CN220191303U - Cooling structure based on automobile emergency power supply - Google Patents

Abstract

A cooling structure based on an automobile emergency power supply belongs to the technical field of power supply cooling, and aims to solve the problems that when the existing cooling structure of the automobile emergency power supply is used, the contact area of a pipeline and the emergency power supply is small, the cooling effect is poor, and more energy is consumed during use; according to the utility model, the emergency power supply main body is placed in the heat insulation box body, the temperature sensor is used for detecting the temperature of the emergency power supply main body, when the temperature of the emergency power supply main body is higher than thirty ℃, the control part is used for controlling the water inlet part of the water pump, the electric telescopic rod, the semiconductor refrigerating part and the heat end radiating part to be opened, so that water flows between the heat insulation box body and the water tank and is cooled, the emergency power supply main body can be cooled by the water through the heat conduction of the copper plate and the radiating fins until the temperature of the emergency power supply main body is lower than twenty ℃, the cooling effect of the emergency power supply main body can be improved, and meanwhile, the energy consumption can be reduced.

Description

Cooling structure based on automobile emergency power supply

Technical Field

The utility model relates to the technical field of power supply cooling, in particular to a cooling structure based on an automobile emergency power supply.

Background

The utility model provides a car emergency starting power source is a portable power source for starting the car when car insufficient voltage or other reasons can't start the car, car emergency power source is often placed and is deposited at the trunk of car, and in summer, because car trunk receives sunshine directly and heat accumulation generally, can make car emergency power source's temperature rise, lead to car emergency power source's performance and life-span to cause the harm, current emergency power source's cooling structure has two types of forced air cooling and water-cooling, when using the water-cooling, can make water flow in the pipeline through the water pump generally, realize the heat dissipation to emergency power source through pipeline and emergency power source's contact, and the pipeline is circular setting generally, lead to less with emergency power source's area of contact for the cooling effect is not good, and current cooling structure is inconvenient to adjust according to emergency power source's temperature, the power consumption is more.

Disclosure of Invention

The utility model aims to provide a cooling structure based on an automobile emergency power supply, which adopts the device to work, so that the problems of poor heat dissipation effect and more energy consumption during use caused by smaller contact area between a pipeline and the emergency power supply when the existing heat dissipation structure of the automobile emergency power supply is used are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cooling structure based on car emergency power source, includes insulation box and rotates the case lid of connecting in insulation box upper end, and connects through the buckle block between insulation box and the case lid, and the embedding of emergency power source main part one side of waiting to cool is provided with temperature sensor, the inside cooling module that is used for radiating that is provided with of insulation box, insulation box one side is fixed to be provided with control division, and control division and temperature sensor electric connection, and insulation box opposite side runs through and is provided with the refrigeration subassembly that is used for making water flow and cooling;

the cooling assembly comprises a limiting heat conducting component arranged inside the heat insulation box body and two driving components respectively arranged on two sides of the limiting heat conducting component, wherein a uniform component is arranged between the two driving components, the refrigerating assembly comprises a flowing component penetrating through the other side of the heat insulation box body and a cooling component penetrating through the upper end of the flowing component, the limiting heat conducting component is used for placing an emergency power supply main body and conducting heat, the driving component is used for driving the uniform component to move, the uniform component is used for enabling water to flow in the heat insulation box body, and the cooling component is used for enabling the water to cool inside the flowing component.

Preferably, the spacing heat conduction part includes both sides all with the copper of insulation can inner wall fixed connection and fixed connection at the radiating fin of copper lower extreme, and radiating fin is provided with the multiunit, holds water liquid between copper and the insulation can bottom, copper upper end and the laminating of emergency power source main part lower extreme, copper upper end is close to the equal fixedly connected with closing plate of both sides edge, two sets of closing plate upper end fixedly connected with spacing frame, and spacing frame surface and insulation can inner wall fixed connection, spacing frame inboard and the laminating of emergency power source main part surface.

Preferably, the driving part comprises an electric telescopic rod with one end fixedly connected with the inner wall of the insulation box body and a C-shaped fixing strip fixedly connected with the other end of the electric telescopic rod, the electric telescopic rod is electrically connected with the control part, and two ends of the C-shaped fixing strip are fixedly connected with the transmission strip.

Preferably, the inner wall of the other side of the heat insulation box body is fixedly connected with guide plates, two groups of guide plates are symmetrically arranged, one side of each guide plate is fixedly connected with one side of the sealing plate, two groups of transmission bars penetrate through the guide plates from two groups of guide plates, and air is contained in a cavity above each guide plate.

Preferably, the even part is provided with two sets of parts, and even part includes fixed connection two sets of the installing strip between the transmission strip and fixed connection stir the board in the installing strip upper end, and stir the board and evenly be provided with the multiunit, multiunit stir the board with multiunit radiating fin interval setting.

Preferably, the flow component comprises a water inlet part of the water pump which is fixedly arranged on the other side of the heat insulation box body in a penetrating manner and a water tank which is fixedly connected to the other end of the water inlet part of the water pump in a penetrating manner, the water inlet part of the water pump is electrically connected with the control part, a water outlet pipe is fixedly connected between the water tank and the other side of the heat insulation box body in a penetrating manner, the water outlet pipe is arranged at intervals with the water inlet part of the water pump, and water liquid is filled in the water tank.

Preferably, the cooling component comprises a heat insulation shell fixedly connected to the upper end of the water tank and a heat conducting fin penetrating through the heat insulation shell and fixedly connected between the heat insulation shell and the water tank, and the heat conducting fins are provided with a plurality of groups.

Preferably, the cooling component further comprises a semiconductor refrigeration part fixedly arranged on one side of the heat preservation shell in a penetrating manner and a hot end radiating part arranged on the other side of the semiconductor refrigeration part, and the semiconductor refrigeration part and the hot end radiating part are electrically connected with the control part.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the cooling structure based on the automobile emergency power supply, through the arrangement of the limiting heat conducting component, the driving component, the uniform component, the flowing component and the cooling component, the purposes of improving the cooling effect of the cooling structure and reducing the energy consumption are achieved, and the problems that when the existing cooling structure of the automobile emergency power supply is used, the contact area of a pipeline and the emergency power supply is small, the cooling effect is poor, and the energy consumption is high are solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a control portion and cooling assembly according to the present utility model;

FIG. 3 is a schematic view of an emergency power supply body and a temperature sensor according to the present utility model;

FIG. 4 is a schematic diagram of a cooling assembly according to the present utility model;

FIG. 5 is a schematic view of the driving component structure of the present utility model;

FIG. 6 is a schematic view of the uniform component structure of the present utility model;

FIG. 7 is a schematic view of a refrigeration assembly according to the present utility model;

fig. 8 is a schematic view of the structure of the cooling member of the present utility model.

In the figure: 1. a thermal insulation box body; 2. a case cover; 3. a refrigeration assembly; 31. a flow member; 311. a water tank; 312. a water inlet part of the water pump; 313. a water outlet pipe; 32. a cooling member; 321. a heat-insulating housing; 322. a heat conductive sheet; 323. a semiconductor refrigerating unit; 324. a hot end heat dissipation part; 4. a control unit; 5. a cooling component; 51. a limit heat conduction component; 511. a limit frame; 512. copper plate; 513. a sealing plate; 514. a heat radiation fin; 52. a driving part; 521. an electric telescopic rod; 522. c-shaped fixing strips; 523. a transmission bar; 524. a deflector; 53. a uniform member; 531. a mounting bar; 532. an agitating plate; 6. an emergency power supply main body; 7. a temperature sensor.

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.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1-4 and 7, a cooling structure based on automobile emergency power supply, including insulation box 1 and rotate the case lid 2 of connecting in insulation box 1 upper end, and connect through the buckle block between insulation box 1 and the case lid 2, the embedding of the emergency power supply main part 6 one side of waiting to cool down is provided with temperature sensor 7, insulation box 1 inside is provided with the cooling subassembly 5 that is used for radiating, insulation box 1 one side is fixed and is provided with control portion 4, and control portion 4 and temperature sensor 7 electric connection, insulation box 1 opposite side runs through and is provided with the refrigeration subassembly 3 that is used for making water flow and cooling, temperature sensor 7 can be with the temperature data transmission who detects to control portion 4, cooling subassembly 5 is including setting up at the inside spacing heat conduction part 51 of insulation box 1 and setting up two drive parts 52 in spacing heat conduction part 51 both sides respectively, be provided with even part 53 between the drive parts 52 of two sets of, refrigeration subassembly 3 includes the flow part 31 that runs through with insulation box 1 opposite side and runs through the cooling part 32 that sets up at flow part 31 upper end, emergency heat conduction part 6 is used for placing and is used for making water flow part 31 even, the inside cooling part 53, the cooling part is used for making water flow part 31 even, even drive part 53 is used for cooling down, the inside the cooling part is used for cooling liquid.

The utility model is further described below with reference to examples.

Example 1

Referring to fig. 5, 6 and 8, the spacing heat conduction member 51 includes a copper plate 512 with two sides fixedly connected to the inner wall of the insulation box 1 and a heat dissipation fin 514 fixedly connected to the lower end of the copper plate 512, and the heat dissipation fin 514 is provided with a plurality of groups, water is contained between the copper plate 512 and the bottom of the insulation box 1, the upper end of the copper plate 512 is attached to the lower end of the emergency power supply main body 6, sealing plates 513 are fixedly connected to the edges of the upper end of the copper plate 512 near the two sides, the upper ends of the two groups of sealing plates 513 are fixedly connected with spacing frames 511, the outer surfaces of the spacing frames 511 are fixedly connected to the inner wall of the insulation box 1, the inner sides of the spacing frames 511 are attached to the outer surfaces of the emergency power supply main body 6, the emergency power supply main body 6 can be spacing through the spacing frames 511, heat of the emergency power supply main body 6 can be conducted to water below the spacing frames 511 through the copper plate 512 and the heat dissipation fin 514, the sealing plates 513 can seal between the spacing frames 511 and the heat dissipation fins 514, the driving part 52 comprises an electric telescopic rod 521 with one end fixedly connected with the inner wall of the heat preservation box body 1 and a C-shaped fixing strip 522 fixedly connected with the other end of the electric telescopic rod 521, the electric telescopic rod 521 is electrically connected with the control part 4, the two ends of the C-shaped fixing strip 522 are fixedly connected with driving strips 523, the C-shaped fixing strip 522 can be driven to move through the expansion and contraction of the electric telescopic rod 521, the driving strips 523 and the C-shaped fixing strip 522 of two groups move together, the expansion and contraction of the electric telescopic rod 521 can be controlled through the control part 4, the inner wall of the other side of the heat preservation box body 1 is fixedly connected with a guide plate 524, two groups of guide plates 524 are symmetrically arranged, one side of the guide plate 524 of the other group is fixedly connected with one side of the sealing plate 513, the driving strips 523 of the two groups penetrate through the guide plates 524 of the two groups, air is contained in a cavity above the guide plates 524 of the two groups, the two groups of guide plates 524 can prevent part of water from splashing upwards when the transmission bars 523 move, avoid the electric telescopic rods 521 from contacting with a large amount of water, the two groups of guide plates 524 can guide the water, the uniform component 53 is provided with two groups, the uniform component 53 comprises a mounting bar 531 fixedly connected between the two groups of transmission bars 523 and a stirring plate 532 fixedly connected at the upper end of the mounting bar 531, the stirring plate 532 is uniformly provided with a plurality of groups, the stirring plates 532 of the plurality of groups are arranged at intervals with the radiating fins 514 of the plurality of groups, when the two groups of electric telescopic rods 521 drive the two groups to move to obtain C-shaped fixing bars 522, the four groups of transmission bars 523 can be driven to move, the two groups of mounting bars 531 can drive the plurality of groups of stirring plates 532 to stir the water below the copper plate 512 through the two groups of mounting bars 531, so that the temperature of the water is uniform, the flow component 31 comprises a water inlet part 312 of a water pump fixedly arranged on the other side of the heat preservation box body 1 in a penetrating way and a water tank 311 fixedly connected with the other end of the water inlet part 312 in a penetrating way, the water inlet part 312 of the water pump is electrically connected with the control part 4, a water outlet pipe 313 is fixedly connected between the water tank 311 and the other side of the heat preservation box body 1 in a penetrating way, the water outlet pipe 313 is arranged at intervals with the water inlet part 312 of the water pump, the water tank 311 is filled with water, the water inside the heat preservation box body 1 can be conveyed into the water tank 311 through the water inlet part 312 of the water pump, the water inside the water tank 311 can enter the heat preservation box body 1 through the water outlet pipe 313, so that the water balance inside the heat preservation box body 1 can be maintained, the control part 4 can control the opening and closing of the water inlet part 312 of the water pump, the cooling component 32 comprises a heat preservation shell 321 fixedly connected at the upper end of the water tank 311 and a heat conducting piece 322 fixedly connected between the heat preservation shell 321 and the water tank 311 in a penetrating way, and the conducting strip 322 is provided with the multiunit, can realize the heat conduction inside the heat preservation casing 321 and the conducting strip 322 through the conducting strip 322 of multiunit, cooling part 32 still includes the semiconductor refrigeration portion 323 that runs through the fixed setting in heat preservation casing 321 one side and sets up the hot junction radiating portion 324 in semiconductor refrigeration portion 323 opposite side, and semiconductor refrigeration portion 323 and hot junction radiating portion 324 all are with control portion 4 electric connection, can make the inside air temperature of heat preservation casing 321 reduce fast through semiconductor refrigeration portion 323, heat exchange rate of inside and outside air can be reduced to heat preservation casing 321, the hot junction radiating portion 324 can dispel the heat of semiconductor refrigeration portion 323, can control opening and close of semiconductor refrigeration portion 323 and hot junction radiating portion 324 through control portion 4.

The emergency power supply main body 6 is placed in the heat preservation box body 1, the heat preservation box body 1 is clamped with the box cover 2, when the temperature sensor 7 detects that the temperature of the emergency power supply main body 6 exceeds thirty ℃, the water inlet 312 of the water pump is controlled by the control part 4 to enable water to circularly flow between the water tank 311 and the water outlet 313, the heat preservation box body 1 and the water inlet 312 of the water pump, the semiconductor refrigerating part 323 and the hot end radiating part 324 are controlled by the control part 4 to enable the air temperature in the heat preservation shell 321 to be reduced, the heat conduction is carried out through the plurality of groups of heat conducting fins 322, so that the temperature of the water in the water tank 311 is reduced, the heat of the emergency power supply main body 6 can be conducted into the water through the copper plate 512 and the radiating fins 514, the water can be cooled corresponding to the emergency power supply main body 6 through the flow of the water, the performance and the service life of the automobile emergency power supply are prevented from being damaged, the electric telescopic rod 521 is controlled to be started through the control part 4, the two groups of mounting bars 531 and the stirring plates 532 are enabled to reciprocate, the water inside the heat preservation box body 1 can be stirred, the temperature of the water is uniform, the contact area between the copper plate 512 and the emergency power supply main body 6 is large, the cooling effect of the emergency power supply main body 6 can be improved until the temperature sensor 7 detects that the internal temperature of the emergency power supply main body 6 is lower than twenty ℃, the electric telescopic rod 521, the water pump water inlet part 312, the semiconductor refrigerating part 323 and the hot end radiating part 324 are controlled to be closed through the control part 4, the opening and closing of the temperature regulation cooling structure of the emergency power supply main body 6 can be enabled to keep the optimal storage temperature, the electric power can be saved, the energy consumption can be reduced, the rapid temperature change of the emergency power supply main body 6, which causes shrinkage or deformation of internal elements, can be avoided through indirect heat radiation of water.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Cooling structure based on car emergency power source, including insulation can body (1) and rotate case lid (2) of connecting in insulation can body (1) upper end, and connect through the buckle block between insulation can body (1) and case lid (2), treat emergency power source main part (6) one side embedding of cooling and be provided with temperature sensor (7), its characterized in that: a cooling component (5) for radiating is arranged inside the heat preservation box body (1), a control part (4) is fixedly arranged on one side of the heat preservation box body (1), the control part (4) is electrically connected with a temperature sensor (7), and a refrigerating component (3) for enabling water to flow and cool is arranged on the other side of the heat preservation box body (1) in a penetrating manner;

the cooling assembly (5) comprises a limiting heat conducting component (51) arranged inside the heat insulation box body (1) and two driving components (52) arranged on two sides of the limiting heat conducting component (51) respectively, wherein uniform components (53) are arranged between the driving components (52) in two groups, the cooling assembly (3) comprises a flowing component (31) penetrating through the other side of the heat insulation box body (1) and a cooling component (32) penetrating through the upper end of the flowing component (31), the limiting heat conducting component (51) is used for placing an emergency power supply main body (6) and conducting heat, the driving components (52) are used for driving the uniform components (53) to move, the uniform components (53) are used for enabling water to flow inside the heat insulation box body (1), and the cooling component (32) is used for cooling the water inside the flowing component (31).

2. The cooling structure based on an automobile emergency power supply according to claim 1, wherein: spacing heat conduction part (51) include both sides all with heat preservation box (1) inner wall fixed connection's copper (512) and fixed connection at copper (512) lower extreme radiating fin (514), and radiating fin (514) are provided with the multiunit, hold water liquid between copper (512) and heat preservation box (1) bottom, copper (512) upper end and laminating of emergency power source main part (6) lower extreme, copper (512) upper end is close to both sides edge and all fixedly connected with closing plate (513), two sets of closing plate (513) upper end fixedly connected with spacing frame (511), and spacing frame (511) surface and heat preservation box (1) inner wall fixed connection, spacing frame (511) inboard and laminating of emergency power source main part (6) surface.

3. The cooling structure based on the automobile emergency power supply according to claim 2, wherein: the driving part (52) comprises an electric telescopic rod (521) with one end fixedly connected with the inner wall of the insulation box body (1) and a C-shaped fixing strip (522) fixedly connected with the other end of the electric telescopic rod (521), the electric telescopic rod (521) is electrically connected with the control part (4), and two ends of the C-shaped fixing strip (522) are fixedly connected with a transmission strip (523).

4. A cooling structure based on an automotive emergency power supply according to claim 3, characterized in that: the heat preservation box (1) opposite side inner wall fixedly connected with guide plate (524), and guide plate (524) symmetry is provided with two sets of, another set of guide plate (524) one side and closing plate (513) one side fixed connection, and two sets of transmission strip (523) run through the setting from two sets of guide plate (524) between, two sets of guide plate (524) top cavity hold the air.

5. A cooling structure based on an automotive emergency power supply according to claim 3, characterized in that: the even part (53) is provided with two sets of, even part (53) including fixed connection two sets of installing strip (531) between driving strip (523) and fixed connection stir board (532) in installing strip (531) upper end, and stir board (532) evenly be provided with the multiunit, multiunit stir board (532) with multiunit radiating fin (514) interval setting.

6. The cooling structure based on an automobile emergency power supply according to claim 1, wherein: the flow component (31) comprises a water inlet part (312) of the water pump, which is fixedly arranged on the other side of the heat insulation box body (1) in a penetrating manner, and a water tank (311) which is fixedly connected to the other end of the water inlet part (312) in a penetrating manner, the water inlet part (312) of the water pump is electrically connected with the control part (4), a water outlet pipe (313) is fixedly connected between the water tank (311) and the other side of the heat insulation box body (1) in a penetrating manner, the water outlet pipe (313) and the water inlet part (312) of the water pump are arranged at intervals, and water is filled in the water tank (311).

7. The cooling structure based on the automobile emergency power supply according to claim 6, wherein: the cooling component (32) comprises a heat-insulating shell (321) fixedly connected to the upper end of the water tank (311) and heat-conducting fins (322) penetrating through the heat-insulating shell (321) and fixedly connected between the water tank (311), and the heat-conducting fins (322) are provided with a plurality of groups.

8. The cooling structure based on an automobile emergency power supply according to claim 7, wherein: the cooling component (32) further comprises a semiconductor refrigerating part (323) which is fixedly arranged on one side of the heat preservation shell (321) in a penetrating mode and a hot end radiating part (324) which is arranged on the other side of the semiconductor refrigerating part (323), and the semiconductor refrigerating part (323) and the hot end radiating part (324) are electrically connected with the control part (4).