CN221467221U - Automatic radiating distribution management device - Google Patents

Automatic radiating distribution management device Download PDF

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Publication number
CN221467221U
CN221467221U CN202323218847.0U CN202323218847U CN221467221U CN 221467221 U CN221467221 U CN 221467221U CN 202323218847 U CN202323218847 U CN 202323218847U CN 221467221 U CN221467221 U CN 221467221U
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CN
China
Prior art keywords
cabinet body
management device
power distribution
distribution management
cabinet
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CN202323218847.0U
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Chinese (zh)
Inventor
黄亮
杨超南
张超
邓小锋
胡明
贾树宇
黄智�
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Third Construction Shenzhen Co ltd Of China Construction Fifth Engineering Bureau
China Construction Fifth Bureau Third Construction Co Ltd
Original Assignee
Third Construction Shenzhen Co ltd Of China Construction Fifth Engineering Bureau
China Construction Fifth Bureau Third Construction Co Ltd
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Priority to CN202323218847.0U priority Critical patent/CN221467221U/en
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Publication of CN221467221U publication Critical patent/CN221467221U/en
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Abstract

The utility model discloses an automatic heat dissipation power distribution management device which comprises a cabinet body and a controller, wherein a base is arranged at the lower end of the cabinet body, four supporting legs are fixed at the bottom of the base and positioned under a stand column, a fan and a storage battery are arranged outside the base in the extending direction of the stand column, a filter screen is arranged at the bottom of the cabinet body and positioned right above the fan, an air outlet is arranged at the upper end of the cabinet body, a temperature sensor is arranged in the cabinet body, and the controller controls the fan to start and stop through the temperature sensor. Compared with the prior art, the temperature sensor is used for monitoring the temperature in the cabinet body, when the temperature reaches the preset value, the controller starts the fan, air flows into the cabinet body from the outside of the base through the filter screen and then flows out from the air outlet from bottom to top, the arrangement speeds up the ventilation of the air inside and outside the cabinet body, the heat in the cabinet body can be quickly discharged, the temperature in the cabinet body is reduced, and the service life of internal power distribution equipment is prolonged.

Description

Automatic radiating distribution management device
Technical Field
The utility model relates to the technical field of power distribution cabinets, in particular to an automatic heat dissipation power distribution management device.
Background
In order to solve the energy demand problems of central heating, cooling, domestic hot water and the like of an area, the construction of energy stations is planned in a plurality of newly-built urban areas, development areas and large building groups, the regional energy supply is more and more favored because of reasonable and effective utilization of energy, and when the energy management is controlled, a power distribution cabinet is required to be used for management control, and a large amount of heat is generated inside the power distribution cabinet when the power distribution cabinet is used. Along with the development trend of intellectualization and digitalization, the power distribution cabinet will develop towards the directions of data visualization, interconnection and intercommunication, remote operation, AI prediction, feature recognition, fault analysis and the like, so that the reliability, safety, intellectualization level and the like of the power distribution system are greatly improved. At the same time, this means that more and more devices are provided in the power distribution cabinet, and more heat is collected, which affects the service life of the internal components.
Disclosure of utility model
The utility model provides an automatic heat dissipation power distribution management device which is used for solving the problem that excessive heat is accumulated due to the fact that devices in a power distribution cabinet are more and more.
The utility model provides an automatic heat dissipation power distribution management device which comprises a cabinet body and a controller, wherein a bracket is arranged in the cabinet body, four stand columns of the bracket are respectively arranged at four corners of the cabinet body, power distribution equipment is arranged on the bracket, a base is arranged at the lower end of the cabinet body, four supporting legs are fixed at the bottom of the base and are positioned under the stand columns, a fan and a storage battery are arranged outside the extending direction of the stand columns in the base, a filter screen is arranged at the bottom of the cabinet body and is positioned above the fan, an air outlet is arranged at the upper end of the cabinet body, a temperature sensor is arranged in the cabinet body, and the controller controls the fan to start and stop through the temperature sensor.
Preferably, the number of the fans is four, the four fans are divided into two groups, and the storage battery is arranged between the two groups of fans.
Preferably, the controller is arranged between the two groups of fans.
Preferably, a cabinet door is arranged on one side of the cabinet body, and the air outlet is arranged on three side walls of the cabinet body except the cabinet door.
Preferably, a rain shed is arranged at the upper end of the cabinet body.
Preferably, a photovoltaic plate is arranged at the upper end of the awning, and the photovoltaic plate is electrically connected with the storage battery through a charging module.
Preferably, the canopy is fixed on the cabinet body through a supporting rod.
Preferably, the lower end of the supporting leg is fixed with a mounting plate.
Preferably, the mounting plate is connected with a fixing piece in a threaded manner, and the lower end of the fixing piece stretches into the ground.
Compared with the prior art, the temperature sensor is used for monitoring the temperature in the cabinet body, when the temperature reaches the preset value, the controller starts the fan, air flows into the cabinet body from the outside of the base through the filter screen and then flows out from the air outlet from bottom to top, the arrangement speeds up the ventilation of the air inside and outside the cabinet body, the heat in the cabinet body can be quickly discharged, the temperature in the cabinet body is reduced, and the service life of internal power distribution equipment is prolonged. The setting of temperature sensor does benefit to the reduction energy consumption, and the setting of filter screen can effectively prevent the dust to get into the cabinet body to prolong distribution equipment's life.
Drawings
In order to more clearly illustrate the utility model or the technical solutions of the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of another view of the present utility model;
FIG. 3 is a front view of the present utility model;
FIG. 4 is a schematic cross-sectional view of the present utility model;
Fig. 5 is a schematic cross-sectional view of the present utility model.
Reference numerals:
1. The novel solar energy storage cabinet comprises a cabinet body 11, an air outlet 12, a cabinet door 2, a controller 3, a bracket 31, an upright post 4, a base 41, a supporting leg 5, a fan 6, a storage battery 7, a filter screen 8, a rain shed 9, a photovoltaic panel 100, a supporting rod 200, a mounting plate 300 and a fixing piece.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, 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, 2 and 4, the utility model provides an automatic heat dissipation power distribution management device, which comprises a cabinet body 1 and a controller 2, wherein a bracket 3 is arranged in the cabinet body 1, four upright posts 31 of the bracket 3 are respectively arranged at four corners of the cabinet body 1, power distribution equipment is arranged on the bracket 3, a base 4 is arranged at the lower end of the cabinet body 1, four supporting legs 41 are fixed at the bottom of the base 4, and the supporting legs 41 support the bracket 3 and the power distribution equipment on the bracket to play a bearing role. Secondly, the support legs 41 are arranged to enable the base 4 to be at a certain distance from the ground, so that ventilation is facilitated. The landing leg 41 is located the stand 31 under, and the region of stand 31 outside the extending direction is equipped with fan 5 and battery 6 in the base 4, and the bottom of the cabinet body 1 is equipped with filter screen 7, and filter screen 7 is located the fan 5 directly over, and the upper end of the cabinet body 1 is equipped with air outlet 11, is equipped with temperature sensor in the cabinet body 1, and the controller 2 passes through temperature sensor control fan 5 start and stop, and battery 6 provides the power for fan 5 and temperature sensor. The temperature in the cabinet body 1 can be influenced to ambient temperature, and the temperature is low in winter, and the equipment heat dissipation is fast in the cabinet body 1, and the temperature is low in the cabinet body 1, does not need extra start fan 5 to dispel the heat, and the temperature is high in summer, and the equipment heat dissipation is slow in the cabinet body 1, and the temperature is high in the cabinet body 1, need start fan 5 to accelerate the circulation of air and dispel the heat. Therefore, the temperature sensor detects the temperature in the cabinet body 1, the fan 5 does not work at ordinary times, the fan 5 is started when the temperature reaches a preset value, the fan 5 blows air outside the base 4 into the cabinet body 1, then flows upwards along the bottom of the cabinet body 1, finally flows out through the air outlet 11, and in the process, the heat in the cabinet body 1 is taken out of the cabinet body 1. The structural design is beneficial to reducing energy consumption.
Specifically, referring to fig. 5, the number of fans 5 is four, the four fans 5 are divided into two groups, the storage battery 6 is arranged between the two groups of fans 5, the filter screen 7 and the fans 5 are far away from the upright posts 31, and the bearing performance of the cabinet body 1 and the supporting legs 41 is not affected.
Specifically, the controller 2 is disposed between two sets of fans 5.
As another embodiment of the present utility model: one side of the cabinet body 1 is provided with a cabinet door 12, an air outlet 11 is formed in three side walls of the cabinet body 1 except the cabinet door 12, the cabinet door 12 is a double door, a handle is arranged on the cabinet door 12, an operator pulls the handle outwards to open the cabinet door 12, so that parts inside the cabinet can be overhauled or replaced, and the cabinet door 12 is closed after the operation is finished.
As another embodiment of the present utility model: the upper end of the cabinet body 1 is provided with a rain shed 8, and the orthographic projection of the cabinet body 1 on the ground is positioned in the orthographic projection of the rain shed 8 on the ground. The canopy 8 can withstand sunlight exposure and rain erosion for the cabinet 1, and can improve the service life of the device.
As another embodiment of the present utility model: the upper end of canopy 8 is equipped with photovoltaic board 9, and photovoltaic board 9 passes through the module of charging and is connected with battery 6 electricity, and this setting can prolong the operating time of battery 6.
Specifically, the canopy 8 is fixed to the cabinet 1 through a support bar 100.
As another embodiment of the present utility model: a mounting plate 200 is fixed to the lower end of the leg 41. The contact area between the mounting plate 200 and the ground is large, and the stability is good.
As another embodiment of the present utility model: referring to fig. 3, a fixing member 300 is screw-coupled to the mounting plate 200, and the lower end of the fixing member 300 protrudes into the ground. Specifically, a concrete layer is laid on the ground, and the lower end of the fixing member 300 extends into the concrete layer. By this arrangement the device can be firmly fixed to the ground.
Specifically, the bottom of support 3 has certain height from filter screen 7, and after the long-time use of filter screen 7, this setting is convenient to change filter screen 7.
According to the utility model, the temperature in the cabinet body 1 is monitored through the temperature sensor, after the temperature reaches the preset value, the controller 2 starts the fan 5, air flows into the cabinet body 1 from the outside of the base 4 through the filter screen 7 and then flows out from the air outlet 11 from bottom to top, the arrangement speeds up the ventilation of the air inside and outside the cabinet body 1, the heat in the cabinet body 1 can be rapidly discharged, the temperature in the cabinet body 1 is reduced, and the service life of internal power distribution equipment is prolonged. The setting of temperature sensor does benefit to the reduction energy consumption, and the setting of filter screen 7 can effectively prevent the dust entering cabinet body 1 to prolong distribution equipment's life.
Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (9)

1. The utility model provides an automatic radiating distribution management device, includes the cabinet body and controller, the internal support that is equipped with of cabinet, four corners of the cabinet body are located respectively to four stands of support, install distribution equipment on the support, a serial communication port, the lower extreme of the cabinet body is equipped with the base, the bottom of base is fixed with four landing legs, the landing leg is located under the stand, the extending direction of stand is equipped with fan and battery outward in the base, the bottom of the cabinet body is equipped with the filter screen, the filter screen is located directly over the fan, the upper end of the cabinet body is equipped with the air outlet, the internal temperature sensor that is equipped with of cabinet, the controller passes through temperature sensor control fan start and stop.
2. The automatic heat dissipation power distribution management device according to claim 1, wherein the fans are four, the four fans are divided into two groups, and the storage battery is arranged between the two groups of fans.
3. The automatic heat dissipating power distribution management device of claim 2, wherein the controller is disposed between two sets of fans.
4. The automatic heat dissipation power distribution management device according to claim 1, wherein a cabinet door is arranged on one side of the cabinet body, and the air outlets are arranged on three side walls of the cabinet body except the cabinet door.
5. The automatic heat dissipation power distribution management device according to claim 1, wherein a canopy is arranged at the upper end of the cabinet body.
6. The automatic heat dissipation power distribution management device according to claim 5, wherein a photovoltaic panel is arranged at the upper end of the awning, and the photovoltaic panel is electrically connected with the storage battery through a charging module.
7. The automatic heat dissipation power distribution management device as recited in claim 6 wherein the canopy is secured to the cabinet by a support bar.
8. The automatic heat dissipating power distribution management device of claim 1, wherein the lower ends of the legs are fixed with a mounting plate.
9. The automatic heat dissipating power distribution management device of claim 8, wherein the mounting plate is threadably connected to a fixture, and the lower end of the fixture extends into the ground.
CN202323218847.0U 2023-11-28 2023-11-28 Automatic radiating distribution management device Active CN221467221U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202323218847.0U CN221467221U (en) 2023-11-28 2023-11-28 Automatic radiating distribution management device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202323218847.0U CN221467221U (en) 2023-11-28 2023-11-28 Automatic radiating distribution management device

Publications (1)

Publication Number Publication Date
CN221467221U true CN221467221U (en) 2024-08-02

Family

ID=92369050

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202323218847.0U Active CN221467221U (en) 2023-11-28 2023-11-28 Automatic radiating distribution management device

Country Status (1)

Country Link
CN (1) CN221467221U (en)

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