CN106329006B

CN106329006B - Vacuum packaging device

Info

Publication number: CN106329006B
Application number: CN201610914294.8A
Authority: CN
Inventors: 赵日道; 李红竞
Original assignee: Guangdong Sunive Intelligent Equipment Co ltd
Current assignee: Wuhan Tianzhiran Intellectual Property Operation Co ltd
Priority date: 2016-10-20
Filing date: 2016-10-20
Publication date: 2023-04-18
Anticipated expiration: 2036-10-20
Also published as: CN106329006A

Abstract

The invention discloses a vacuum packaging device in the technical field of lithium battery equipment, which comprises a packaging top plate, a mounting block, a battery pressing mechanism, an upper end enclosure mechanism, a lower end enclosure mechanism and a liquid absorbing mechanism, wherein the battery pressing mechanism comprises a battery pressing plate cylinder and a battery pressing plate, the outputs of the two battery pressing plate cylinders are respectively connected with a pressing battery ejector rod, the upper end enclosure mechanism comprises a cylinder mounting seat, an upper end enclosure lifting cylinder and an upper bearing seat pair, the lower end enclosure mechanism comprises a cylinder mounting plate, a lower end enclosure lifting cylinder and a lower bearing seat pair, an output rod of the lower end enclosure lifting cylinder penetrates through the cylinder mounting plate to be connected with a lower end enclosure assembly, and the liquid absorbing mechanism comprises an upper sucker mechanism and a lower sucker mechanism. Inhale the unnecessary electrolyte of battery through no chamber sucking disc and siphon away and carry out the evacuation to the battery, work in the vacuum has reached the environmental protection effect, and the volume is little to reach energy-conserving effect, and evacuation, encapsulation go on simultaneously, and efficiency is faster, and the effect is better.

Description

Vacuum packaging device

Technical Field

The invention relates to the technical field of lithium battery equipment, in particular to a vacuum packaging device.

Background

After the liquid was annotated to lithium ion battery cell, will stew and encapsulate, when stewing, let inside then going on of the even infiltration electric core of electrolyte and take unnecessary electrolyte out the electric core outside, then reentrant encapsulation, carry out evacuation again, with the inside dry out of battery could encapsulate, just so can guarantee the performance of electric core. The battery cell vacuum packaging is to vacuumize the battery in a sealed cavity and then package the battery, so that the vacuum packaging is high in cost, the inside of the vacuum packaging is not easy to find problems and adjust and is difficult to get high, and the air pumped out is provided with electrolyte volatile gas due to space and longer time during the vacuum packaging, so that the environment is polluted and resources are wasted.

Disclosure of Invention

The invention aims to solve the defects and provides the vacuum packaging device for the soft package lithium battery, which is characterized in that redundant electrolyte of the battery is sucked away and the battery is vacuumized through a cavity-free sucker mechanism, the battery works in vacuum, the environment-friendly effect is achieved, the volume is small, the energy-saving effect is achieved, the vacuumizing and packaging are simultaneously carried out, the efficiency is higher, and the effect is better.

The purpose of the invention is realized by the following modes:

a vacuum packaging device comprises a packaging top plate, a mounting block, a battery hold-down mechanism, an upper head mechanism, a lower head mechanism and a liquid suction mechanism, wherein an upright post for supporting the packaging top plate is arranged between the packaging top plate and the mounting plate, a mounting hole is formed in the packaging top plate in a penetrating manner, the battery hold-down mechanism comprises a battery press plate cylinder and two battery press plates, the two battery press plate cylinders are arranged on the packaging top plate, the outputs of the two battery press plate cylinders are respectively connected with a battery press rod, the battery press rod is fixedly connected with the battery press plate, a plurality of movement guide rods are arranged on the battery press plate, the upper head mechanism comprises a cylinder mounting seat, an upper head lifting cylinder and an upper bearing seat pair, the upper head lifting cylinder and the upper bearing seat pair are arranged on the cylinder mounting seat, and the output connecting rod and the upper bearing seat pair of the upper head lifting cylinder respectively penetrate through the packaging top plate to be connected with an upper head assembly, the upper head lifting cylinder acts to enable the upper head assembly to move up and down, the lower head mechanism comprises a cylinder mounting plate, a lower head lifting cylinder and a lower bearing seat pair, the lower head lifting cylinder is arranged on the bottom surface of the cylinder mounting plate, an output rod of the lower head lifting cylinder penetrates through the cylinder mounting plate to be connected with the lower head assembly, one end of the lower bearing seat pair is fixed with the surface of the cylinder mounting plate, the other end of the lower bearing seat pair is connected with the lower head assembly, the liquid suction mechanism is arranged on the front sides of the upper head assembly and the lower head assembly and comprises an upper sucker mechanism and a lower sucker mechanism, the upper sucker mechanism comprises an upper cylinder and an upper fixing plate for mounting the upper cylinder, the output rod of the upper cylinder is connected with a connecting block, the connecting block is connected with an upper sucker T block, and a positioning hole and an upper sucker are arranged on the upper sucker T block, the middle of an upper sucker is provided with an upper bayonet with a downward tool nose, an upper cylinder acts to drive an upper sucker T block, so that the upper sucker moves up and down along the upper sucker T block, a lower sucker mechanism comprises a lower fixing plate, cushion blocks are respectively arranged at two ends of the lower fixing plate in a penetrating manner, guide rods are respectively arranged in the cushion blocks in an active manner, the head end of each guide rod stretches over and is provided with an upper cross rod, the middle of the upper cross rod is provided with a lower sucker T block, a positioning pin matched with the positioning hole of the upper sucker T block and a lower sucker matched with the upper sucker are arranged on the lower sucker T block, meanwhile, a bayonet holder matched with the upper bayonet is arranged in the middle of the lower sucker, the middle of the lower fixing plate is provided with a lower cylinder, the output of the lower cylinder is connected with a connecting seat, the lower cylinder is connected with the upper cross rod through the connecting seat, and the lower cylinder acts to drive the upper cross rod so that the lower sucker moves up and down along the lower sucker T block.

In the above description, in a more preferable scheme, the end of the guide rod stretches across and is provided with a lower cross rod, the middle part of the lower cross rod is provided with a central hole, the bottom surface of the lower fixing plate is provided with an adjusting cylinder for adjusting the lower sucker mechanism, the output of the adjusting cylinder is connected with a connecting rod, one end of the connecting rod movably penetrates through the central hole of the lower cross rod, and meanwhile, the end of the connecting rod is provided with an adjusting screw.

In the above description, it is more preferable that two ends of the upper fixing plate are respectively provided with a bracket for fixing the upper suction cup mechanism, the top of the bracket is provided with an outward-folded mounting position, and the mounting position is provided with a mounting hole which is installed in a matching manner with the package top plate, so that the upper suction cup mechanism is screwed and fixed on the bottom surface of the package top plate.

In the above description, in a more preferable scheme, two ends of the lower fixing plate are respectively provided with a vertical plate, and the vertical plate and the lower fixing plate are fixed by screwing.

In the above description, in a more preferable scheme, the rear portion of the lower suction cup extends outwards to be provided with a locking screw, the T block of the lower suction cup is provided with a screw hole, the lower suction cup penetrates through the screw hole through the locking screw, and the locking screw is screwed with a nut.

In the above description, in a more preferable aspect, a vacuum gauge is disposed on the front side of the package top plate, an external air pipe connector is disposed on one side of the vacuum gauge, the other side of the vacuum gauge is in conduction connection with the upper suction cup through an air pipe, and a function operation key and a display interface are disposed on the front side of the vacuum gauge.

In the above description, in a more preferable scheme, a T-shaped block is disposed on a surface of the battery pressing plate, and a T-shaped connector mounted in a matching manner with the T-shaped block is disposed at a tail end of the battery pressing ejector rod.

In the above description, in a more preferable scheme, four motion guide rods are provided, one ends of the four motion guide rods are respectively connected and fixed with four corners of the battery pressing plate, and the other ends movably penetrate through the top plate and extend to the surface.

In the above description, in a more preferred scheme, the upper head assembly comprises an upper heating block, an upper heat insulation block and an upper head which are sequentially arranged from top to bottom, wherein an upper U-shaped connecting block is arranged in the middle of the upper heating block, and the upper U-shaped connecting block is fixedly connected with an output connecting rod of the upper head lifting cylinder.

In the above description, in a more preferred scheme, the lower head assembly includes from top to bottom set gradually lower head, lower heat insulating block and lower heat block, and the middle part of lower heat block is equipped with down U-shaped connecting block, and this lower U-shaped connecting block is connected with the output lever fixed connection of lower head lift cylinder.

The beneficial effects produced by the invention are as follows: according to the vacuum packaging mechanism, the extra electrolyte of the battery is sucked away and the battery is vacuumized through the cavity-free sucker electrolyte sucking mechanism, so that the vacuumizing is only performed on the internal space of the battery, the volume is reduced, the time is saved, the efficiency is improved, the vacuum packaging mechanism works in vacuum, the environment-friendly effect is achieved, the volume is small, the energy-saving effect is achieved, the battery is outside, the problem is found more easily, the adjustment is better and simpler, the vacuumizing and packaging are performed simultaneously, the efficiency is higher, and the effect is better.

Drawings

FIG. 1 is a perspective view of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a wicking mechanism according to an embodiment of the invention;

FIG. 3 is a perspective view of a portion of an embodiment of the present invention;

FIG. 4 is a top view of an embodiment of the present invention;

FIG. 5 is a bottom view of an embodiment of the present invention;

FIG. 6 is a side view of a portion of the structure of an embodiment of the present invention.

In the figure, 1 is a package top plate, 2 is a mounting block, 3 is a column, 4 is a battery press plate cylinder, 5 is a battery press plate, 6 is a battery press ejector rod, 7 is a motion guide rod, 8 is a cylinder mounting seat, 9 is an upper head lifting cylinder, 10 is an upper bearing seat pair, 11 is an upper head assembly, 12 is a cylinder mounting plate, 13 is a lower head lifting cylinder, 14 is a lower bearing seat pair, 15 is a lower head assembly, 16 is an upper cylinder, 17 is an upper fixing plate, 18 is an upper sucker T block, 19 is an upper sucker, 20 is an upper bayonet knife, 21 is a lower fixing plate, 22 is a cushion block, 23 is a guide rod, 24 is an upper cross rod, 25 is a lower sucker T block, 26 is a positioning pin, 27 is a lower sucker, 28 is a lower cylinder, 29 is a connecting seat, 30 is a lower cross rod, 31 is an adjusting cylinder, 32 is an adjusting screw, 33 is a support, 34 is a vertical plate, and 35 is a vacuum gauge.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

In this embodiment, referring to fig. 1 to 6, a vacuum packaging apparatus in this embodiment includes a packaging top plate 1, a mounting block 2, a battery pressing mechanism, an upper head sealing mechanism, a lower head sealing mechanism, and a liquid suction mechanism, wherein a column 3 for supporting the packaging top plate 1 is disposed between the packaging top plate 1 and the mounting plate, a mounting hole is formed in the packaging top plate 1, the battery pressing mechanism includes two battery pressing plate cylinders 4 and a battery pressing plate 5, the two battery pressing plate cylinders 4 are disposed on the packaging top plate 1, outputs of the two battery pressing plate cylinders 4 are respectively connected with a battery pressing rod 6, the battery pressing rod 6 is connected and fixed with the battery pressing plate 5, a plurality of moving guide rods 7 are disposed on the battery pressing plate 5, the upper head sealing mechanism includes a cylinder mounting seat 8, an upper head lifting cylinder 9, and an upper bearing seat pair 10, the upper head lifting cylinder 9 and the upper bearing seat pair 10 are disposed on the cylinder mounting seat 8, an output connecting rod and an upper bearing seat pair 10 of an upper head lifting cylinder 9 respectively penetrate through a packaging top plate 1 to be connected with an upper head assembly 11, the upper head lifting cylinder 9 moves to enable the upper head assembly 11 to move up and down, the upper head assembly 11 of the embodiment comprises an upper heating block, an upper heat insulation block and an upper head which are sequentially arranged from top to bottom, an upper U-shaped connecting block is arranged in the middle of the upper heating block and fixedly connected with the output connecting rod of the upper head lifting cylinder 9, a lower head mechanism comprises a cylinder mounting plate 12, a lower head lifting cylinder 13 and a lower bearing seat pair 14, the lower head lifting cylinder 13 is arranged on the bottom surface of the cylinder mounting plate 12, an output rod of the lower head lifting cylinder 13 penetrates through the cylinder mounting plate 12 to be connected with a lower head assembly 15, and the lower head assembly 15 of the embodiment comprises a lower head, a lower head and a lower head which are sequentially arranged from top to bottom, the lower heat insulation block and the lower heat insulation block, the lower U-shaped connecting block is arranged in the middle of the lower heat insulation block, the lower U-shaped connecting block is fixedly connected with an output rod of a lower seal head lifting cylinder 13, one end of a lower bearing seat pair 14 is fixed with the surface of a cylinder mounting plate 12, the other end of the lower bearing seat pair 14 is connected with a lower seal head assembly 15, a liquid suction mechanism is arranged at the front side of the upper seal head assembly 11 and the lower seal head assembly 15, the liquid suction mechanism comprises an upper suction cup 19 mechanism and a lower suction cup 27 mechanism, the upper suction cup 19 mechanism comprises an upper cylinder 16 and an upper fixing plate 17 for mounting the upper cylinder 16, the output rod of the upper cylinder 16 is connected with the connecting block, the connecting block is connected with an upper suction cup T block 18, a positioning hole and the upper suction cup 19 are arranged on the upper suction cup T block 18, an upper bayonet knife 20 with a knife point facing downwards is arranged in the middle of the upper suction cup 19, the upper cylinder 16 acts to drive the upper suction cup T block 18, the upper sucker 19 is enabled to move up and down along the upper sucker T block 18, the lower sucker 27 mechanism comprises a lower fixing plate 21, cushion blocks 22 penetrate through two ends of the lower fixing plate 21 respectively, guide rods 23 are movably arranged in the cushion blocks 22, an upper cross rod 24 stretches across the head ends of the guide rods 23, a lower sucker T block 25 is arranged in the middle of the upper cross rod 24, positioning pins 26 matched with positioning holes of the upper sucker T block 18 and a lower sucker 27 matched with the upper sucker 19 are arranged on the lower sucker T block 25, a bayonet holder matched with the upper bayonet 20 is arranged in the middle of the lower sucker 27, a lower air cylinder 28 is arranged in the middle of the lower fixing plate 21, a connecting seat 29 is connected to the output of the lower air cylinder 28, the lower air cylinder 28 is connected with the upper cross rod 24 through the connecting seat 29, the lower air cylinder 28 acts to drive the upper cross rod 24, and the lower sucker 27 is enabled to move up and down along the lower sucker T block 25.

When the battery packaging machine works, a battery processed in the previous process is placed on a clamp tray and is conveyed to a designated position by a motor, a lower sucker 27 mechanism ascends, then an upper sucker 19 mechanism descends, an upper bayonet 20 punctures a battery air bag, the upper sucker 19 and the lower sucker 27 are combined to start vacuumizing and residual liquid sucking, the vacuum value is pumped to a certain value, a battery pressing plate 5 is pressed downwards to press the battery tightly, the battery is fixed and extrude gas in the battery, the upper sucker 19 and the lower sucker 27 continue vacuumizing and residual liquid sucking until the vacuum value reaches the required minimum value, an upper sealing head and a lower sealing head are combined to package the battery, the battery is packaged for a certain time, the residual liquid sucking and the vacuumizing are stopped by the upper sucker 19 and the lower sucker 27, the vacuum is broken by opening the upper sucker 19 and the lower sucker 27 after the package is completed, the sealing head is opened, the battery pressing plate 5 rises, the battery returns to the initial position, and waits for entering the next process. According to the vacuum packaging mechanism, the non-cavity sucking disc electrolyte sucking mechanism sucks away the redundant electrolyte of the battery and vacuumizes the battery, so that the vacuumizing is only performed on the internal space of the battery, the volume is reduced, the time is saved, the efficiency is improved, the vacuum packaging mechanism works in vacuum, the environment-friendly effect is achieved, the volume is small, the energy-saving effect is achieved, the battery is outside, the problem is found more easily, the adjustment is better and simpler, the vacuumizing and packaging are performed simultaneously, the efficiency is higher, and the effect is better.

The tail end of the guide rod 23 is provided with a lower cross rod 30 in a crossing manner, the middle part of the lower cross rod 30 is provided with a central hole, the bottom surface of the lower fixing plate 21 is provided with an adjusting cylinder 31 for adjusting the lower suction disc 27 mechanism, the output of the adjusting cylinder 31 is connected with a connecting rod, one end of the connecting rod movably penetrates through the central hole of the lower cross rod 30, and meanwhile, the tail end of the connecting rod is provided with an adjusting screw 32.

The two ends of the upper fixing plate 17 are respectively provided with a bracket 33 for fixing the upper sucker 19 mechanism, the top of the bracket 33 is provided with an outward-folded mounting position, and the mounting position is provided with a mounting hole which is matched with the packaging top plate 1 for mounting, so that the upper sucker 19 mechanism is screwed and fixed on the bottom surface of the packaging top plate 1.

Vertical plates 34 are respectively arranged at two ends of the lower fixing plate 21, and the vertical plates 34 are fixed with the lower fixing plate 21 through screw threads.

Wherein, the rear portion of lower sucking disc 27 is equipped with the locking screw towards extending outward, is equipped with the screw hole on the lower sucking disc T piece 25, and lower sucking disc 27 passes through the screw hole through the locking screw to the spiro union has the nut on the locking screw.

The vacuum meter 35 is arranged on the front side of the packaging top plate 1, an external air pipe connector is arranged on one side of the vacuum meter 35, the other side of the vacuum meter 35 is in conduction connection with the upper sucker 19 through an air pipe, and a function operation key and a display interface are arranged on the front side of the vacuum meter 35.

The surface of the battery pressing plate 5 is provided with a T-shaped block, and the tail end of the piezoelectric battery ejector rod 6 is provided with a T-shaped connector which is installed in a matched mode with the T-shaped block.

The number of the motion guide rods 7 is four, one end of each of the four motion guide rods 7 is fixedly connected with the four corners of the battery pressing plate 5, and the other end of each of the four motion guide rods 7 movably penetrates through the packaging top plate 1 and extends to the surface.

The foregoing is a further detailed description of the invention in connection with specific preferred embodiments and it is not intended to limit the invention to the specific embodiments described. It will be apparent to those skilled in the art that various modifications, additions and substitutions can be made without departing from the spirit of the invention.

Claims

1. The utility model provides a vacuum packaging device, includes encapsulation roof, installation piece, battery hold-down mechanism, upper cover mechanism, low head mechanism and imbibition mechanism, be equipped with the stand that props up the encapsulation roof between encapsulation roof and the mounting panel, run through on the encapsulation roof and seted up mounting hole, its characterized in that:

the battery pressing mechanism comprises a battery pressing plate cylinder and battery pressing plates, the number of the battery pressing plate cylinders is two, the battery pressing plate cylinders are arranged on a packaging top plate, the output ends of the two battery pressing plate cylinders are respectively connected with a battery pressing ejector rod, the battery pressing ejector rods are fixedly connected with the battery pressing plates, meanwhile, a plurality of movement guide rods are arranged on the battery pressing plates, the upper head mechanism comprises a cylinder mounting seat, an upper head lifting cylinder and an upper bearing seat pair, the upper head lifting cylinder and the upper bearing seat pair are oppositely arranged on the cylinder mounting seat, the output connecting rod and the upper bearing seat pair of the upper head lifting cylinder respectively penetrate through the packaging top plate to be connected with the upper head assembly, the upper head lifting cylinder acts to enable the upper head assembly to move up and down, the lower head mechanism comprises a cylinder mounting plate, a lower head lifting cylinder and a lower bearing seat pair, the lower head lifting cylinder is arranged on the bottom surface of the cylinder mounting plate, an output rod of the lower head lifting cylinder penetrates through the cylinder mounting plate to be connected with a lower head assembly, one end of the lower bearing pair is fixed with the surface of the cylinder mounting plate, the other end of the lower bearing pair is connected with the lower head assembly, the liquid suction mechanism is arranged on the front sides of the upper head assembly and the lower head assembly and comprises an upper sucker mechanism and a lower sucker mechanism, the upper sucker mechanism comprises an upper cylinder and an upper fixing plate for mounting the upper cylinder, the output rod of the upper cylinder is connected with a connecting block, the connecting block is connected with an upper sucker T block, a positioning hole and an upper sucker are arranged on the upper sucker T block, an upper bayonet knife with a downward knife point is arranged in the middle of the upper sucker, the upper cylinder acts to drive the upper sucker T block to enable the upper sucker to move up and down along the upper sucker T block, the lower sucker mechanism comprises a lower fixing plate, cushion blocks are respectively penetrated at two ends of the lower fixing plate, and guide rods are movably arranged in the cushion blocks, the head end of the guide rod stretches across and is provided with an upper cross rod, the middle part of the upper cross rod is provided with a lower sucker T block, the lower sucker T block is provided with a positioning pin matched with the positioning hole of the upper sucker T block and a lower sucker matched with the upper sucker, the middle part of the lower sucker is provided with a bayonet holder matched with the upper bayonet, the middle part of the lower fixing plate is provided with a lower air cylinder, the output of the lower air cylinder is connected with a connecting seat, the lower air cylinder is connected with the upper cross rod through the connecting seat, and the lower air cylinder acts to drive the upper cross rod so that the lower sucker moves up and down along the lower sucker T block;

the tail end of the guide rod stretches across a lower cross rod, the middle part of the lower cross rod is provided with a central hole, the bottom surface of the lower fixing plate is provided with an adjusting cylinder for adjusting a lower sucker mechanism, the output of the adjusting cylinder is connected with a connecting rod, one end of the connecting rod movably penetrates through the central hole of the lower cross rod, and meanwhile, the tail end of the connecting rod is provided with an adjusting screw;

the two ends of the upper fixing plate are respectively provided with a bracket for fixing the upper sucker mechanism, the top of the bracket is provided with an outward-folded mounting position, and the mounting position is provided with a mounting hole which is matched with the packaging top plate for mounting, so that the upper sucker mechanism is fixed on the bottom surface of the packaging top plate in a threaded manner.

2. The vacuum packaging apparatus according to claim 1, wherein: the two ends of the lower fixing plate are respectively provided with a vertical plate, and the vertical plates are fixed with the lower fixing plate through screw connection.

3. A vacuum packaging apparatus as claimed in claim 2, wherein: the rear portion of lower sucking disc is equipped with locking screw toward outer extension, is equipped with the screw hole on the lower sucking disc T piece, and lower sucking disc passes through the locking screw and penetrates the screw hole to the spiro union has the nut on locking screw.

4. A vacuum packaging apparatus as claimed in claim 3, wherein: the vacuum meter is arranged on the front side of the packaging top plate, an external air pipe connector is arranged on one side of the vacuum meter, the other side of the vacuum meter is in conduction connection with the upper sucker through an air pipe, and a function operation key and a display interface are arranged on the front side of the vacuum meter.

5. The vacuum packaging apparatus according to claim 4, wherein: the surface of the battery pressing plate is provided with a T-shaped block, and the tail end of the battery pressing ejector rod is provided with a T-shaped connector which is installed in a matched mode with the T-shaped block.

6. The vacuum packaging appliance of claim 5, wherein: the four motion guide rods are arranged, one ends of the four motion guide rods are fixedly connected with four corners of the battery pressing plate respectively, and the other ends of the four motion guide rods movably penetrate through the packaging top plate and extend to the surface.

7. The vacuum packaging apparatus according to claim 6, wherein: the upper end enclosure assembly comprises an upper heating block, an upper heat insulation block and an upper end enclosure which are sequentially arranged from top to bottom, an upper U-shaped connecting block is arranged in the middle of the upper heating block, and the upper U-shaped connecting block is fixedly connected with an output connecting rod of the upper end enclosure lifting cylinder.

8. The vacuum packaging apparatus according to claim 7, wherein: the lower head assembly comprises a lower head, a lower heat insulation block and a lower heat insulation block which are sequentially arranged from top to bottom, a lower U-shaped connecting block is arranged in the middle of the lower heat insulation block, and the lower U-shaped connecting block is fixedly connected with an output rod of the lower head lifting cylinder.