CN116864884A

CN116864884A - New energy battery heat dissipation shock mounting

Info

Publication number: CN116864884A
Application number: CN202310242142.8A
Authority: CN
Inventors: 林素娜
Original assignee: Shenzhen Huahang Energy Co ltd; Beijing Runjiehaoda Technology Co ltd
Current assignee: Shenzhen Huahang Energy Co ltd
Priority date: 2023-03-06
Filing date: 2023-03-06
Publication date: 2023-10-10
Anticipated expiration: 2043-03-06
Also published as: CN116864884B

Abstract

The invention relates to the technical field of new energy batteries, in particular to a heat dissipation and shock absorption device for the new energy batteries, which comprises a battery storage box, wherein four corners of the inner bottom surface of the battery storage box are respectively provided with a shock absorption connecting hole, the four corners of the box opening of the battery storage box are respectively fixedly provided with a first corner convex block, first support cylindrical sliding rods are welded between the first corner convex blocks, the four sides of the battery storage box are respectively provided with a heat dissipation hole, a sealing box cover is fixedly arranged on the battery storage box, a shock absorption supporting bottom plate is arranged in the battery storage box, the new energy batteries are placed on the shock absorption supporting bottom plate, and the shock absorption protection for the new energy batteries is realized under the combined action of a first shock absorption spring, a second shock absorption spring, a third shock absorption spring and an elastic shock absorption sheet, so that the safety of the new energy batteries in the use process is greatly improved.

Description

New energy battery heat dissipation shock mounting

Technical Field

The invention relates to the technical field of new energy batteries, in particular to a new energy battery heat dissipation and vibration prevention device.

Background

As the battery pack equipment of new forms of energy, because its environmental protection is clean energy-conserving, it is used widely to be promoted widely, especially in new forms of energy automobile trade has obtained extensive application, traditional battery pack generally adopts at the battery equipment of case installation, during operation, can give off high temperature, because the rising of temperature can lead to the fact adverse effect to the work of battery pack, the phenomenon that easily takes place the battery damage, thereby cause certain economic loss, in addition new forms of energy battery is in the in-process of using, because the box lacks damper, make new forms of energy battery can take place comparatively great vibrations, not only can influence new forms of energy battery's normal work, also probably because the vibrations cause new forms of energy battery's damage simultaneously, reduce new forms of energy battery's life.

Disclosure of Invention

The invention aims to provide a new energy battery heat dissipation and vibration prevention device so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a new energy battery heat dissipation shock mounting, includes the battery and deposits the case, four angles in the interior bottom surface of battery deposit the case are respectively equipped with the shock attenuation connecting hole, and four angles in the case mouth of battery deposit the case are respectively fixed and are provided with first angle lug, the welding has first support cylinder slide bar between the first angle lug, has seted up the louvre on four sides of battery deposit the case respectively, fixed mounting has sealed case lid on the battery deposit the case, fixed limiting shock cylinder that is provided with on the interior top surface central point of sealed case lid, and set up the mounting groove on the up end of sealed case lid, the inside four angles of mounting groove are respectively fixed and are provided with the second angle lug, fixed be provided with the second support cylinder slide bar between the second angle lug, be close to its four lateral walls on the sealed case lid and do not be equipped with removal jack and installation through-hole, the removal jack is in between the lateral wall of installation through-hole and sealed case lid, new energy battery heat dissipation link gear is deposited to battery and is installed on the sealed case lid.

Preferably, the new energy battery heat dissipation and shock absorption linkage mechanism comprises a shock absorption supporting bottom plate, a first shock absorption spring, a connecting push-pull rod, a side movable baffle, a side shock absorption limiting plate, a second shock absorption spring, a shock absorption limiting pressure plate, a third shock absorption spring, a heat dissipation rack, a limiting spring, a heat dissipation gear and a matched bearing, wherein the shock absorption supporting bottom plate is inserted into the battery storage box, and four corners of the lower end of the shock absorption supporting bottom plate are respectively welded with an elastic shock absorption sheet.

Preferably, the lower extreme of elasticity shock attenuation piece is fixed to be provided with the support disc, the lower extreme welding of support disc has the shock attenuation spliced pole, the shock attenuation spliced pole part is pegged graft in the shock attenuation connecting hole, and has cup jointed first damping spring on the shock attenuation spliced pole.

Preferably, the four sides of the upper end surface of the damping support bottom plate are respectively fixedly provided with a connecting frame, a connecting push-pull rod is hinged on the connecting frame, and the upper end of the connecting push-pull rod is hinged at one end of the lower side of the side movable baffle.

Preferably, the side movable baffle contacts with the inner wall of the battery storage box, and a supporting sliding hole is formed in the side movable baffle, a first supporting cylindrical sliding rod is inserted into the supporting sliding hole, and a connecting vertical rod is fixedly arranged at the middle position of the upper end of the side movable baffle.

Preferably, the movable jack is formed in the side movable baffle, the movable jack is inserted with a movable inserting column, the movable inserting column is fixedly arranged on the side damping limiting plate, an antifriction roller is arranged on the end face, far away from the wall of the battery storage box, of the side damping limiting plate, and a second damping spring is sleeved on the movable inserting column.

Preferably, the upper end welding of the spacing pressure disk of shock attenuation has the shock attenuation spliced pole, third damping spring has been cup jointed on the shock attenuation spliced pole, and the shock attenuation spliced pole part is pegged graft in spacing shock cylinder, the heat dissipation rack is four, installs in the mounting groove, and has seted up the cooperation slide hole on the heat dissipation rack, it has the second to support the cylinder slide bar to peg graft in the cooperation slide hole, has seted up the connection jack on the lower terminal surface of heat dissipation rack, it has the connection pole setting to peg graft in the connection jack, limiting spring cup joints on the second supports the cylinder slide bar, and the heat dissipation rack meshing has the heat dissipation gear.

Preferably, the lower extreme of heat dissipation gear is fixed and is provided with the installation spliced pole, the installation spliced pole is pegged graft in the installation through-hole, and has cup jointed the cooperation bearing on the installation spliced pole, and the lower extreme of installation spliced pole is fixed and is provided with the radiating leaf, the radiating leaf is in the inside of sealed case lid.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality and has the following advantages:

1. the inside at the battery case of depositing is provided with shock attenuation braced bottom plate, place the new energy battery on shock attenuation braced bottom plate, carry out spacing installation through side shock attenuation limiting plate and the spacing pressure disk of shock attenuation, realize the shock attenuation protection to the new energy battery simultaneously under first damping spring, second damping spring, third damping spring and elastic damping piece's combined action, promoted its security in the use greatly, and the new energy battery is in steady state when not using, can seal up the louvre under side movable baffle's effect like this, avoid the dust in the air to enter into the inside of battery case from the louvre.

2. In the process of using, the new energy battery can shake from top to bottom, will drive side movable baffle like this and carry out horizontal migration, and then can take place the dislocation with the louvre, make the louvre open, it will drive the heat dissipation rack and remove when removing simultaneously, and then can drive the heat dissipation gear and rotate under the effect of heat dissipation rack, and then realize the inside heat dissipation of case is deposited to the battery under the effect of radiating leaf, drive the air flow and distribute away the heat from the louvre, help it dispel the heat when realizing the protection of new energy battery shock attenuation promptly, very practical, the security that can fully guarantee new energy battery to use.

Drawings

Fig. 1 is an exploded view of a battery storage compartment and a sealed case cover assembly.

Fig. 2 is an assembly schematic view of the inside of the battery storage case.

Fig. 3 is a schematic view of the assembly of the sealed box cover.

Fig. 4 is an exploded view of the assembly of the sealed lid.

Fig. 5 is a schematic top view of the battery storage case.

FIG. 6 is a schematic illustration of the connection of a shock absorbing support base plate to a side flapper.

In the figure: 1. a battery storage case; 11. damping connecting holes; 12. a first corner bump; 13. a first support cylindrical slide bar; 14. a heat radiation hole; 2. sealing the box cover; 21. a limiting shock absorption cylinder; 22. a mounting groove; 23. a second corner bump; 24. the second support cylinder slide bar; 25. moving the jack; 26. mounting through holes; 3. a damping support base plate; 31. an elastic damping sheet; 32. a support disc; 33. a shock absorption connecting column; 34. a first damper spring; 4. the push-pull rod is connected; 5. a side movable baffle; 51. a support slide hole; 52. connecting the vertical rods; 53. a movable jack; 6. side damping limiting plates; 61. antifriction rotating rollers; 62. a second damper spring; 7. damping limiting pressure plate; 71. a shock absorption inserted column; 72. a third damper spring; 8. a heat dissipation rack; 81. matching with the sliding hole; 82. a connection jack; 83. a limit spring; 9. a heat dissipation gear; 91. installing a plug; 92. radiating leaves; 93. and (5) matching with a bearing.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 6, the present invention provides a technical solution:

the utility model provides a new energy battery heat dissipation shock mounting, including battery case 1, four angles in the interior bottom surface of battery case 1 are respectively fixed and are provided with shock attenuation connecting hole 11, and the four angles in the case mouth of battery case 1 are respectively fixed and are provided with first angle lug 12, the welding has first support cylinder slide bar 13 between the first angle lug 12, the sealed case lid 2 has been fixedly installed on the battery case 1 respectively on four sides of battery case 1, fixedly be provided with spacing damper 21 on the interior top surface central point of sealed case lid 2, and install mounting groove 22 on the up end of sealed case lid 2, the inside four angles of mounting groove 22 are respectively fixed and are provided with second angle lug 23, fixedly be provided with second support cylinder slide bar 24 between the second angle lug 23, be close to on the sealed case lid 2 and do not be provided with removal jack 25 and installation through-hole 26 on its four lateral walls, remove jack 25 and be in between the lateral wall of installation through-hole 26 and sealed case lid 2, install new energy battery vibration damper on battery case lid 1 and the sealed case lid 2.

The new energy battery heat dissipation and vibration reduction linkage mechanism comprises a vibration reduction supporting bottom plate 3, a first vibration reduction spring 34, a connecting push-pull rod 4, a side movable baffle 5, a side vibration reduction limiting plate 6, a second vibration reduction spring 62, a vibration reduction limiting pressure plate 7, a third vibration reduction spring 72, a heat dissipation rack 8, a limiting spring 83, a heat dissipation gear 9 and a matching bearing 93, wherein the vibration reduction supporting bottom plate 3 is inserted into the battery storage box 1, and four corners of the lower end of the vibration reduction supporting bottom plate 3 are respectively welded with an elastic vibration reduction sheet 31.

The lower extreme of elastic damping piece 31 is fixed and is provided with supporting disk 32, and the lower extreme welding of supporting disk 32 has shock attenuation spliced pole 33, and shock attenuation spliced pole 33 part is pegged graft in shock attenuation connecting hole 11, and has cup jointed first damping spring 34 on the shock attenuation spliced pole 33, and the both ends of first damping spring 34 weld respectively on the lower terminal surface of supporting disk 32 and on the interior bottom surface of battery case 1, and the diameter of shock attenuation spliced pole 33 equals with the diameter of shock attenuation connecting hole 11.

The four sides of the upper end face of the shock absorption supporting bottom plate 3 are respectively fixedly provided with a connecting frame, a connecting push-pull rod 4 is hinged on the connecting frame, the upper end of the connecting push-pull rod 4 is hinged at one end of the lower side of the side movable baffle plate 5, in addition, the side movable baffle plate 5 is contacted with the inner wall of the battery storage box 1, a supporting sliding hole 51 is formed in the side movable baffle plate 5, a first supporting cylindrical sliding rod 13 is inserted into the supporting sliding hole 51, a connecting vertical rod 52 is fixedly arranged at the middle position of the upper end of the side movable baffle plate 5, and in addition, when a new energy battery is placed on the shock absorption supporting bottom plate 3, the side movable baffle plate 5 just covers the radiating hole 14.

The movable jack 53 is arranged on the side movable baffle 5, the movable jack 53 is inserted with a movable inserting column, the movable inserting column is fixedly arranged on the side damping limiting plate 6, the antifriction roller 61 is arranged on the end face, far away from the wall of the battery storage box 1, of the side damping limiting plate 6, the movable inserting column is sleeved with a second damping spring 62, two ends of the second damping spring 62 are respectively welded on the side damping limiting plate 6 and the side movable baffle 5, and when a new energy battery is placed in the battery storage box 1, the antifriction roller 61 is contacted with the new energy battery.

The upper end welding of the spacing pressure disk 7 of shock attenuation has shock attenuation spliced pole 71, third shock attenuation spring 72 has been cup jointed on the shock attenuation spliced pole 71, and shock attenuation spliced pole 71 part is pegged graft in spacing shock-absorbing cylinder 21, the both ends of third shock attenuation spring 72 weld respectively on the spacing pressure disk 7 of shock attenuation and on spacing shock-absorbing cylinder 21, the spacing pressure disk 7 of shock attenuation contacts with the up end of new energy battery, the heat dissipation rack 8 is four, install in mounting groove 22, and the cooperation slide hole 81 has been seted up on the heat dissipation rack 8, peg graft in the cooperation slide hole 81 and have the second support cylinder slide bar 24, connection jack 82 has been seted up on the lower terminal surface of heat dissipation rack 8, peg graft in the connection jack 82 and have connection pole setting 52, spacing spring 83 cup joints on the second support cylinder slide bar 24, the both ends of spacing spring 83 weld respectively on second angular projection 23 and on the heat dissipation rack 8, the heat dissipation rack 8 meshes with heat dissipation gear 9 and heat dissipation rack 8 covers on removal jack 25 all the time.

The lower extreme of heat dissipation gear 9 is fixed to be provided with the installation spliced pole 91, and the installation spliced pole 91 peg graft in installation through-hole 26, and has cup jointed the cooperation bearing 93 on the installation spliced pole 91, and the lower extreme of installation spliced pole 91 is fixed to be provided with the radiating leaf 92, and radiating leaf 92 is in the inside of sealed case lid 2.

The new energy battery is placed in the battery storage box 1 and placed on the shock-absorbing supporting bottom plate 3, the shock-absorbing supporting bottom plate 3 is driven to move downwards under the action of the gravity of the new energy battery, then the side movable baffle 5 is driven to move under the action of the connecting push-pull rod 4, the side movable baffle 5 is just covered at the radiating hole 14 to block the side movable baffle, dust in the air is prevented from entering the battery storage box 1, then the sealing box cover 2 is fixedly installed on the battery storage box 1, the connecting upright rod 52 is inserted into the connecting jack 82, the connection of the side movable baffle 5 and the radiating rack 8 is achieved, the new energy battery vibrates in the using process, the shock-absorbing effect on the new energy battery can be achieved under the combined action of the elastic shock-absorbing plate 31, the first shock-absorbing spring 34, the second shock-absorbing spring 62 and the third shock-absorbing spring 72, and meanwhile the new energy battery is driven to move under the action of the connecting rod 4, the radiating hole 14 is opened, meanwhile the radiating hole 8 is driven to move under the action of the connecting rod 4, the radiating rack 8 is driven to move under the action of the side movable baffle 5, the new energy battery is driven to move under the action of the connecting rod 5, the radiating rack is driven to rotate, and then the new energy battery is driven to radiate heat, and the new energy battery is further driven to rotate, and the radiating from the radiating rack 9.

Although embodiments of the present invention 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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a new forms of energy battery heat dissipation shock mounting, includes battery case (1), its characterized in that: the battery storage box comprises a battery storage box body (1), a first corner lug (12) is fixedly arranged at four corners of the inner bottom surface of the battery storage box body (1), a first supporting cylindrical sliding rod (13) is welded between the first corner lug (12), heat dissipation holes (14) are respectively formed in four side surfaces of the battery storage box body (1), a sealing box cover (2) is fixedly arranged on the battery storage box body (1), a limiting shock absorption cylinder (21) is fixedly arranged in the center position of the inner top surface of the sealing box cover (2), a mounting groove (22) is formed in the upper end surface of the sealing box cover (2), a second corner lug (23) is fixedly arranged at each of the four corners of the mounting groove (22), a second supporting cylindrical sliding rod (24) is fixedly arranged between the second corner lug (23), a movable jack (25) and a mounting through hole (26) are respectively formed in the sealing box cover (2) and close to the four side walls of the sealing box cover, and the sealing box cover (2) are positioned between the mounting through hole (26) and the sealing box cover (2), and a new battery storage mechanism (1) can be mounted on the sealing box cover.

2. The heat dissipation and vibration prevention device for a new energy battery according to claim 1, wherein: the novel energy battery heat dissipation and shock absorption linkage mechanism comprises a shock absorption supporting bottom plate (3), a first shock absorption spring (34), a connection push-pull rod (4), a side movable baffle plate (5), a side shock absorption limiting plate (6), a second shock absorption spring (62), a shock absorption limiting pressure plate (7), a third shock absorption spring (72), a heat dissipation rack (8), a limiting spring (83), a heat dissipation gear (9) and a matching bearing (93), wherein the shock absorption supporting bottom plate (3) is inserted into the battery storage box (1), and elastic shock absorption sheets (31) are respectively welded at four corners of the lower end of the shock absorption supporting bottom plate (3).

3. The heat dissipation and vibration prevention device for a new energy battery according to claim 2, wherein: the lower extreme of elasticity shock attenuation piece (31) is fixed to be provided with support disc (32), the lower extreme welding of support disc (32) has shock attenuation spliced pole (33), shock attenuation spliced pole (33) part is pegged graft in shock attenuation connecting hole (11), and has cup jointed first damping spring (34) on shock attenuation spliced pole (33).

4. The heat dissipation and vibration prevention device for a new energy battery according to claim 2, wherein: the shock attenuation supporting baseplate (3) up end four sides are fixed respectively and are provided with the link, articulated on the link have connect push-and-pull rod (4), the upper end of connect push-and-pull rod (4) articulates in the downside one end of side movable baffle (5).

5. The heat dissipation and vibration prevention device for a new energy battery according to claim 4, wherein: the side movable baffle (5) is contacted with the inner wall of the battery storage box (1), a supporting sliding hole (51) is formed in the side movable baffle (5), a first supporting cylindrical sliding rod (13) is inserted into the supporting sliding hole (51), and a connecting vertical rod (52) is fixedly arranged at the middle position of the upper end of the side movable baffle (5).

6. The heat dissipation and vibration prevention device for a new energy battery according to claim 5, wherein: the movable inserting hole (53) is formed in the side movable baffle (5), the movable inserting column is inserted into the movable inserting hole (53), the movable inserting column is fixedly arranged on the side damping limiting plate (6), the antifriction rotating roller (61) is arranged on the end face, far away from the wall of the battery storage box (1), of the side damping limiting plate (6), and the movable inserting column is sleeved with the second damping spring (62).

7. The heat dissipation and vibration prevention device for a new energy battery according to claim 2, wherein: the upper end welding of the spacing pressure disk of shock attenuation (7) has shock attenuation spliced pole (71), third shock attenuation spring (72) has been cup jointed on shock attenuation spliced pole (71), and shock attenuation spliced pole (71) part is pegged graft in spacing shock cylinder (21), heat dissipation rack (8) are four, install in mounting groove (22), and have seted up cooperation slide hole (81) on heat dissipation rack (8), peg graft in cooperation slide hole (81) have second support cylinder slide bar (24), have seted up connection jack (82) on the lower terminal surface of heat dissipation rack (8), peg graft in connection jack (82) have connection pole setting (52), spacing spring (83) cup joint on second support cylinder slide bar (24), heat dissipation rack (8) meshing has heat dissipation gear (9).

8. The heat dissipation and vibration prevention device for a new energy battery according to claim 7, wherein: the heat dissipation gear is characterized in that an installation inserting column (91) is fixedly arranged at the lower end of the heat dissipation gear (9), the installation inserting column (91) is inserted into the installation through hole (26), a matched bearing (93) is sleeved on the installation inserting column (91), a heat dissipation blade (92) is fixedly arranged at the lower end of the installation inserting column (91), and the heat dissipation blade (92) is located in the sealed box cover (2).