CN218887268U - Lithium ion battery packaging device - Google Patents

Abstract

The utility model relates to the technical field of battery packaging, and discloses a lithium ion battery packaging device, which comprises an upper packaging assembly and a lower packaging assembly; the upper packaging assembly comprises an upper end enclosure, an upper heating plate, an upper heat insulation module and an upper template, the upper heat insulation module is arranged at the lower end of the upper template, the upper heating plate is arranged at the lower end of the upper heat insulation module, and the upper end enclosure is arranged at the lower end of the upper heating plate; lower encapsulation subassembly includes low head, hot plate, thermal-insulated module and lower bolster down, and thermal-insulated module sets up in the upper end of lower bolster down, and lower hot plate sets up in the upper end of thermal-insulated module down, and the low head sets up in the upper end of hot plate down, and thermal-insulated module includes the lower thermal-insulated screw of a plurality of looks interval distributions down. The utility model discloses can improve high temperature resistance, improve heat conduction, heat dissipation and thermal-insulated effect.

Description

Lithium ion battery packaging device

Technical Field

The utility model relates to a battery packaging technology field especially relates to a lithium ion battery packaging hardware.

Background

In recent years, in view of the increasing environmental pollution, a storage battery, which can be charged and discharged, is often used as a power source to replace the conventional fossil fuel to solve the problem of environmental pollution caused by the fossil fuel. In the technical field of vehicles or power devices, compared with the traditional energy, the electric energy has obvious advantages in the aspect of environmental protection, and the battery is adopted as a power source, so that the battery does not consume gasoline, does not have waste gas, has low noise and small radiation, and is an ideal power source.

The lithium ion battery packaging device is used for packaging a battery aluminum plastic film, the upper heating plate and the lower heating plate are respectively used for providing heat for the upper end enclosure and the lower end enclosure, an upper synthetic stone heat insulation plate and a lower synthetic stone heat insulation plate are generally adopted for respectively performing heat insulation on the upper heating plate and the lower heating plate, but at a high temperature above 260 ℃, the synthetic stone heat insulation plate is easy to crack by being baked for a long time at high temperature, and the heat conduction and heat dissipation effects are poor; especially, the silica gel plate on the lower end socket has an auxiliary heating effect, so that the packaging temperature of the lower end socket is higher than that of the upper end socket, the lower synthetic stone heat insulation plate is easy to damage, and the durability is short.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a lithium ion battery packaging hardware, can improve high temperature resistance, improve heat conduction, heat dissipation and thermal-insulated effect.

The purpose of the utility model is realized through the following technical scheme:

a lithium ion battery packaging device, comprising:

the upper packaging assembly comprises an upper end enclosure, an upper heating plate, an upper heat insulation module and an upper template, the upper heat insulation module is arranged at the lower end of the upper template, the upper heating plate is arranged at the lower end of the upper heat insulation module, and the upper end enclosure is arranged at the lower end of the upper heating plate; and

lower encapsulation subassembly, lower encapsulation subassembly includes low head, lower hot plate, thermal-insulated module and lower bolster down, thermal-insulated module set up in down the upper end of lower bolster, down the hot plate set up in the upper end of thermal-insulated module down, the low head set up in the upper end of hot plate down, thermal-insulated module includes a plurality of looks interval distribution's lower thermal-insulated screw down.

In one embodiment, the upper heat insulation module is a heat insulation plate, or the upper heat insulation module comprises a plurality of upper heat insulation screws distributed at intervals.

In one embodiment, the lower heat insulation screw is provided with a heat dissipation extension portion, and the heat dissipation extension portion is provided with a plurality of spaced heat dissipation grooves.

In one of them embodiment, lower encapsulation subassembly still includes the silica gel board, the silica gel board set up in the upper end of low head.

In one embodiment, the lithium ion battery packaging device further comprises an upper lifting assembly and a lower lifting assembly, wherein the upper lifting assembly comprises an upper driving cylinder and an upper moving rod, the upper driving cylinder is connected with one end of the upper moving rod, and the other end of the upper moving rod is connected with the upper template; the lower lifting assembly comprises a lower driving cylinder and a lower moving rod, the lower driving cylinder is connected with one end of the lower moving rod, and the other end of the lower moving rod is connected with the lower template.

In one embodiment, the upper lifting assembly further comprises an upper connecting block, one end of the upper connecting block is connected with the upper template, and the other end of the upper connecting block is clamped with the upper moving rod; the lower lifting assembly further comprises a lower connecting block, one end of the lower connecting block is connected with the lower template, and the other end of the lower connecting block is connected with the lower moving rod in a clamping mode.

In one embodiment, the upper lifting assembly further comprises an upper slide block, an upper guide rail and an upper base plate, the upper template is connected with the upper slide block, the upper slide block is engaged with the upper guide rail, and the upper guide rail is arranged on the upper base plate; the lower lifting assembly further comprises a lower bottom plate, a lower guide pillar and a lower guide sleeve, the lower bottom plate is connected with the lower guide pillar, the lower guide pillar is connected with the lower guide sleeve in a sliding mode, and the lower guide sleeve is connected with the lower bottom plate.

In one embodiment, the upper lifting assembly further comprises an upper sliding plate and an upper reinforcing plate, the upper template is connected with the upper sliding block through the upper sliding plate, and two ends of the upper reinforcing plate are respectively connected with the upper template and the upper sliding plate; the lower lifting assembly further comprises a lower bearing, and two ends of the lower bearing are connected with the lower guide sleeve and the lower bottom plate respectively.

In one embodiment, the upper lifting assembly further comprises an upper fixing plate and an upper reinforcing plate, the upper driving cylinder is connected with the upper base plate through the upper fixing plate, and two ends of the upper reinforcing plate are respectively connected with the upper fixing plate and the upper base plate; the lower lifting assembly further comprises a lower fixing plate, and the lower driving cylinder is connected with the lower bottom plate through the lower fixing plate.

In one embodiment, the lithium ion battery packaging device further comprises a fixing support, and two ends of the fixing support are respectively connected with the upper base plate and the lower base plate.

Compared with the prior art, the utility model discloses at least, following advantage has:

the utility model adopts a plurality of lower heat insulation screws to replace the traditional lower synthetic stone heat insulation plate, the lower heat insulation screws are preferably made of steel, especially SUS304, and compared with the synthetic stone, the utility model has the advantages of firmer and more durable performance, better high temperature resistance, and difficult damage of high temperature baking; through a plurality of thermal-insulated screws down can separate hot plate and lower bolster, make down the heat of hot plate partly give off through the air, partly gives off through thermal-insulated screw down, can improve high temperature resistance, heat conduction, heat dissipation and the thermal-insulated effect of encapsulation subassembly down effectively to improve packaging hardware's high temperature resistance, heat conduction, heat dissipation and thermal-insulated effect effectively.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a perspective view of a lithium ion battery packaging apparatus according to an embodiment of the present invention.

Fig. 2 is a front view of a lithium ion battery packaging apparatus according to an embodiment of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

In one embodiment, referring to fig. 1 and 2, a lithium ion battery packaging apparatus 10 includes an upper packaging assembly 110 and a lower packaging assembly 120; the upper packaging assembly 110 comprises an upper end enclosure 111, an upper heating plate 112, an upper heat insulation module 113 and an upper template 114, wherein the upper heat insulation module 113 is arranged at the lower end of the upper template 114, the upper heating plate 112 is arranged at the lower end of the upper heat insulation module 113, and the upper end enclosure 111 is arranged at the lower end of the upper heating plate 112; lower encapsulation subassembly 120 includes low head 121, lower hot plate 122, thermal-insulated module 123 and lower bolster 124 down, thermal-insulated module 123 down set up in the upper end of lower bolster 124, lower hot plate 122 set up in the upper end of thermal-insulated module 123 down, low head 121 set up in the upper end of lower hot plate 122, thermal-insulated module 123 includes a plurality of looks interval distribution's lower thermal-insulated screw 1231 down.

It should be noted that, the utility model adopts a plurality of lower heat insulation screws 1231 to replace the traditional lower synthetic stone heat insulation board, the lower heat insulation screws 1231 are preferably made of steel, especially SUS304, which is more solid and durable than synthetic stone, better in high temperature resistance, and less prone to damage during high temperature baking; through a plurality of thermal-insulated screws 1231 down can separate hot plate 122 and lower bolster 124 down, make down the heat of hot plate 122 partly distribute through the air, partly distribute through thermal-insulated screw 1231 down, can improve the high temperature resistance of lower encapsulation subassembly 120 effectively, heat conduction, heat dissipation and thermal-insulated effect to improve packaging hardware's high temperature resistance, heat conduction, heat dissipation and thermal-insulated effect effectively.

Further, the upper thermal insulation module 113 is a thermal insulation panel 1131, or the upper thermal insulation module 113 includes a plurality of upper thermal insulation screws distributed at intervals.

For example, the lower thermal insulation module 123 includes a plurality of lower thermal insulation screws 1231 spaced apart from each other, and the upper thermal insulation module 113 is a thermal insulation plate 1131.

For another example, the lower thermal insulation module 123 includes a plurality of lower thermal insulation screws 1231 distributed at intervals, the upper thermal insulation module 113 includes a plurality of upper thermal insulation screws distributed at intervals, and the lower thermal insulation screws 1231 have the same structure as the upper thermal insulation screws.

Further, referring to fig. 3, the lower heat insulation screw 1231 is provided with a heat dissipation extension 1231a, and the heat dissipation extension 1231a is provided with a plurality of spaced heat dissipation grooves 1231b. So, can increase down thermal-insulated screw 1231 and air area of contact through heat dissipation extension 1231a and heat dissipation recess 1231b, improve the heat and give off efficiency at the air to improve heat conduction, heat dissipation and thermal-insulated effect.

Further, lower encapsulation subassembly 120 still includes silica gel plate 125, silica gel plate 125 set up in the upper end of low head 121.

Further, the lower package assembly 120 further includes a lower pad plate 126, and the lower pad plate 126 is disposed between the lower thermal insulation module 123 and the lower mold plate 124.

Further, go up encapsulation subassembly 110 and still include upper junction plate 115 and utmost point ear heating member 116, upper junction plate 115 set up in go up thermal-insulated module 113 with between the cope match-plate pattern 114, utmost point ear heating member 116 with upper junction plate 115 is connected, utmost point ear heating member 116 heating end is located the position department of upper cover 111 for heat the battery utmost point ear.

Further, the lithium ion battery packaging apparatus 10 further includes an upper lifting assembly 130 and a lower lifting assembly 140, wherein the upper lifting assembly 130 includes an upper driving cylinder 131 and an upper moving rod 132, the upper driving cylinder 131 is connected to one end of the upper moving rod 132, and the other end of the upper moving rod 132 is connected to the upper mold plate 114; the lower lifting assembly 140 includes a lower driving cylinder 141 and a lower moving rod 142, the lower driving cylinder 141 is connected to one end of the lower moving rod 142, and the other end of the lower moving rod 142 is connected to the lower template 124. In this way, the upper and lower lifting assemblies 130 and 140 respectively drive the upper and lower packing assemblies 110 and 120 to move closer to or away from each other, thereby completing the processes of packing, closing, and blanking.

Further, the upper lifting assembly 130 further includes an upper connecting block 133, one end of the upper connecting block 133 is connected to the upper mold plate 114, and the other end of the upper connecting block 133 is clamped to the upper moving rod 132; the lower lifting assembly 140 further comprises a lower connecting block 143, one end of the lower connecting block 143 is connected with the lower template 124, and the other end of the lower connecting block 143 is clamped with the lower moving rod 142. In this way, the upper moving rod 132 can be firmly connected to the upper plate 114 by the upper connecting block 133, and the lower moving rod 142 can be firmly connected to the lower plate 124 by the lower connecting block 143.

Further, the upper lifting assembly 130 further includes an upper slider 134, an upper guide rail 135 and an upper base plate 136, the upper die plate 114 is connected to the upper slider 134, the upper slider 134 is engaged with the upper guide rail 135, and the upper guide rail 135 is disposed on the upper base plate 136; the lower lifting assembly 140 further includes a lower base plate 144, a lower guide post 145 and a lower guide sleeve 146, the lower die plate 124 is connected to the lower guide post 145, the lower guide post 145 is slidably connected to the lower guide sleeve 146, and the lower guide sleeve 146 is connected to the lower base plate 144. In this way, the displacement motion of the upper packing assembly 110 is guided by the interaction of the upper slider 134 and the upper guide rail 135, and the displacement motion of the lower packing assembly 120 is guided by the interaction of the lower guide post 145 and the lower guide sleeve 146.

Further, the upper lifting assembly 130 further includes an upper sliding plate 137 and an upper reinforcing plate 138, the upper mold plate 114 is connected to the upper sliding block 134 through the upper sliding plate 137, and two ends of the upper reinforcing plate 138 are respectively connected to the upper mold plate 114 and the upper sliding plate 137; the lower lifting assembly 140 further includes a lower bearing 147, and two ends of the lower bearing 147 are respectively connected to the lower guide sleeve 146 and the lower base plate 144. In this way, the upper slide plate 114 can be firmly connected to the upper slide 134 via the upper slide plate 137 and the upper reinforcement plate 138, and the lower guide sleeve 146 can be firmly connected to the lower plate 144 via the lower bearing 147.

Further, the upper lifting assembly 130 further comprises an upper fixing plate 1391 and an upper reinforcing plate 1392, the upper driving cylinder 131 is connected to the upper base plate 136 through the upper fixing plate 1391, and both ends of the upper reinforcing plate 1392 are connected to the upper fixing plate 1391 and the upper base plate 136, respectively; the lower lifting assembly 140 further includes a lower fixing plate 148, and the lower driving cylinder 141 is connected to the lower base plate 144 through the lower fixing plate 148. In this manner, the upper driving cylinder 131 is firmly connected to the upper plate 136 by the upper fixing plate 1391 and the upper reinforcing plate 1392, and the lower driving cylinder 141 is firmly connected to the lower plate 144 by the lower fixing plate 148.

Further, the lithium ion battery packaging apparatus 10 further includes a fixing bracket 150, two ends of the fixing bracket 150 are respectively connected to the upper base plate 136 and the lower base plate 144, and the fixing bracket 150 is used for being connected to a packaging host.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A lithium ion battery packaging apparatus, comprising:

the upper packaging assembly comprises an upper end enclosure, an upper heating plate, an upper heat insulation module and an upper template, the upper heat insulation module is arranged at the lower end of the upper template, the upper heating plate is arranged at the lower end of the upper heat insulation module, and the upper end enclosure is arranged at the lower end of the upper heating plate; and

lower encapsulation subassembly, lower encapsulation subassembly includes low head, lower hot plate, thermal-insulated module and lower bolster down, thermal-insulated module set up in down the upper end of lower bolster, down the hot plate set up in the upper end of thermal-insulated module down, the low head set up in the upper end of hot plate down, thermal-insulated module includes a plurality of looks interval distribution's lower thermal-insulated screw down.

2. The lithium ion battery packaging apparatus of claim 1, wherein the upper thermal insulation module is a thermal insulation board, or the upper thermal insulation module comprises a plurality of upper thermal insulation screws distributed at intervals.

3. The lithium ion battery packaging apparatus of claim 1, wherein the lower heat insulation screw is provided with a heat dissipation extension portion, and the heat dissipation extension portion is provided with a plurality of spaced heat dissipation grooves.

4. The lithium ion battery packaging device of claim 1, wherein the lower packaging assembly further comprises a silicone plate disposed at an upper end of the lower head.

5. The lithium ion battery packaging device according to claim 1, further comprising an upper lifting assembly and a lower lifting assembly, wherein the upper lifting assembly comprises an upper driving cylinder and an upper moving rod, the upper driving cylinder is connected with one end of the upper moving rod, and the other end of the upper moving rod is connected with the upper template; the lower lifting assembly comprises a lower driving cylinder and a lower moving rod, the lower driving cylinder is connected with one end of the lower moving rod, and the other end of the lower moving rod is connected with the lower template.

6. The lithium ion battery packaging device according to claim 5, wherein the upper lifting assembly further comprises an upper connecting block, one end of the upper connecting block is connected with the upper template, and the other end of the upper connecting block is clamped with the upper moving rod; the lower lifting assembly further comprises a lower connecting block, one end of the lower connecting block is connected with the lower template, and the other end of the lower connecting block is connected with the lower moving rod in a clamping mode.

7. The lithium ion battery packaging apparatus of claim 5, wherein the upper lifting assembly further comprises an upper slider, an upper guide rail and an upper base plate, the upper template is connected with the upper slider, the upper slider is engaged with the upper guide rail, and the upper guide rail is disposed on the upper base plate; the lower lifting assembly further comprises a lower bottom plate, a lower guide pillar and a lower guide sleeve, the lower bottom plate is connected with the lower guide pillar, the lower guide pillar is connected with the lower guide sleeve in a sliding mode, and the lower guide sleeve is connected with the lower bottom plate.

8. The lithium ion battery packaging apparatus of claim 7, wherein the upper lifting assembly further comprises an upper sliding plate and an upper reinforcing plate, the upper mold plate is connected with the upper sliding plate through the upper sliding plate, and two ends of the upper reinforcing plate are respectively connected with the upper mold plate and the upper sliding plate; the lower lifting assembly further comprises a lower bearing, and two ends of the lower bearing are connected with the lower guide sleeve and the lower bottom plate respectively.

9. The lithium ion battery packaging apparatus of claim 7, wherein the upper lifting assembly further comprises an upper fixing plate and an upper reinforcing plate, the upper driving cylinder is connected with the upper base plate through the upper fixing plate, and two ends of the upper reinforcing plate are respectively connected with the upper fixing plate and the upper base plate; the lower lifting assembly further comprises a lower fixing plate, and the lower driving cylinder is connected with the lower bottom plate through the lower fixing plate.

10. The lithium ion battery packaging apparatus of claim 7, 8 or 9, further comprising a fixing bracket, wherein two ends of the fixing bracket are respectively connected with the upper base plate and the lower base plate.

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