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Intelligent high-low voltage power distribution cabinet based on big data

A high and low voltage, power distribution cabinet technology, applied in the substation/distribution device shell, electrical components, panel/switch station circuit devices, etc. problem, to achieve the effect of increasing the contact area and speeding up the heat dissipation

Inactive Publication Date: 2022-04-29
金宁林
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002]The intelligent high and low voltage power distribution cabinet based on big data is mainly used to control and deploy the connected circuits. The inside of the smart high and low voltage power distribution cabinet, so that the smart high and low voltage power distribution cabinet based on big data can control and deploy the connected circuits, and can realize real-time transmission and sharing of information through big data, so that the staff can remotely Simultaneously control multiple intelligent high and low voltage power distribution cabinets based on big data, and can find faults faster, so as to facilitate maintenance at the first time, but in the existing technology, because the intelligent high and low voltage power distribution cabinets based on big data are If the smart high and low voltage power distribution cabinet based on big data is placed directly on the ground outdoors on unhardened soil, and the soil will be washed away after heavy rain, if the bottom of the power distribution cabinet If there is a loss of soil, and a large amount of loss has not been dealt with for a long time, it will cause the smart high and low voltage distribution cabinet based on big data to tilt and shake

Method used

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  • Intelligent high-low voltage power distribution cabinet based on big data
  • Intelligent high-low voltage power distribution cabinet based on big data
  • Intelligent high-low voltage power distribution cabinet based on big data

Examples

Experimental program
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Effect test

Embodiment 1

[0032] Such as Figure 1 to Figure 9 Shown:

[0033] The present invention provides an intelligent high and low voltage power distribution cabinet based on big data. Its structure includes a cabinet door 1, a heat dissipation port 2, and a cabinet body 3. The lower end of the front end of the front end is connected with the heat dissipation port 2; the cabinet body 3 includes a junction box 31, a casing 32, a processor 33, and a control panel 34, the junction box 31 is fixed on the inner position of the casing 32, and the processor 33 Connected with the upper end of the junction box 31 , the control panel 34 is embedded in the inner upper end of the housing 32 .

[0034] Wherein, the shell 32 includes a contact plate a1, a base plate a2, and a housing a3, the contact plate a1 is embedded in the inner position of the housing a3, the base plate a2 is connected to the bottom of the contact plate a1, and the contact plate a2 is connected to the bottom of the contact plate a1. Th...

Embodiment 2

[0041] Such as Figure 10-Figure 14 Shown:

[0042] Wherein, the contact plate a1 includes a frame a11, a lower frame body a12, and a bearing rod a13. The rod a13 is made of aluminum metal with strong heat dissipation, and the heat dissipation speed of the heat absorbed by itself can be enhanced through the bearing rod a13.

[0043] Wherein, the bearing rod a13 includes a swing bar c1, a reinforcement plate c2, and a rod body c3, the swing bar c1 is movably engaged with the rod body c3, the reinforcement plate c2 is installed at the inner position of the rod body c3, and the rod body c3 There are multiple hollow structures inside, which can further accelerate the heat dissipation speed, and the reinforcement plate c2 can support the inside of the rod body c3, so as to avoid the reduction of the bearing capacity of the rod body c3 due to multiple hollows.

[0044] Wherein, the swing bar c1 includes a clamping block c11, a force receiving groove c12, and a movable piece c13. ...

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Abstract

The invention discloses a big data-based intelligent high-low voltage power distribution cabinet, which structurally comprises a cabinet door, a heat dissipation opening and a cabinet body, the cabinet door is connected with the front end of the cabinet body through a hinge, the lower end of the front end of the cabinet body is connected with the heat dissipation opening, and the cabinet body can slide and descend along a plate body through a reinforcing block when the bottom of the cabinet body loses the support of soil; the reinforcing blocks can be inserted into soil wetted by rainwater through the weight of the reinforcing blocks, so that the stability of the cabinet body placed on the ground can be enhanced, the heat dissipation speed of heat of the cabinet body can be increased through the bearing rods made of aluminum alloy, the contact area between the bearing rods and the outside is increased through the hollows in the rod bodies, the heat dissipation speed is increased, and the service life of the cabinet body is prolonged. And finally, outward suction force is generated through rotation of a heat dissipation fan in a heat dissipation opening, movable pieces can swing along the interior of a rod body under cooperation of clamping blocks, and therefore air flow can be generated to further accelerate the heat dissipation speed.

Description

technical field [0001] The invention relates to the technical field of power distribution cabinets, in particular to an intelligent high and low voltage power distribution cabinet based on big data. Background technique [0002] The intelligent high and low voltage power distribution cabinet based on big data is mainly used to control and deploy the connected circuits. By connecting the circuit wires to the inside of the intelligent high and low voltage power distribution cabinet The intelligent high and low voltage power distribution cabinet can control and deploy the connected circuits, and can realize real-time transmission and sharing of information through big data, so that the staff can remotely control multiple intelligent high and low voltage power distribution cabinets based on big data at the same time, And it can find faults faster, so that it can be repaired in the first time. However, in the existing technology, since the intelligent high and low voltage power d...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02B1/56H02B1/28H02B1/50H02B1/30H02B1/32H02B1/38H02B1/04H02B1/24H02G3/08
CPCH02B1/565H02B1/28H02B1/50H02B1/30H02B1/32H02B1/38H02B1/04H02B1/24H02G3/08
Inventor 金宁林
Owner 金宁林