air can contact equipment arranged at the top of the supporting seats for the first time, the heat accumulation part at the bottom of the equipment is cooled, the equipment is prevented from being damaged due to long-time heat accumulation, and the equipment damage can influence the subsequent power supply and power transmission.

Drawings

Fig. 1 is a schematic perspective view of a transformer substation according to the present utility model.

Fig. 2 is a schematic cross-sectional view of a substation according to the present utility model.

In the figure: 100. a support assembly; 101. a transformer station; 102. a stone pad; 103. a station door; 104. a support base;

200. an exhaust assembly; 201. an air inlet groove; 202. a sloping plate; 203. a diversion trench; 204. a first filter screen; 205. a ventilation fan; 206. a lower air pipe; 207. a lower air outlet; 208. an upper air pipe; 209. an upper air outlet; 210. an air outlet groove; 211. and a second filter screen.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, an intelligent substation;

the supporting component 100 comprises a transformer substation 101, the intelligent transformer substation 101 can intelligently send out the electric quantity meeting the requirement of increasing load quantity when the low-voltage load quantity is increased, when the low-voltage load quantity is reduced, the intelligent transformer substation 101 can intelligently send out the electric quantity to be reduced along with the electric quantity, a stone pad 102 installed at the bottom of the transformer substation 101 is installed, the stone pad 102 installed at the bottom of the transformer substation 101 can lift the bottom of the transformer substation 101, water accumulation is prevented from entering the inside of the transformer substation 101 in rainy days, influences on internal equipment of the transformer substation 101, a station door 103 is installed on the front of the transformer substation 101, an inclined roof is installed on the top of the transformer substation 101, a door handle is installed on the front of the station door 103, the inclined roof can provide support for the inclined roof installed on the top, when rainy days, the inclined roof can guide falling rain, the situation that the top pressure is overlarge due to the accumulated rain on the top can be prevented, the door handle installed on the front of the station door 103 can open the station door 103, a plurality of supporting seats 104 are installed inside the transformer substation 101, installation space and support for the plurality of supporting seats 104 of the electric equipment can be provided, after the electric equipment is installed on the front of the supporting seats by workers, the electric equipment is prevented from being influenced by the ground, and the ground, the electric equipment is prevented from being influenced by the ground.

Referring to fig. 1 and 2, an intelligent substation;

the exhaust assembly 200 comprises an air inlet groove 201 symmetrically arranged at one side of the transformer substation 101, the transformer substation 101 can provide an opening space for the air inlet groove 201 symmetrically arranged at one side, the air inlet groove 201 can provide a channel for air to enter the transformer substation 101, an inclined plate 202 is arranged in the air inlet groove 201, the air inlet groove 201 can provide an installation space and support for the inclined plate 202 which is internally arranged, when the outside rains, the inclined plate 202 is inclined outwards, rainwater can be prevented from entering the transformer substation 101 from the air inlet groove 201 when the rainwater drops, a plurality of diversion trenches 203 are arranged at the top of the inclined plate 202, the inclined plate 202 can provide an opening space for the diversion trenches 203 arranged at the top, after the rainwater drops to the inclined plate 202, the diversion trenches 203 can guide the rainwater and send the rainwater outwards, a first filter screen 204 is arranged in the air inlet groove 201, the first filter screen 204 is arranged between the inclined plate 202 and a ventilating fan 205, the air inlet groove 201 can provide installation space and support for the first filter screen 204 installed inside, when air enters from the air inlet groove 201 and passes through the first filter screen 204, the first filter screen 204 can filter impurities and dust carried in the air, prevent the dust from being sent into the inside of the transformer substation 101 and polluting the internal environment, the air inlet groove 201 is installed in the air inlet groove 201, the air inlet groove 201 can provide installation space and support for the air inlet fan 205, when the inside needs to be radiated, the air inlet groove 201 rotates to accelerate the air to flow into the inside of the transformer substation 101 by starting the air inlet fan 205, the air inlet groove 205 is installed in the lower air pipe 206 at one end of the air inlet groove 201, the air inlet groove 201 can provide support for the lower air pipe 206 installed at one end, when the air enters into the inside of the lower air pipe 206 after passing through the air inlet groove 201, a plurality of lower air outlets 207 are formed in the top of one side of the lower air pipe 206, the lower air outlets 207 are positioned between the support seats 104, the baffle is arranged at the first lower air outlet 207, the filter screen is arranged in the plurality of lower air outlets 207, the lower air pipe 206 can provide an opening space for the plurality of lower air outlets 207 which are arranged at the top of one side, when air enters the lower air pipe 206 through the air inlet groove 201, the air is blown out from the plurality of lower air outlets 207 which are arranged at the top of one side of the lower air pipe 206, because the lower air outlets 207 are positioned at the inner side of the supporting seat 104, after the air is blown out from the lower air outlets 207, the air can contact the electrical equipment which is arranged at the top of the supporting seat 104 and cool the bottom of the electrical equipment, the air is arranged on the upper air pipe 208 which is arranged at one end of the other air inlet groove 201, the plurality of upper air outlets 209 are arranged at the bottom of one side of the upper air pipe 208, the other air inlet groove 201 can provide support for the upper air pipe 208 which is arranged at one end, after the wind passes through the inlet air tank 201 and enters the upper air pipe 208, a plurality of upper air outlets 209 formed in the bottom of one side of the upper air pipe 208 are blown out outwards, the wind blown out from the top can cool the room, the other side of the transformer substation 101 is provided with an air outlet tank 210, a second filter screen 211 is installed in the air outlet tank 210, the transformer substation 101 can provide a space for the air outlet tank 210 formed in the other side, when the wind enters from the inlet air tank 201 and is blown out outwards through a pipeline, the indoor air flow can be accelerated, the air outlet tank 210 can provide an outwards flowing channel for the air, and the second filter screen 211 installed in the air outlet tank 210 can filter the entering and exhausting wind.

Working principle: after the electric equipment in the transformer substation 101 works for a long time, heat is generated and the indoor temperature can be raised, the ventilation fan 205 installed in the air inlet groove 201 is started, the ventilation fan 205 rotates to drive air to enter the upper air pipe 208 and the lower air pipe 206 from the air inlet groove 201, then the upper air outlet 209 and the lower air outlet 207 which are formed in the top and the bottom of one side of the upper air pipe 208 and the lower air pipe 206 are blown outwards, the upper air outlet 209 can cool the indoor environment and accelerate the flow of the indoor air after blowing outwards, the lower air outlet 207 is formed in the inner side of the supporting seat 104, and after blowing outwards from the lower air outlet 207, the electric equipment installed at the top of the supporting seat 104 can be cooled, so that the electric equipment is prevented from being high in temperature and faults.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (5)

1. An intelligent substation, comprising:

the support assembly (100) comprises a transformer substation (101) and a stone pad (102) arranged at the bottom of the transformer substation (101);

the exhaust assembly (200) comprises an air inlet groove (201) symmetrically arranged on one side of the transformer substation (101), a sloping plate (202) arranged inside the air inlet groove (201), a ventilating fan (205) arranged inside the air inlet groove (201), a lower air pipe (206) arranged at one end of the air inlet groove (201) and an upper air pipe (208) arranged at one end of the other air inlet groove (201).

2. An intelligent substation according to claim 1, characterized in that the front side of the substation (101) is provided with a station door (103), the top of the substation (101) is provided with an inclined roof, the front side of the station door (103) is provided with a door handle, and the inside of the substation (101) is provided with a plurality of supporting seats (104).

3. The intelligent substation according to claim 1, wherein a plurality of diversion trenches (203) are formed in the top of the inclined plate (202), a first filter screen (204) is installed in the air inlet trench (201), and the first filter screen (204) is located between the inclined plate (202) and the ventilation fan (205).

4. The intelligent substation according to claim 1, wherein a plurality of lower air outlets (207) are formed in the top of one side of the lower air pipe (206), the lower air outlets (207) are located between the supporting seats (104), a baffle is mounted at the first lower air outlet (207), and a filter screen is mounted in the plurality of lower air outlets (207).

5. An intelligent substation according to claim 1, characterized in that a plurality of upper air outlets (209) are formed in the bottom of one side of the upper air pipe (208), an air outlet groove (210) is formed in the other side of the substation (101), and a second filter screen (211) is installed in the air outlet groove (210).