CN-224233191-U - Bury formula energy system casing fin structure

Abstract

The utility model relates to the field of radiating fin structures, in particular to a buried energy system shell radiating fin structure which comprises an outer frame, a frame detachably connected with the outer frame and a power supply arranged in the outer frame, wherein three supports with a T-shaped structure are arranged at the bottom end of the outer frame, two groups of radiating fins are arranged at intervals at the bottom end of the outer frame, each group of radiating fins is multiple, the two groups of radiating fins are respectively arranged between the two adjacent supports, and pouring sealant is filled in the outer frame. The radiating fin is used for increasing the area of contact of frame and soil to improve the radiating effect of casing, the inside filling of frame has the pouring sealant, and the pouring sealant can carry out heat conduction, further improves the radiating effect to inside energy system, is provided with the support on the frame, and the support will wholly erect in underground, has improved the stability of casing, avoids the radiating fin atress to warp and damage, and the support is the style of calligraphy of falling T, has further increased the area of contact of casing and soil, improves the radiating effect.

Inventors

• XU YUPING

Assignees

• 浙江沃橙新能源有限公司

Dates

Publication Date

20260512

Application Date

20250507

Claims (7)

1. 1. The underground energy system shell cooling fin structure comprises an outer frame (3), a frame (1) detachably connected with the outer frame (3) and a power supply (9) arranged inside the outer frame (3), and is characterized in that three supports (11) with T-shaped structures are arranged at the bottom end of the outer frame (3), two groups of cooling fins (10) are arranged at intervals at the bottom end of the outer frame (3), each group of cooling fins (10) is multiple, the two groups of cooling fins (10) are respectively arranged between the two adjacent supports (11), and pouring sealant is filled inside the outer frame (3).
2. 2. The structure of claim 1, wherein the cross section of the radiating fin (10) is triangular, and the bracket (11) is provided with a mounting hole.
3. 3. The underground energy system shell cooling fin structure according to claim 1, wherein a honeycomb plate (2) is fixed in each of the frame (1) and the outer frame (3), and reinforcing ribs (204) are arranged on the honeycomb plate (2).
4. 4. The buried energy system shell cooling fin structure according to claim 1, wherein a connecting ring (4) is fixed at the top end of the outer frame (3), and the frame (1) is connected with the connecting ring (4) through bolts.
5. 5. The structure of claim 4, wherein the top end of the connecting ring (4) is provided with a first sealing ring (12) and a second sealing ring (13), and the frame (1) is abutted against the first sealing ring (12) and the second sealing ring (13).
6. 6. The underground energy system shell cooling fin structure according to claim 1, wherein an end plate (5) is fixed at the end of the outer frame (3), and a signal connector (6) and a circuit connector (7) are mounted on the end plate (5).
7. 7. The buried energy system shell cooling fin structure according to claim 1, wherein lifting holes (8) are formed in two sides of the bottom of the outer frame (3), and the lifting holes (8) are rectangular.

Description

Bury formula energy system casing fin structure Technical Field The utility model relates to a guide rail electricity taking device, in particular to a buried energy system shell radiating fin structure, and belongs to the field of radiating fin structures. Background The buried energy system is a novel distribution box, the installation mode is greatly different from that of a common distribution box, the shell is buried underground, after the installation is finished, the cover plate is flush with the ground, and compared with the common distribution box, the buried energy system has the advantages of not occupying a road, not occupying a space and not affecting traffic flow, and meanwhile, the buried energy system integrates personalized customization of cover plate filling, extremely cold weather cover plate self-heating and the like, and is suitable for places such as squares, roads, exhibition halls, parks, factories, airports and the like. The conventional energy storage system shell in the market at present is designed and manufactured for being arranged on the ground surface, and cannot meet the requirement on the heat dissipation performance of the energy storage system during the burying, so that the shell capable of meeting the heat dissipation requirement of the buried energy storage system is needed. Disclosure of utility model The utility model aims to solve the problems, and provides a buried energy system shell radiating fin structure, wherein a plurality of radiating fins are arranged at the bottom end of an outer frame at intervals, and are used for increasing the contact area between the outer frame and soil, so that the radiating effect of the shell is improved, pouring sealant is filled in the outer frame, heat conduction can be carried out on the pouring sealant, the radiating effect on an internal energy system is further improved, a support is arranged on the outer frame, the support is integrally erected underground, the stability of the shell is improved, the radiating fins are prevented from being deformed and damaged due to stress, the support is inverted T-shaped, the contact area between the shell and the soil is further increased, and the radiating effect is improved. The utility model realizes the purpose through the following technical scheme, the buried energy system shell radiating fin structure comprises an outer frame, a frame detachably connected with the outer frame and a power supply arranged in the outer frame, wherein three supports with T-shaped structures are arranged at the bottom end of the outer frame, two groups of radiating fins are arranged at intervals at the bottom end of the outer frame, each group of radiating fins is multiple, the two groups of radiating fins are respectively arranged between the two adjacent supports, and pouring sealant is filled in the outer frame. Preferably, the cross section of fin is triangle-shaped, makes the radiating effect better, be equipped with the mounting hole on the support, be convenient for fix it on fixed plate or corresponding automobile body in the transportation process. Preferably, the frame and the outer frame are both fixed with honeycomb plates, and the honeycomb plates are provided with reinforcing ribs, so that the overall compression resistance is improved. Preferably, the top of frame is fixed with the go-between, bolted connection between frame and the go-between is convenient for install and dismantle the frame, installs the dismantlement to the inside power of frame. Preferably, the top of the connecting ring is provided with a first sealing ring and a second sealing ring, and the frame is abutted against the first sealing ring and the second sealing ring, so that the tightness between the outer frame and the frame is better. Preferably, the tip of frame is fixed with the end plate, install signal joint and line connection on the end plate, can be when setting up energy storage system in batches regular winding displacement, avoid appearing the chaotic condition of circuit, be convenient for follow-up management maintenance etc. be provided with anticorrosive wear-resisting coating on the joint. Preferably, lifting holes are formed in two sides of the bottom of the outer frame, and are rectangular and convenient for lifting equipment. The novel heat dissipation device has the beneficial effects that the three supports with the T-shaped structures are arranged at the bottom end of the outer frame, two groups of heat dissipation fins are arranged at the bottom end of the outer frame at intervals, each group of heat dissipation fins are multiple, the two groups of heat dissipation fins are respectively arranged between the two adjacent supports, pouring sealant is filled in the outer frame, the plurality of heat dissipation fins are arranged at the bottom end of the outer frame at intervals and are used for increasing the contact area between the outer frame and soil, so that the heat dissipation effect o