CN219203276U - Internal heat dissipation ventilation device - Google Patents

Abstract

The utility model discloses an internal heat dissipation and ventilation device which comprises an energy storage system main body and a circulating air fan device main body, wherein a limiting assembly is arranged on the right side of the energy storage system main body, and a rectangular limiting pipe body is arranged on the right side of a limiting rectangular pipe. This inside heat dissipation ventilation unit, through spacing subassembly, circulated air fan device main part, spacing long piece, limiting plate and isolated subassembly, be favorable to operating personnel can be comparatively convenient installation circulated air fan device main part, circulated air fan device main part can release the inside trouble air current of energy storage system main part effectively in the short time, and spacing shell, silica gel pad and filter screen, be favorable to carrying out the isolation to the foreign matter in the air, can effectively avoid the foreign matter to enter into the inside of energy storage system main part, lead to the damage of energy storage system main part, the base simultaneously, the telescopic link, flexible broadboard and net isolated filter screen, be favorable to protecting a plurality of louvres of seting up energy storage system main part place ahead lower extreme surface.

Description

Internal heat dissipation ventilation device

Technical Field

The utility model relates to the technical field of energy storage systems, in particular to an internal heat dissipation and ventilation device.

Background

In the analysis of the energy storage process, the part of the object or space delimited for the determination of the object under investigation is called the energy storage system, which comprises the input and output of energy and substances, the energy conversion and storage device. The energy storage system often relates to various energies, various devices, various substances and various processes, is a complex energy system which changes along with time, and needs various indexes to describe the performance of the energy storage system, and common evaluation indexes include energy storage density, energy storage power, energy storage efficiency, energy storage price, influence on environment and the like.

The prior publication number CN208352492U is named as a patent of a ventilation and heat dissipation device for an energy storage system in a prefabricated cabin, and the device is provided with a plurality of ventilation swing leaf windows communicated with the interior of the cabinet body through the top surface of the cabinet body; the novel multifunctional cabinet is characterized by further comprising a ventilation and heat dissipation channel, wherein the ventilation and heat dissipation channel takes the top surface of the cabinet body with a plurality of ventilation swing leaf windows as the bottom surface, one side edge of the ventilation and heat dissipation channel is connected with the side wall of the prefabricated cabin or the storage battery chamber, an axial flow fan is arranged on the side wall of the connecting part, the ventilation and heat dissipation channel is communicated with the outside through the axial flow fan, a temperature sensing device is arranged in the cabinet body, the output end of the temperature sensing device is connected with a controller arranged on the cabinet body, and the controller on the cabinet body is electrically connected with the axial flow fan. The utility model has simple structure, low cost and high heat dissipation efficiency, and can effectively reduce the heat accumulation in the battery cabinet and the temperature in the battery cabinet.

The device is simple in structure, low in cost and high in heat dissipation efficiency, heat accumulation in the battery cabinet can be effectively reduced, the temperature in the battery cabinet is reduced, but an axial flow fan of the device is neglected, and the axial flow fan is not provided with a convenient dismounting structure, so that an operator needs to spend a large amount of time for dismounting the axial flow fan, the working efficiency of the operator is reduced, and therefore, the internal heat dissipation and ventilation device is provided.

Disclosure of Invention

The present utility model is directed to an internal heat dissipation and ventilation device, which solves the above-mentioned problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an inside heat dissipation ventilation unit, includes energy storage system main part and circulated air fan device main part, the right side of energy storage system main part is provided with spacing subassembly, and spacing subassembly includes spacing rectangular pipe and the spacing body of rectangle, the spacing body of rectangle is installed on the right side of spacing rectangular pipe, circulated air fan device main part is installed in the inside of the spacing body of rectangle, and the top of circulated air fan device main part is provided with spacing long piece, the limiting plate is installed to the top of spacing long piece, isolated subassembly is installed on the right side of circulated air fan device main part, and isolated subassembly includes grid plate and filter, the inside block of grid plate is connected with the filter.

Further, the right wall of the inner part of the rectangular limiting pipe body is provided with a silica gel pad, and the rectangular limiting pipe body is connected with the silica gel pad in a clamping way.

Further, the right side of silica gel pad is provided with spacing shell, and silica gel pad and spacing shell are connected as an organic wholely.

Further, the filter screen has been seted up to the inside of spacing shell, and spacing shell and filter screen are connected as an organic wholely.

Further, the below of energy storage system main part is provided with the base, and both ends all are provided with the telescopic link about the place ahead of base.

Furthermore, the front of the telescopic rod is provided with a telescopic wide plate, and the telescopic rod and the telescopic wide plate are welded.

Further, the inside of flexible broadboard is provided with net isolated filter screen, and net isolated filter screen is provided with four.

Further, the telescopic wide plates and the grid isolation filter screen are welded, and two telescopic wide plates are arranged.

The utility model provides an internal heat dissipation and ventilation device, which has the following beneficial effects: through spacing subassembly, circulating air fan device main part, spacing long piece, limiting plate and isolated subassembly, be favorable to the installation circulating air fan device main part that operating personnel can be comparatively convenient, circulating air fan device main part can release the inside trouble air current of energy storage system main part effectively in the short time, this operating means is comparatively convenient, operating time has been shortened, improve operating personnel's work efficiency, and spacing shell, silica gel pad and filter screen, be favorable to carrying out the isolation to the foreign matter in the air, can effectively avoid the foreign matter to enter into the inside of energy storage system main part, lead to energy storage system main part to damage, simultaneously the base, telescopic link, flexible broadboard and net isolated filter screen, be favorable to protecting a plurality of louvres of seting up energy storage system main part place ahead lower extreme surface, avoid external force to strike to warp with the louvre that energy storage system main part place ahead lower extreme surface was seted up.

1. Through the arrangement of the limiting component, the main body of the circulating air fan device, the limiting long block, the limiting plate and the isolating component, an operator aligns the threaded holes formed on the bump surfaces at the upper end and the lower end of the left side of the rectangular limiting pipe body with the threaded holes formed on the bump surfaces at the upper end and the lower end of the right side of the limiting rectangular pipe, after alignment, the operator fixes the rectangular limiting pipe body at the right side of the limiting rectangular pipe by rotating screws, then the operator aligns the threaded holes formed on the bump surfaces at the upper end and the lower end of the left side and the right side of the grid plate with the threaded holes formed on the four corner surfaces at the right side of the main body of the circulating air fan device, after alignment, the grid plate can be limited and fixed at the right side of the main body of the circulating air fan device by screws, and then the operator inserts the filter plate into the rectangular groove formed in the grid plate, the filter plate can be limited and fixed in the grid plate, then an operator can place the main body and the isolation component of the circulating air fan device in the rectangular limiting pipe body through the rectangular groove formed in the upper wall of the rectangular limiting pipe body, and then another operator holds the limiting plate to move until the silica gel lug below the limiting plate is clamped with the round hole formed in the surface above the limiting long block, so that the main body and the isolation component of the circulating air fan device can be limited and fixed in the rectangular limiting pipe body, the main body of the circulating air fan device can be conveniently and quickly installed by the operator, the main body of the circulating air fan device can effectively release the fault airflow in the main body of the energy storage system in a short time, the main body of the energy storage system is prevented from being burst, the main body of the adjacent energy storage system and the operator are seriously damaged, and serious safety accidents are caused, the operation mode is convenient, the operation time is shortened, and the working efficiency of operators is improved.

2. According to the utility model, through the arrangement of the base, the telescopic rods, the telescopic wide plates and the grid isolation filter screen, the front lower end of the energy storage system main body is fragile due to the fact that the plurality of radiating holes formed in the front lower end surface of the energy storage system main body can cause the front lower end of the energy storage system main body to be arranged on the base through the lifting equipment, then the operator drives the telescopic wide plates to push backwards through the two telescopic rods until the left and right silica gel lugs above the rear side of the telescopic wide plates are clamped with the round holes in the front lower end of the energy storage system main body, so that the telescopic wide plates can drive the four grid isolation filter screens to be limited and fixed in front of the plurality of radiating holes formed in the front lower end surface of the energy storage system main body, the protection of the plurality of radiating holes formed in the front lower end surface of the energy storage system main body is facilitated, and the impact of the external force on the radiating holes formed in the front lower end surface of the energy storage system main body to be deformed is avoided.

Drawings

FIG. 1 is a schematic diagram of an internal heat dissipating and ventilating device according to the present utility model;

FIG. 2 is an enlarged schematic view of the internal heat dissipating and ventilating device of FIG. 1A according to the present utility model;

FIG. 3 is a schematic side view of an internal heat dissipating and ventilating device according to the present utility model, showing the structure of the fan device body and the isolation assembly;

fig. 4 is a schematic perspective view of an isolation assembly and a limiting case of an internal heat dissipating and ventilating device according to the present utility model.

In the figure: 1. an energy storage system body; 2. a limit component; 201. limiting the rectangular tube; 202. rectangular limiting pipe body; 3. a main body of the circulating air blower device; 4. limiting long blocks; 5. a limiting plate; 6. an isolation assembly; 601. a grid plate; 602. a filter plate; 7. a limit shell; 8. a silica gel pad; 9. a filter screen; 10. a base; 11. a telescopic rod; 12. a telescopic wide plate; 13. the grid isolates the filter screen.

Detailed Description

As shown in fig. 1-4, an internal heat dissipation and ventilation device comprises an energy storage system main body 1 and a circulating air fan device main body 3, wherein a limit component 2 is arranged on the right side of the energy storage system main body 1, the limit component 2 comprises a limit rectangular pipe 201 and a rectangular limit pipe 202, the rectangular limit pipe 202 is arranged on the right side of the limit rectangular pipe 201, the circulating air fan device main body 3 is arranged in the rectangular limit pipe 202, a limit long block 4 is arranged above the circulating air fan device main body 3, a limit plate 5 is arranged above the limit long block 4, an isolation component 6 is arranged on the right side of the circulating air fan device main body 3, the isolation component 6 comprises a grid plate 601 and a filter plate 602, the filter plate 602 is connected in a clamping manner in the grid plate 601, an operator aligns threaded holes formed on the bump surfaces at the upper end and the lower end of the left side of the rectangular limit rectangular pipe 202 with threaded holes formed on the bump surfaces at the upper end and the lower end of the right side of the limit rectangular pipe 201, after alignment, an operator fixes the rectangular limiting pipe body 202 by rotating screws, so that the rectangular limiting pipe body 202 can be limited and fixed on the right side of the limiting rectangular pipe 201, then the operator aligns threaded holes formed in the bump surfaces of the upper end and the lower end of the left side and the right side of the grid plate 601 with threaded holes formed in the four corner surfaces of the right side of the circulating air fan device main body 3, after alignment, the grid plate 601 can be limited and fixed on the right side of the circulating air fan device main body 3 by the screws, then the operator inserts the filter plate 602 into a rectangular groove formed in the interior of the grid plate 601, so that the filter plate 602 can be limited and fixed in the interior of the grid plate 601, then the operator places the circulating air fan device main body 3 and the isolation assembly 6 in the interior of the rectangular limiting pipe body 202 by the rectangular groove formed in the upper wall of the rectangular limiting pipe body 202, after that, the other operator holds the limiting plate 5 to move until the silica gel lug below the limiting plate 5 is clamped with the round hole formed on the upper surface of the limiting long block 4, so that the main body 3 of the circulating air fan device and the isolation component 6 can be limited and fixed in the rectangular limiting pipe 202, the main body 3 of the circulating air fan device can be conveniently and rapidly installed by the operator, the main body 3 of the circulating air fan device can effectively release the fault airflow in the main body 1 of the energy storage system in a short time, the main body 1 of the energy storage system is prevented from being burst, serious damage is caused to the main body 1 of the adjacent energy storage system and the operator, and serious safety accidents are caused, the rectangular groove formed on the upper wall of the rectangular limiting pipe body 202 is blocked by the limiting plate 5, so dust particles in the air cannot flow into the rectangular limiting pipe body 202 through the rectangular groove formed on the upper wall of the rectangular limiting pipe body 202, meanwhile, the grid plate 601 and the filter plate 602 are grid-shaped, but active carbon is arranged in the filter plate 602 and can adsorb moisture in the air, the active carbon is arranged in the filter plate 602 and cannot influence the normal operation of the main body 3 of the circulating air fan device, and because the air can pass through the active carbon and the active carbon arranged in the filter plate 602, gaps exist between the active carbon and the main body 3 of the circulating air fan device, the main body 3 of the circulating air fan device is not influenced to operate normally, and the operating principle of the circulating air fan device is the same as that of a conventional exhaust fan, the aim is to achieve the effect that the fault airflow in the main body 1 of the energy storage system is effectively released in a short time, the right wall of the inside of the rectangular limiting pipe 202 is provided with a silica gel pad 8, and the rectangular limiting pipe 202 is connected with the silica gel pad 8 in a clamping way.

As shown in fig. 1, 2 and 4, the right side of the silica gel pad 8 is provided with a limiting shell 7, the silica gel pad 8 is integrally connected with the limiting shell 7, a filter screen 9 is arranged in the limiting shell 7, the limiting shell 7 is integrally connected with the filter screen 9, an operator holds the limiting shell 7 through the silica gel pad 8 to drive the filter screen 9 to move until the silica gel pad 8 is clamped with the right wall in the rectangular limiting tube 202, the limiting shell 7 can drive the filter screen 9 to be limited and fixed on the right side of the rectangular limiting tube 202, when the operator turns on the power supply of the circulating air fan device main body 3, when the circulating air fan device main body 3 runs, air around the circulating air fan device main body 3 can accelerate to flow, when external air enters the inside of the energy storage system main body 1 through the circulating air fan device main body 3, the filter screen 9 can isolate foreign matters in the air, being favorable to isolating the foreign matter in the air, can effectively avoid the foreign matter to enter into the inside of energy storage system main part 1, lead to energy storage system main part 1 to damage, thereby prolong the life of energy storage system main part 1, and silica gel pad 8 looks for the rectangle, silica gel pad 8 is the silica gel material preparation, can assist spacing shell 7 to drive filter screen 9 more firm the fixing in the right side of rectangle spacing body 202, the below of energy storage system main part 1 is provided with base 10, and both ends all are provided with telescopic link 11 about the place ahead of base 10, the place ahead of telescopic link 11 is provided with flexible broadboard 12, and telescopic link 11 is the welding with flexible broadboard 12, the inside of flexible broadboard 12 is provided with net isolated filter screen 13, and net isolated filter screen 13 is provided with four, flexible broadboard 12 is the welding with net isolated filter screen 13, and flexible broadboard 12 is provided with two, because a plurality of louvres that set up because of energy storage system main part 1 place ahead lower extreme surface can lead to energy storage system main part 1 place ahead lower extreme comparatively fragile, operating personnel is through handling equipment with energy storage system main part 1 in the top of base 10 earlier, afterwards operating personnel drives flexible broadboard 12 through two telescopic links 11 and promotes backward, until flexible broadboard 12 rear side top left and right sides both ends silica gel lug and the front lower extreme round hole of energy storage system main part 1 block, make flexible broadboard 12 can drive the spacing a plurality of louvres that fix at energy storage system main part 1 front lower extreme surface were set up in the place ahead of four net isolation filter screens 13, be favorable to protecting a plurality of louvres that set up energy storage system main part 1 front lower extreme surface, avoid external force to strike the louvres that energy storage system main part 1 front lower extreme surface set up to warp, and flexible broadboard 12 and four net isolation filter screens 13 protect, buffering external force's impact.

In summary, when the internal heat dissipation and ventilation device is used, firstly, the front lower end of the energy storage system main body 1 is fragile because of the plurality of heat dissipation holes formed on the front lower end surface of the energy storage system main body 1, an operator firstly places the energy storage system main body 1 above the base 10 through a lifting device, then drives the telescopic wide plate 12 to push backwards through the two telescopic rods 11 until the silica gel lugs at the left and right ends above the rear side of the telescopic wide plate 12 are clamped with the round holes at the front lower end of the energy storage system main body 1, the telescopic wide plate 12 can drive the four grid isolation filter screens 13 to be fixed in front of the plurality of heat dissipation holes formed on the front lower end surface of the energy storage system main body 1, then the operator firstly aligns the threaded holes formed on the lug surfaces at the left side of the upper and lower ends of the rectangular limiting pipe 202 with the threaded holes formed on the lug surfaces at the right side of the upper and lower ends of the limiting rectangular pipe 201, after alignment, an operator fixes the rectangular limiting pipe body 202 by rotating screws, so that the rectangular limiting pipe body 202 can be limited and fixed on the right side of the limiting rectangular pipe 201, then the operator aligns threaded holes formed in the bump surfaces of the upper end and the lower end of the left side and the right side of the grid plate 601 with threaded holes formed in the four corner surfaces of the right side of the circulating air fan device main body 3, after alignment, the grid plate 601 can be limited and fixed on the right side of the circulating air fan device main body 3 by the screws, then the operator inserts the filter plate 602 into a rectangular groove formed in the interior of the grid plate 601, so that the filter plate 602 can be limited and fixed in the interior of the grid plate 601, then the operator places the circulating air fan device main body 3 and the isolation assembly 6 in the interior of the rectangular limiting pipe body 202 by the rectangular groove formed in the upper wall of the rectangular limiting pipe body 202, after that, the other operator holds the limiting plate 5 to move until the silica gel lug below the limiting plate 5 is clamped with the round hole formed in the upper surface of the limiting long block 4, so that the circulating air fan device main body 3 and the isolation component 6 can be limited and fixed in the rectangular limiting pipe body 202, then the operator holds the limiting shell 7 through the silica gel pad 8 to drive the filter screen 9 to move until the silica gel pad 8 is clamped with the right wall in the rectangular limiting pipe body 202, so that the limiting shell 7 can drive the filter screen 9 to be limited and fixed on the right side of the rectangular limiting pipe body 202, when the operator turns on the power supply of the circulating air fan device main body 3, the air around the circulating air fan device main body 3 can accelerate to flow, and when the external air enters the inside of the energy storage system main body 1 through the circulating air fan device main body 3, the filter screen 9 can isolate foreign matters in the air, which is the working principle of the internal heat dissipation ventilation device.

Claims (8)

1. The utility model provides an inside heat dissipation ventilation unit, includes energy storage system main part (1) and circulated air fan device main part (3), its characterized in that, the right side of energy storage system main part (1) is provided with spacing subassembly (2), and spacing subassembly (2) are including spacing rectangular tube (201) and rectangle spacing body (202), rectangle spacing body (202) are installed on the right side of spacing rectangular tube (201), the inside in rectangle spacing body (202) is installed in circulated air fan device main part (3), and the top of circulated air fan device main part (3) is provided with spacing long piece (4), limiting plate (5) are installed to the top of spacing long piece (4), isolated subassembly (6) are installed on the right side of circulated air fan device main part (3), and isolated subassembly (6) are including grid plate (601) and filter (602), the inside block of grid plate (601) is connected with filter (602).

2. The internal heat dissipation and ventilation device according to claim 1, wherein a silica gel pad (8) is disposed on the right wall of the rectangular limiting tube body (202), and the rectangular limiting tube body (202) is connected with the silica gel pad (8) in a clamping manner.

3. An internal heat and ventilation device according to claim 2, characterized in that the right side of the silica gel pad (8) is provided with a limiting shell (7), and the silica gel pad (8) is integrally connected with the limiting shell (7).

4. An internal heat dissipation and ventilation device according to claim 3, characterized in that the filter screen (9) is provided in the limiting shell (7), and the limiting shell (7) is integrally connected with the filter screen (9).

5. An internal heat and ventilation device according to claim 1, wherein a base (10) is provided below the energy storage system body (1), and telescopic rods (11) are provided at both the left and right front ends of the base (10).

6. An internal heat and ventilation device according to claim 5, characterized in that the telescopic rod (11) is provided with a telescopic wide plate (12) in front of the telescopic rod, and the telescopic rod (11) and the telescopic wide plate (12) are welded.

7. An internal heat and ventilation device according to claim 6, characterized in that the inside of the telescopic wide plate (12) is provided with a mesh isolation screen (13), and the mesh isolation screen (13) is provided with four.

8. An internal heat and ventilation device according to claim 6, characterized in that the expansion wide plate (12) and the mesh isolation filter screen (13) are welded, and the expansion wide plate (12) is provided with two.

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