CN116979664A - Heat abstractor of portable power source group - Google Patents

Abstract

The application discloses a heat abstractor of a mobile power pack, which relates to the technical field of mobile power, and comprises a mobile power pack body, wherein an inner groove is formed in the center of the lower end part of the mobile power pack body, communication grooves are symmetrically formed in the inner side wall of the inner groove, the two communication grooves are communicated with the lower end part of the mobile power pack body, and heat radiating fins are adhered to the inner part of the inner groove; the adjustment mechanism includes the link, two links fixed mounting respectively on portable power source group body both sides lateral wall, equal fixed mounting has the fixed strip on the one end that portable power source group body was kept away from to two links, equal symmetry has been seted up the second dovetail on the lateral wall of one side that portable power source group body was kept away from to two fixed strips for the portable power source group body can accomplish unsettled state when placing, and then ensured its radiating effect, and sunshine when being in the open air can not direct irradiation on the portable power source group body, has effectively avoided the continuous rising of its temperature, and then reverse radiating effect that has improved equipment.

Description

Heat abstractor of portable power source group

Technical Field

The application relates to the technical field of mobile power supplies, in particular to a heat dissipation device of a mobile power supply unit.

Background

With the development of the age, various portable electronic devices such as mobile phones and tablet computers are quite popular, however, various electronic devices are equipped with rechargeable batteries with different specifications, the capacity of the rechargeable batteries is limited, when a business trip is over, the electronic devices are often shut down due to insufficient electric quantity, so that various inconveniences are brought to the work and life of people, various mobile power supplies are present on the market at present for timely charging the electronic devices, and the various electronic devices can be powered, but the conventional mobile power supply group has the following defects when in use:

1. the existing mobile power supply set is high in power, and when the electronic equipment is charged, large heat is often generated, and the heat accumulation easily causes the internal temperature of the mobile power supply set to be too high, so that certain parts on a power supply and a circuit board are burnt out, and economic loss is caused;

2. when the mobile power supply is used, the mobile power supply can be influenced by external force to generate vibration and impact force, and the heat radiating fins arranged in the mobile power supply are easy to fall off from the mobile power supply under the action of the vibration and impact force, so that the phenomenon of short circuit or open circuit is generated, and the mobile power supply is damaged;

3. when the mobile power supply is used outdoors, the power supply is easy to be directly irradiated by sunlight, so that the surface temperature of the power supply is easy to rise and is difficult to drop, and the heat dissipation effect of the power supply is further reduced.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the application provides the radiating device of the mobile power supply unit, which solves the technical problems that the existing mobile power supply unit is high in power, large heat is often generated when electronic equipment is charged, the heat accumulation easily causes the internal temperature of the mobile power supply unit to be too high, and further causes the burning of certain parts on a power supply and a circuit board, so that economic loss is caused, and when the mobile power supply is used outdoors, the power supply is easy to direct irradiation of sunlight, the surface temperature of the power supply is easily caused to be high, the temperature is difficult to drop, and the radiating effect of the power supply is easily reduced.

(II) technical scheme

In order to achieve the above purpose, the application is realized by the following technical scheme:

the heat dissipation device of the mobile power pack comprises a mobile power pack body, wherein an inner groove is formed in the center of the lower end part of the mobile power pack body, communication grooves are symmetrically formed in the inner side wall of the inner groove, the two communication grooves are communicated with the lower end part of the mobile power pack body, and heat dissipation fins are adhered to the inner part of the inner groove;

the heat conducting strips are fixedly arranged on the side walls of the two sides of the radiating fin, the two heat conducting strips are respectively arranged in the two communicating grooves, a fan assembly is detachably arranged in the inner wall of the inner groove, the fan assembly is positioned right below the radiating fin and is attached to the radiating fin, U-shaped side blocks are symmetrically and fixedly arranged on the side walls of the two sides of the mobile power pack body, and central columns are fixedly arranged in the two U-shaped side blocks;

the side walls of the two sides of the mobile power pack body are fixedly provided with adjusting mechanisms;

the adjusting mechanism comprises connecting frames, the two connecting frames are respectively and fixedly installed on the side walls of two sides of the mobile power pack body, and fixing strips are fixedly installed on one ends, far away from the mobile power pack body, of the two connecting frames.

Preferably: the side walls of one side, far away from the mobile power pack body, of the two fixing strips are symmetrically provided with second dovetail grooves;

wherein, T-shaped grooves are respectively formed at the upper end and the lower end of the two fixing strips.

Preferably: dovetail strips are slidably arranged in the two groups of second dovetail grooves;

and the upper ends and the lower ends of the two fixing strips are symmetrically and slidably provided with limiting strips.

Preferably: the inner side wall of each U-shaped side block is provided with a first dovetail groove, and the inner side wall of each U-shaped side block is symmetrically provided with slots;

each dovetail strip is matched with the first dovetail groove, and each limit strip is matched with the slot.

Preferably: the two groups of center posts are respectively sleeved with a turning rod;

wherein, two sets of the upset pole upper end is all fixed mounting has the guard plate.

Preferably: the upper end parts of the two protection plates are provided with accommodating grooves;

wherein, two the both sides lateral wall of guard plate is gone up and is all offered first spout.

Preferably: auxiliary sun visors are slidably arranged in the two accommodating grooves;

wherein, two the auxiliary sun visor upper end is fixed in and is equipped with the magnetic stripe, two the magnetic stripe upper end opposite attraction.

Preferably: the side walls of the two sides of the auxiliary sun shield are fixedly provided with first sliding blocks;

the two groups of first sliding blocks are respectively and slidably arranged in the two groups of first sliding grooves.

Preferably: a fixed plate is fixedly arranged on the side wall of one side, away from the two protection plates;

wherein triangular blocks are symmetrically and fixedly arranged on the inner side walls of the two fixing plates.

Preferably: second sliding grooves are symmetrically formed in the inner walls of the two fixing plates;

the two fixing plates are internally provided with protection blocks, second sliding blocks are fixedly arranged on side walls of two sides of the protection blocks, and two groups of second sliding blocks are respectively and slidably arranged in two groups of second sliding grooves.

(III) beneficial effects

Firstly, through the design of a mobile power pack body, slots, dovetail strips, a first dovetail groove and a turnover rod, the turnover rod can be turned clockwise at the moment when being pulled out of the two groups of slots under the pulling of a limit strip, the turnover rod can be perpendicular to the mobile power pack body after being turned over by 90 degrees, the dovetail strips can be pulled towards two ends at the moment, the dovetail strips slide into the first dovetail groove under the movement of the dovetail strips, the dovetail strips are kept perpendicular to the turnover rod at the moment, and then the clamping connection of the dovetail strips is completed, so that the stability of the turnover rod is higher when the turnover rod is adjusted and placed, and the phenomenon of dislocation sliding is not easy to occur;

secondly, through the design of the mobile power pack body, the radiating fins, the heat conducting strips, the fan assembly and the turnover rods, the four turnover rods are in contact with the ground after being turned over, so that the mobile power pack body is supported to be suspended, heat generated by the operation inside the mobile power pack body is absorbed on the radiating fins, then the fan assembly can be started, the heat on the radiating fins can be sucked out under the action of the fan assembly, heat dissipation is completed, and the mobile power pack body can be suspended when being placed by the method of erecting the mobile power pack body, so that the heat dissipation effect of the mobile power pack body is ensured;

thirdly, through the design of the mobile power pack body, the radiating fins and the heat conducting strips, when wind blows on the ground, the lower ends of the blowing heat conducting strips vertically swing, at the moment, part of heat of the radiating fins is transmitted to the heat conducting strips, and the radiating effect of the heat conducting strips can be accelerated through the blown wind, so that the two heat conducting strips can achieve the auxiliary radiating effect of the mobile power pack body, and the radiating effect of equipment is further enhanced;

fourth, through the design of portable power source group body, the turnover rod, the guard plate, the triangular block, the second spout, protection piece and second slider, because two guard plates are fixed with the turnover rod, therefore two guard plates will keep vertical state, two guard plates will play the guard action to portable power source group body this moment, make the guard effect of this equipment better, and when external force strikes on portable power source group body, will act on protection piece earlier this moment, because the fillet has been seted up to protection piece lower extreme, external force will promote protection piece this moment, protection piece will drive the second slider that is fixed with it and take place the slip in the second spout this moment, when protection piece upwards moves, it will contact with the triangular block this moment, will produce interference fit between the two, and then carry out the diversion diffusion to the impact force, further strengthened the guard effect of equipment, the life of equipment has been strengthened;

fifthly, through the design of the mobile power pack body, the first sliding groove, the auxiliary sun shield, the magnetic strips and the first sliding blocks, the two auxiliary sun shields are pulled out to respectively drive the first sliding blocks fixed with the two auxiliary sun shields to slide in the first sliding groove, after the two auxiliary sun shields are attached, the two magnetic strips are opposite to each other to absorb the two auxiliary sun shields, and then the upper part of the mobile power pack body is shielded, so that sunlight can not directly irradiate the mobile power pack body outdoors, the continuous temperature rise of the two auxiliary sun shields is effectively avoided, and the heat dissipation effect of equipment is reversely improved;

sixth, through the design of slot, forked tail strip, spacing and first dovetail, accessible forked tail strip accomplishes the joint when needs are adjusted the upset pole upper and lower both ends, and accessible spacing accomplishes the joint when needs make the upset pole keep with portable power source group body horizontal position on, and then effectively guaranteed the wholeness of equipment, further strengthened its stable effect of operation, make it be difficult for taking place to shake and appear fin and portable power source group body take place the phenomenon that breaks away from, ensured the operating efficiency of portable power source group body.

Drawings

The foregoing description is only an overview of the present application, and is intended to provide a better understanding of the present application, as it is embodied in the following description, with reference to the preferred embodiments of the present application and the accompanying drawings.

FIG. 1 is a perspective view of the present application;

FIG. 2 is a perspective exploded view of the present application;

FIG. 3 is a diagram of the connecting explosion structure of the tilting lever of the present application;

FIG. 4 is a diagram of a connecting structure of a fixing strip according to the present application;

FIG. 5 is a schematic diagram of a connecting explosion structure of a stop bar according to the present application;

fig. 6 is a view showing a connection structure of the auxiliary sunshade plate according to the present application;

FIG. 7 is a schematic diagram of a magnetic stripe connection explosion configuration of the present application;

fig. 8 is a diagram showing the construction of the protection block connection explosion structure of the present application.

Legend description: 11. a mobile power pack body; 12. an inner tank; 13. a communication groove; 14. a heat sink; 15. a thermally conductive strip; 16. a fan assembly; 17. u-shaped side blocks; 18. a center column; 19. a slot; 21. a connecting frame; 22. a fixing strip; 23. a second dovetail groove; 24. a T-shaped groove; 25. dovetail strips; 26. a limit bar; 27. a first dovetail groove; 31. turning over the rod; 32. a protection plate; 33. a receiving groove; 34. a first chute; 35. auxiliary sunshading board; 36. a magnetic stripe; 37. a first slider; 41. a fixing plate; 42. triangular blocks; 43. a second chute; 44. a protective block; 45. and a second slider.

Detailed Description

The embodiment of the application effectively solves the problems that the existing mobile power supply set has larger power, larger heat is often generated when the electronic equipment is charged, the heat accumulation easily causes the internal temperature of the mobile power supply set to be too high, and further causes the burning of certain parts on a power supply and a circuit board, so that economic loss is caused.

Examples

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, the technical scheme in the embodiment of the application is to effectively solve the technical problems that the power of the existing mobile power pack is high, when the electronic equipment is charged, large heat is often generated, the heat accumulation easily causes the internal temperature of the mobile power pack to be too high, and then certain parts on a power supply and a circuit board are burnt out, so that economic loss is caused, and when the mobile power supply is used outdoors, the power supply is easy to be directly irradiated by sunlight, the temperature of the surface of the power supply is easily increased, the temperature of the surface of the power supply is difficult to be reduced, and the heat dissipation effect of the power supply is reduced, and the overall thought is as follows: the heat dissipating double-fuselage of a kind of portable power source, including the body 11 of the portable power source, the body 11 of the portable power source is offered the inner tank 12 in the centre of lower end, offer the communicating slot 13 symmetrically on the inner wall of the inner tank 12, two communicating slots 13 are linked together with body 11 of the portable power source, the inside of the inner tank 12 is glued with the fin 14;

the heat conducting strips 15 are fixedly installed on the side walls of the two sides of the radiating fin 14, the two heat conducting strips 15 are respectively arranged in the two communicating grooves 13, a fan assembly 16 is detachably installed in the inner wall of the inner groove 12, the fan assembly 16 is located right below the radiating fin 14 and is attached to the radiating fin, U-shaped side blocks 17 are symmetrically and fixedly installed on the side walls of the two sides of the mobile power pack body 11, a center column 18 is fixedly installed inside the two U-shaped side blocks 17, after the mobile power pack body 11 is supported, the lower ends of the two heat conducting strips 15 can be taken out of the communicating grooves 13 at the moment so that the lower ends of the two heat conducting strips 15 are exposed and hung outside, wind blown to the right lower side of the mobile power pack body 11 through the fan assembly 16 is diffused at the moment, the lower ends of the blown heat conducting strips 15 are vertically swung, at the moment, part of heat of the radiating fin 14 is transmitted to the heat conducting strips 15, the effect of the heat conducting strips 15 can be accelerated through the blown wind, and the effect of the auxiliary heat dissipation of the mobile power pack body 11 can be further achieved;

the side walls of the two sides of the mobile power pack body 11 are fixedly provided with adjusting mechanisms;

the adjustment mechanism includes link 21, two link 21 fixed mounting respectively on the lateral wall of portable power source group body 11 both sides, equal fixed mounting has fixed strip 22 on the one end that portable power source group body 11 was kept away from to two link 21, second dovetail 23 has all been seted up to equal symmetry on the lateral wall of one side that portable power source group body 11 was kept away from to two fixed strips 22, T-shaped groove 24 has all been seted up at both ends about two fixed strip 22, the inside equal slidable mounting of two sets of second dovetail 23 has dovetail 25, the equal symmetrical slidable mounting in upper and lower both ends of two fixed strips 22 has spacing 26, first dovetail 27 has all been seted up on the inside wall of every U-shaped side piece 17, slot 19 has all been seted up to equal symmetry on the inside wall of every U-shaped side piece 17, every dovetail 25 all suits with first dovetail 27, every spacing 26 all suits with slot 19.

When the fan assembly is used, the two heat conduction strips 15 on the radiating fins 14 can be inserted into the two communication grooves 13 respectively, then the radiating fins 14 can be adhered to the inside of the inner groove 12, then the fan assembly 16 is arranged in the inner groove 12 in a manner of being stuck to the radiating fins 14, at the moment, the two groups of limiting strips 26 can be pulled towards the middle part, the two groups of slots 19 can slide out under the pulling of the limiting strips 26, at the moment, the turnover rod 31 can be turned clockwise, after the turnover rod 31 turns 90 degrees, the turnover rod 31 is vertical to the mobile power supply unit body 11, at the moment, the dovetail strips 25 can be pulled towards the two ends, the dovetail strips 25 can slide into the first dovetail grooves 27 under the movement of the dovetail strips 25, at the moment, the dovetail strips 25 can be kept vertical to the turnover rod 31, and further the clamping connection of the turnover rod 31 is completed, so that the turnover rod 31 is higher in the adjustment and the phenomenon of dislocation sliding is not easy to occur; when the four overturning rods 31 are overturned and then contact with the ground, the mobile power pack body 11 is supported to be suspended, heat generated by the internal operation of the mobile power pack body 11 is absorbed onto the radiating fins 14, then the fan assembly 16 can be started, the heat on the radiating fins 14 can be sucked out under the action of the fan assembly 16, the heat dissipation is completed, and the mobile power pack body 11 can be suspended when placed by the method of erecting the mobile power pack body 11, so that the heat dissipation effect is ensured; through the design of the slot 19, the dovetail strip 25, the limit strip 26 and the first dovetail groove 27, when the turnover rod 31 needs to be regulated to the upper end and the lower end, the dovetail strip 25 can be used for completing the clamping, when the turnover rod 31 needs to be kept at the horizontal position with the mobile power pack body 11, the limit strip 26 can be used for completing the clamping, further the integrity of the equipment is effectively ensured, the operation stability effect is further enhanced, the phenomenon that the radiating fins 14 are separated from the mobile power pack body 11 is not easy to occur due to shaking, the operation efficiency of the mobile power pack body 11 is ensured, the protection plates 32 are fixedly arranged at the upper ends of the two groups of turnover rods 31, the containing grooves 33 are respectively arranged at the upper ends of the two protection plates 32, the first sliding grooves 34 are respectively arranged on the side walls of the two sides of the two protection plates 32, the auxiliary sun shield plates 35 are respectively and slidably arranged in the two containing grooves 33, the upper ends of the two auxiliary sun shield plates 35 are respectively fixedly provided with the magnetic strips 36, the upper ends of the two magnetic strips 36 are opposite to each other, the side walls of the two auxiliary sun shield 35 are fixedly provided with first sliding blocks 37, the two groups of first sliding blocks 37 are respectively and slidably arranged in the two groups of first sliding grooves 34, when the equipment is used outdoors, the ground can be padded by bricks, then the turnover rod 31 can be turned upwards by 90 degrees, the same dovetail strips 25 can be pulled towards the two ends, the dovetail strips 25 slide into the first dovetail grooves 27 under the movement of the dovetail strips 25, the dovetail strips 25 are vertical to the turnover rod 31, the clamping of the dovetail strips is completed, the turnover rod 31 is kept in an upward state, the two auxiliary sun shield 35 can be respectively pulled out from the two accommodating grooves 33, the first sliding blocks 37 fixed with the two auxiliary sun shields 35 are respectively driven to slide in the first sliding grooves 34 after the two auxiliary sun shields 35 are pulled out, after the two auxiliary sun shields 35 are attached, at this time, the opposite attraction of the two magnetic strips 36 can complete the adsorption, and then the upper part of the mobile power pack body 11 can be shielded, so that sunlight can not directly irradiate on the mobile power pack body 11 when the mobile power pack is outdoor, the continuous rise of the temperature of the mobile power pack body is effectively avoided, and the heat dissipation effect of equipment is reversely improved.

The side walls of the two protection plates 32, which are away from each other, are fixedly provided with fixing plates 41, triangular blocks 42 are symmetrically and fixedly arranged on the inner side walls of the two fixing plates 41, second sliding grooves 43 are symmetrically formed in the inner walls of the two fixing plates 41, protection blocks 44 are arranged in the two fixing plates 41, and round corners are formed at the lower ends of the protection blocks 44; the second sliding blocks 45 are fixedly arranged on the side walls of the two sides of the two protection blocks 44, the two groups of second sliding blocks 45 are respectively and slidably arranged in the two groups of second sliding grooves 43, the turnover rod 31 is kept in a horizontal state with the mobile power pack body 11 in an initial state, the two protection plates 32 are fixed with the turnover rod 31, so that the two protection plates 32 are kept in a vertical state, the two protection plates 32 play a protection role on the mobile power pack body 11, the protection effect of the equipment is better, when external force impacts on the mobile power pack body 11, the protection blocks 44 are firstly acted, the external force pushes the protection blocks 44 due to the fact that the lower end portions of the protection blocks 44 are provided with round corners, the protection blocks 44 drive the second sliding blocks 45 fixed with the protection blocks to slide in the second sliding grooves 43, when the protection blocks 44 move upwards, the protection blocks are contacted with the triangular blocks 42, interference fit is generated between the protection blocks, impact force is diffused, the protection effect of the equipment is further enhanced, and the service life of the equipment is prolonged.

According to the heat dissipation device of the mobile power pack, through the design of the mobile power pack body 11, the heat dissipation fins 14, the heat conduction strips 15, the fan assembly 16 and the turnover rods 31, the four turnover rods 31 are turned over and then contact with the ground, so that the mobile power pack body 11 is supported to be suspended, heat generated by the internal operation of the mobile power pack body 11 is absorbed onto the heat dissipation fins 14, then the fan assembly 16 can be started, the heat on the heat dissipation fins 14 can be sucked out under the action of the fan assembly 16, heat dissipation is completed, and the suspended state of the mobile power pack body 11 can be achieved when the mobile power pack body 11 is placed by the method of erecting the mobile power pack body 11, so that the heat dissipation effect of the mobile power pack is ensured.

Working principle:

firstly, when the heat conduction device is used, two heat conduction strips 15 on a radiating fin 14 can be inserted into two communication grooves 13 respectively, then the radiating fin 14 can be adhered to the inside of an inner groove 12, then a fan assembly 16 is installed in the inner groove 12 along with the radiating fin 14, at the moment, two groups of limiting strips 26 can be pulled towards the middle part, the two groups of slots 19 slide out under the pulling of the limiting strips 26, at the moment, a turnover rod 31 can be turned clockwise, after the turnover rod 31 turns 90 degrees, the turnover rod 31 is perpendicular to a mobile power supply unit body 11, at the moment, dovetail strips 25 can be pulled towards two ends, the turnover rod 25 can slide into a first dovetail groove 27 under the movement of the dovetail strips 25, at the moment, the dovetail strips 25 are perpendicular to the turnover rod 31, and then the clamping connection of the turnover rod 31 is completed, so that the stability of the turnover rod 31 is higher when the turnover rod 31 is adjusted and placed, and the phenomenon of dislocation sliding is not easy to occur;

secondly, when the four overturning rods 31 are overturned and then contact with the ground, the mobile power pack body 11 is supported to be suspended, heat generated by the internal operation of the mobile power pack body 11 is absorbed onto the radiating fins 14, then the fan assembly 16 can be started, the heat on the radiating fins 14 can be sucked out under the action of the fan assembly 16, the heat dissipation is completed, and the mobile power pack body 11 can be suspended when being placed by the method of erecting the mobile power pack body 11, so that the heat dissipation effect is ensured;

thirdly, after the mobile power pack body 11 is supported, the lower ends of the two heat conducting strips 15 can be taken out from the communication groove 13 at this time, so that the two heat conducting strips 15 are exposed and hung outside, wind blown to the position right below the mobile power pack body 11 through the fan assembly 16 is blown on the ground at this time, and is diffused when the wind is blown on the ground, so that the lower ends of the heat conducting strips 15 are blown to swing vertically, at this time, part of heat of the radiating fins 14 is transmitted to the heat conducting strips 15, the radiating effect of the heat conducting strips 15 can be accelerated through the blown wind, and further the two heat conducting strips 15 can achieve the auxiliary radiating effect of the mobile power pack body 11, and the radiating effect of equipment is further enhanced;

fourth, in the initial state, the turning rod 31 will keep a horizontal state with the mobile power pack body 11, at this moment, because the two protection plates 32 are fixed with the turning rod 31, the two protection plates 32 will keep a vertical state, at this moment, the two protection plates 32 will play a role in protecting the mobile power pack body 11, so that the protection effect of the equipment is better, and when external force impacts on the mobile power pack body 11, the protection block 44 will act first, because the lower end of the protection block 44 is provided with a round angle, at this moment, the external force will push the protection block 44, at this moment, the protection block 44 will drive the second sliding block 45 fixed with the protection block to slide in the second sliding groove 43, at this moment, when the protection block 44 moves upwards, the protection block will contact the triangular block 42, interference fit will be generated between the protection block and the triangular block, and then the impact force will be dispersed in a direction-changing way, so that the protection effect of the equipment is further enhanced, and the service life of the equipment is enhanced;

fifthly, when the equipment is used outdoors, the ground can be padded by using bricks, then the overturning rod 31 can be overturned upwards by 90 degrees, at the moment, the same dovetail strips 25 can be pulled towards the two ends, the dovetail strips 25 can slide into the first dovetail grooves 27 under the movement of the dovetail strips 25, at the moment, the dovetail strips 25 are vertical to the overturning rod 31, the clamping of the dovetail strips is completed, the overturning rod 31 is kept in an upward state, at the moment, the two auxiliary sun visors 35 can be pulled out of the two accommodating grooves 33 respectively, after the two auxiliary sun visors 35 are pulled out, the first sliding blocks 37 fixed with the two auxiliary sun visors 35 are respectively driven to slide in the first sliding grooves 34, after the two auxiliary sun visors 35 are attached, at the moment, the two magnetic strips 36 are in opposite attraction to each other to complete the adsorption, and then the upper part of the mobile power pack body 11 is shielded, so that sunlight can not directly irradiate on the mobile power pack body 11 when the equipment is outdoors, the continuous temperature rise of the mobile power pack body is effectively avoided, and the heat dissipation effect of the equipment is reversely improved;

sixth, through the design of slot 19, forked tail strip 25, spacing 26 and first dovetail 27, accessible forked tail strip 25 accomplishes the joint when needs are adjusted turnover rod 31 upper and lower both ends, accessible spacing 26 accomplishes the joint when needs make turnover rod 31 keep with portable power source group body 11 horizontal position, and then effectively guaranteed the wholeness of equipment, further strengthened its stable effect of operation, the phenomenon that fin 14 takes place to break away from with portable power source group body 11 appears in the difficult shake that makes it take place, has guaranteed the operating efficiency of portable power source group body 11.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present application and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present application.

Claims (10)

1. The heat dissipation device of the mobile power pack comprises a mobile power pack body (11), wherein an inner groove (12) is formed in the center of the lower end part of the mobile power pack body (11), and communication grooves (13) are symmetrically formed in the inner side wall of the inner groove (12), and the heat dissipation device is characterized in that the two communication grooves (13) are communicated with the lower end part of the mobile power pack body (11), and heat dissipation fins (14) are adhered to the inner part of the inner groove (12);

the heat conduction device comprises a radiating fin (14), wherein heat conduction strips (15) are fixedly arranged on side walls of two sides of the radiating fin (14), the two heat conduction strips (15) are respectively arranged in two communicating grooves (13), a fan assembly (16) is detachably arranged in the inner wall of each inner groove (12), the fan assembly (16) is positioned right below the radiating fin (14) and is attached to the radiating fin, U-shaped side blocks (17) are symmetrically and fixedly arranged on side walls of two sides of a mobile power pack body (11), and center columns (18) are fixedly arranged in the two U-shaped side blocks (17);

the side walls of the two sides of the mobile power pack body (11) are fixedly provided with adjusting mechanisms;

the adjusting mechanism comprises connecting frames (21), wherein the two connecting frames (21) are respectively and fixedly arranged on the side walls of the two sides of the mobile power pack body (11), and fixing strips (22) are fixedly arranged at one ends, far away from the mobile power pack body (11), of the two connecting frames (21).

2. The heat dissipating apparatus of a portable power pack of claim 1, wherein: the side walls of one side, far away from the mobile power pack body (11), of the two fixing strips (22) are symmetrically provided with second dovetail grooves (23);

wherein T-shaped grooves (24) are formed in the upper end and the lower end of the two fixing strips (22).

3. The heat dissipating apparatus of a portable power pack of claim 2, wherein: dovetail strips (25) are slidably arranged in the two groups of second dovetail grooves (23);

wherein, the upper and lower both ends of two fixed bars (22) are both symmetrical slidable mounting has spacing (26).

4. A heat sink for a portable power pack as claimed in claim 3, wherein: the inner side wall of each U-shaped side block (17) is provided with a first dovetail groove (27), and the inner side wall of each U-shaped side block (17) is symmetrically provided with slots (19);

each dovetail strip (25) is matched with a first dovetail groove (27), and each limit strip (26) is matched with a slot (19).

5. The heat dissipating apparatus of a portable power pack of claim 1, wherein: the two groups of center posts (18) are respectively sleeved with a turning rod (31);

wherein, two sets of upset pole (31) upper end all fixed mounting have guard plate (32).

6. The heat dissipating apparatus of a portable power pack of claim 5, wherein: the upper end parts of the two protection plates (32) are provided with accommodating grooves (33);

wherein, the side walls of both sides of the two protection plates (32) are provided with first sliding grooves (34).

7. The heat dissipating apparatus of a portable power pack of claim 6, wherein: auxiliary sun visors (35) are slidably arranged in the two accommodating grooves (33);

wherein, two auxiliary sun shield (35) upper end are all fixed to be equipped with magnetic stripe (36) in, two magnetic stripe (36) upper end opposite attraction.

8. The heat dissipating apparatus of claim 7, wherein: the side walls of the two sides of the two auxiliary sun visors (35) are fixedly provided with first sliding blocks (37);

wherein, two groups of first sliding blocks (37) are respectively and slidably arranged in two groups of first sliding grooves (34).

9. The heat dissipating apparatus of a portable power pack of claim 6, wherein: a fixed plate (41) is fixedly arranged on the side wall of one side, which is away from the two protection plates (32);

wherein triangular blocks (42) are symmetrically and fixedly arranged on the inner side walls of the two fixing plates (41).

10. The heat dissipating apparatus of a portable power pack of claim 9, wherein: second sliding grooves (43) are symmetrically formed in the inner walls of the two fixing plates (41);

the two fixing plates (41) are internally provided with protection blocks (44), second sliding blocks (45) are fixedly arranged on the side walls of two sides of the protection blocks (44), and two groups of second sliding blocks (45) are respectively and slidably arranged in two groups of second sliding grooves (43).