CN112705632B

CN112705632B - Riveting device for lithium battery cell

Info

Publication number: CN112705632B
Application number: CN202011447246.5A
Authority: CN
Inventors: 冯梦云
Original assignee: Jiangxi Quantum New Energy Technology Co ltd
Current assignee: Jiangxi Quantum New Energy Technology Co ltd
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2022-08-26
Anticipated expiration: 2040-12-09
Also published as: CN112705632A

Abstract

The invention relates to a riveting device, in particular to a riveting device for a lithium battery cell. The invention provides a riveting device for a lithium battery cell, which can quickly rivet and press a battery cell on a battery, simultaneously enables workers to manually eject out the riveted and pressed battery cell, and can place a lithium battery and the battery cell at specified positions at intervals. The utility model provides a riveting device for lithium cell battery piece, is equipped with moving mechanism including the base top, and riveting mechanism is installed at the base top, and riveting mechanism and moving mechanism top contact cooperation. The moving mechanism is arranged, and the moving mechanism is matched with the riveting mechanism, so that the battery piece can be riveted on the lithium battery at intervals; the feeding mechanism is matched with the riveting mechanism, so that the work of placing the battery piece and the lithium battery on the circular workbench at intervals is realized; the cooperation of pushing equipment and feed mechanism can avoid first push pedal can be directly with the battery piece and the lithium cell condition of once only pushing away to the circular workstation in the flourishing workbin.

Description

Riveting device for lithium battery cell

Technical Field

The invention relates to a riveting device, in particular to a riveting device for a lithium battery cell.

Background

The lithium battery is a battery which uses lithium metal or lithium alloy as a negative electrode material and uses a non-aqueous electrolyte solution, so the battery is called a lithium battery, the lithium battery is different from other batteries, the lithium battery has the characteristics of high charging density, long service life, high unit cost and the like, in order to enhance the conductivity, a plurality of lithium battery manufacturers generally rivet and press a battery piece on each lithium battery by workers, the workers manually rivet and press the battery piece on the battery by hands and need to consume great labor, meanwhile, the workers manually take out the riveted battery piece for a long time, and the process of manually putting the lithium battery and the battery piece at a specified position by the workers at intervals is complicated.

Patent application number CN111672992A discloses a riveting device for lithium cell battery piece, include riveting platform fixed mounting is in the device frame, the vertical ascending support column of four groups of fixedly connected with on the riveting platform, the protection casing is connected in the support column outside, the slide rail is provided with two sets ofly and fixed connection on the riveting platform, sliding connection has the slider on the slide rail, bottom plate fixed connection is on two sets of sliders, be provided with the riveting seat on the bottom plate, rodless cylinder fixed mounting is on the riveting platform, sliding connection has the cylinder slider on the rodless cylinder, the last fixed connecting block that is provided with of cylinder slider, connecting block and bottom plate fixed connection. The riveting device is simple in structure and convenient to operate, riveting work of the lithium battery cell is achieved, production efficiency is improved, automation is not better achieved in the operation process, and workers are required to manually take out the lithium battery after riveting.

Therefore, aiming at the problems in the prior art, the riveting device for the lithium battery cell is designed, which can be used for quickly riveting the cell on the battery, simultaneously, manually ejecting out the riveted cell by a worker, and placing the lithium battery and the cell at specified positions at intervals.

Disclosure of Invention

The invention aims to provide a riveting device for lithium battery cells, which can quickly rivet and press a battery cell on a battery, simultaneously can manually eject out the riveted and press the lithium battery and the battery cell at intervals, and can place the lithium battery and the battery cell at specified positions, so as to solve the defects that in the background technology, a worker needs to consume great labor for manually riveting and pressing the battery cell on the battery, meanwhile, the worker needs to consume long time for manually taking out the riveted and pressed battery cell, and the process of manually placing the lithium battery and the battery cell at the specified positions at intervals is complicated.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a riveting device for lithium cell battery piece, is equipped with moving mechanism including the base top, and riveting mechanism is installed at the base top, and riveting mechanism and moving mechanism top contact cooperation.

Further, the symmetry of base top is equipped with the slide rail, and the slidingtype is equipped with the slip brace table between two slide rails, and slip brace table middle part run-through type is equipped with circular workstation, and the base top has first cylinder through the bolt rigid coupling, and the telescopic link tip rigid coupling of first cylinder has the head rod, and the tip and the slip brace table bottom of head rod are connected.

Furtherly, base top rigid coupling has first support frame, and first support frame slidingtype is equipped with riveting rod, and the cover is equipped with first spring on the riveting rod, and the both ends of first spring are connected respectively on riveting rod and first support frame, and first support frame top rigid coupling has the second support frame, and second support frame top rigid coupling has the second cylinder, and riveting rod top is equipped with the clamp plate, and the telescopic link and the clamp plate top of second cylinder are connected.

Furtherly, circular workstation top rigid coupling has special-shaped pole, and the welding of circular workstation top has the striker plate, and flourishing workbin is installed at the base top, is equipped with first flexible subassembly on the flourishing workbin, and first flexible subassembly tip is equipped with first push pedal, special-shaped pole and the cooperation of first push pedal contact.

Furthermore, the material containing box is internally provided with a second push plate in a sliding mode, a second telescopic assembly is connected between the material containing box and the end part of the second push plate, a second connecting rod is welded on the second push plate, and the end part of the second connecting rod is provided with a handle.

Furthermore, a first ejector rod is arranged in the circular workbench in a sliding mode, the upper portion of the first ejector rod is matched with the circular workbench in a sliding mode, a first connecting plate is welded at the bottom end of the first ejector rod, a second spring is sleeved on the first ejector rod, two ends of the second spring are connected to the first connecting plate and the sliding support platform respectively, first support rods are symmetrically and fixedly connected to the top of the base, and first arc-shaped guide rails are connected between the tops of the two first support rods.

Further, the top of the base is symmetrically provided with second support rods, a second arc-shaped guide rail is connected between the top ends of the two second support rods, a second ejector rod is arranged in the sliding mode in the middle of the sliding support table, a third spring is sleeved on the second ejector rod, two ends of the third spring are connected to the sliding support table and the second ejector rod respectively, a third connecting rod is fixedly connected to the bottom end of the second ejector rod, and an ejector block is fixedly connected to the top end of the second ejector rod.

Compared with the prior art, the invention has the beneficial effects that:

1. the moving mechanism is arranged, and the moving mechanism is matched with the riveting mechanism, so that the battery piece can be riveted on the lithium battery at intervals;

2. the feeding mechanism is matched with the riveting mechanism, so that the work of placing the battery piece and the lithium battery on the circular workbench at intervals is realized;

3. the material pushing mechanism is matched with the feeding mechanism, so that the situation that the first push plate can directly push the battery plates and the lithium batteries in the material containing box to the circular workbench at one time can be avoided;

4. riveting complementary unit constructs and unloading mechanism cooperation, and supplementary riveting pole is quick with the ejecting work of lithium cell that the riveting was accomplished on the lithium cell and circular table with the battery piece riveting.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the moving mechanism of the present invention.

Fig. 3 is a schematic perspective view of the riveting mechanism of the present invention.

Fig. 4 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 5 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 6 is a schematic perspective view of the riveting auxiliary mechanism of the present invention.

Fig. 7 is a schematic perspective view of the blanking mechanism of the present invention.

Reference numbers: 1_ base, 2_ moving mechanism, 21_ slide rail, 22_ slide support table, 23_ circular table, 24_ first connecting rod, 25_ first air cylinder, 3_ riveting mechanism, 31_ first support frame, 32_ riveting rod, 33_ first spring, 34_ second support frame, 35_ second air cylinder, 36_ press plate, 4_ feeding mechanism, 41_ special-shaped rod, 42_ stop plate, 43_ containing box, 44_ first telescopic component, 45_ first push plate, 5_ pushing mechanism, 51_ second push plate, 52_ second telescopic component, 53_ second connecting rod, 54_ handle, 6_ riveting auxiliary mechanism, 61_ first push rod, 62_ second spring, 63_ first connecting plate, 64_ first arc-shaped guide rail, 65_ first support rod, 7_ blanking mechanism, 71_ second support rod, 72_ second arc-shaped guide rail, 73_ second push rod, 74_ third spring, 75_ third connecting rod, 76_ top block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a riveting device for lithium battery cells comprises a base 1, a moving mechanism 2, a slide rail 21, a sliding support table 22, a circular workbench 23, a first connecting rod 24, a first air cylinder 25, a riveting mechanism 3, a first support frame 31, a riveting rod 32, a first spring 33, a second support frame 34, a second air cylinder 35, a press plate 36, a feeding mechanism 4, a special-shaped rod 41, a material baffle 42, a material containing box 43, a first telescopic component 44, a first push plate 45, a material pushing mechanism 5, a second push plate 51, a second telescopic component 52, a second connecting rod 53, a handle 54, a riveting auxiliary mechanism 6, a first ejector rod 61, a second spring 62, a first connecting plate 63, a first arc-shaped guide rail 64, a first support rod 65, a blanking mechanism 7, a second support rod 71, a second arc-shaped guide rail 72, a second ejector rod 73, a third spring 74, a third connecting rod 75 and an ejector block 76, wherein the moving mechanism 2 is arranged at the top of the base 1, and a riveting mechanism 3 is arranged on the rear side of the top of the base 1, and the riveting mechanism 3 is in contact fit with the top of the moving mechanism 2.

The top symmetry of base 1 is equipped with slide rail 21, and slidingtype is equipped with a slip brace table 22 between two slide rails 21, and a slip brace table 22 middle part run-through type is equipped with circular workstation 23, and the bolt rigid coupling has first cylinder 25 at base 1 top, and the telescopic link front end rigid coupling of first cylinder 25 has first connecting rod 24, and the front end and the slip brace table 22 bottom of first connecting rod 24 are connected.

The rear side of the top of the base 1 is fixedly connected with a first support frame 31, the first support frame 31 is internally provided with a riveting rod 32 in a sliding mode, the riveting rod 32 is sleeved with a first spring 33, two ends of the first spring 33 are respectively connected to the riveting rod 32 and the first support frame 31, the top of the first support frame 31 is fixedly connected with a second support frame 34, the top of the second support frame 34 is fixedly connected with a second cylinder 35, the top of the riveting rod 32 is provided with a pressing plate 36, and a telescopic rod of the second cylinder 35 is connected with the top end of the pressing plate 36.

Circular workstation 23 top front side rigid coupling has special-shaped pole 41, and circular workstation 23 top rear side

welded striker plate

42, and 1 top left side of base is installed and is contained workbin 43, and it is equipped with first flexible subassembly 44 to contain workbin 43 front side, and first flexible subassembly 44 right-hand member is equipped with first push pedal 45, and special-shaped pole 41 and first push pedal 45 contact cooperation.

The material containing box 43 is internally provided with a second push plate 51 in a sliding manner, a second telescopic assembly 52 is connected between the material containing box 43 and the rear end of the second push plate 51, the rear side of the second push plate 51 is welded with a second connecting rod 53, and the rear end of the second connecting rod 53 is provided with a handle 54.

The circular workbench 23 is internally provided with a first ejector rod 61 in a sliding manner, the upper part of the first ejector rod 61 is in sliding fit with the circular workbench 23, the bottom end of the first ejector rod 61 is welded with a first connecting plate 63, the first ejector rod 61 is sleeved with a second spring 62, two ends of the second spring 62 are respectively connected to the first connecting plate 63 and the sliding support platform 22, the top of the base 1 is symmetrically and fixedly connected with first support rods 65, and first arc-shaped guide rails 64 are connected between the top ends of the two first support rods 65.

The front side of the top of the base 1 is symmetrically provided with second support rods 71, a second arc-shaped guide rail 72 is connected between the top ends of the two second support rods 71, a second ejector rod 73 is slidably arranged in the middle of the sliding support platform 22, a third spring 74 is sleeved on the second ejector rod 73, two ends of the third spring 74 are respectively connected to the sliding support platform 22 and the second ejector rod 73, a third connecting rod 75 is fixedly connected to the bottom end of the second ejector rod 73, and an ejector block 76 is fixedly connected to the top end of the second ejector rod 73.

When a worker needs to rivet and press a battery piece on a lithium battery, the worker needs to put the lithium battery on the moving mechanism 2 at intervals, the lithium battery is positioned on the moving mechanism 2, the worker needs to control the moving mechanism 2 to slide forwards and backwards, when the moving mechanism 2 slides backwards, the moving mechanism 2 slides backwards to drive the lithium battery to slide backwards, when the lithium battery slides backwards to be positioned below the riveting mechanism 3, the worker needs to control the riveting mechanism 3 to stretch, when the riveting mechanism 3 stretches, the riveting mechanism 3 rivets and presses the battery piece on the lithium battery, when the riveting mechanism 3 contracts, the riveting mechanism 3 moves upwards, when the riveting mechanism 3 moves upwards to temporarily stop contacting with the battery piece, the riveting mechanism 3 temporarily stops riveting and pressing the battery piece on the lithium battery, at the moment, the moving mechanism 2 slides forwards and resets, and then the worker needs to manually take out the lithium battery after riveting in the moving mechanism 2, if the worker needs to rivet the battery piece on the lithium battery continuously, the worker repeats the operation again, and the device can rivet the battery piece on the lithium battery at intervals.

Firstly, a worker needs to put lithium batteries and battery pieces on the circular workbench 23, when the batteries and the battery pieces are positioned on the circular workbench 23, the worker needs to control the first cylinder 25 to stretch, when the telescopic rod of the first cylinder 25 extends, the telescopic rod of the first cylinder 25 drives the first connecting rod 24 to move towards the front side, the first connecting rod 24 moves towards the front side to drive the sliding support platform 22 to slide towards the front side on the slide rail 21, the sliding support platform 22 slides towards the front side to drive the circular workbench 23 to move towards the front side, the front side movement of the circular workbench 23 drives the lithium batteries which are riveted to move towards the front side, then the worker can manually take out the lithium batteries on the circular workbench 23, when the first cylinder 25 contracts, the telescopic rod of the first cylinder 25 drives the first connecting rod 24 to move towards the rear side, the rear side movement of the first connecting rod 24 drives the sliding support platform 22 to slide towards the rear side on the slide rail 21, the sliding support table 22 slides towards the rear side to drive the circular workbench 23 to move towards the rear side, the circular workbench 23 moves towards the rear side to drive the lithium battery and the battery piece to move towards the rear side, when the lithium battery and the battery piece move towards the rear side to be located below the riveting mechanism 3, the riveting mechanism 3 rivets the battery piece on the lithium battery, when a worker does not need to rivet the battery piece on the lithium battery temporarily, after the first cylinder 25 contracts and resets, the worker needs to close the first cylinder 25, if the worker needs to continue to rivet the battery piece on the lithium battery, the worker repeats the operation again, and the device realizes the spaced riveting of the battery piece on the lithium battery.

When the lithium battery and the battery piece move to the rear side and are located below the riveting rod 32, a worker needs to start the second cylinder 35 to stretch, when the telescopic rod stretched by the second cylinder 35 stretches, the telescopic rod stretched by the second cylinder 35 can drive the pressing plate 36 to move downwards, the pressing plate 36 moves downwards to drive the riveting rod 32 to slide downwards in the first support frame 31, the first spring 33 is stretched, when the riveting rod 32 slides downwards to be in contact with the battery piece, the battery piece is pressed on the lithium battery by the riveting rod 32, when the telescopic rod stretched by the second cylinder 35 contracts, the telescopic rod stretched by the second cylinder 35 can drive the pressing plate 36 to move upwards, the pressing plate 36 moves upwards to drive the riveting rod 32 to slide upwards in the first support frame 31, the first spring 33 can assist the riveting rod 32 to slide upwards to reset, when the worker does not need to press the battery piece into the lithium battery temporarily, after the telescopic rod stretched by the second cylinder 35 resets, the worker needs to turn off the second cylinder 35, and if the worker needs to continue pressing the battery piece against the lithium battery, the worker repeats the above operation again, and the device achieves the purpose of pressing the battery piece against the lithium battery at intervals.

The process of manually placing the battery plates and the lithium batteries on the circular workbench 23 is complicated, so when the circular workbench 23 moves to the rear side, the circular workbench 23 moves to the rear side to drive the special-shaped rod 41 to move to the rear side, when the special-shaped rod 41 moves to the rear side to be contacted with the first push plate 45, the special-shaped rod 41 can drive the first push plate 45 to move to the left side, the first telescopic assembly 44 is compressed, at this time, the worker can place the battery plates and the lithium batteries in the material containing box 43, when the circular workbench 23 moves to the front side, the circular workbench 23 moves to the front side to drive the special-shaped rod 41 to move to the front side, when the special-shaped rod 41 moves to the front side to be temporarily stopped to be contacted with the first push plate 45, the first telescopic assembly 44 is reset, the first telescopic assembly 44 can push the first push plate 45 to move to the right side to be reset, the first push plate 45 can push the battery plates and the lithium batteries in the material containing box 43 to move to the right side, the striker plate 42 can avoid battery piece and lithium cell to drop subaerial, and first push pedal 45 can push away battery piece and lithium cell to circular table 23 on, if the workman still need continue to put battery piece and lithium cell on circular table 23, the workman repeats above-mentioned operation once more, and the device has just realized the spaced work of putting battery piece and lithium cell on circular table 23.

In order to avoid the problem that the first push plate 45 may directly push the battery plates and the lithium batteries in the material containing box 43 onto the circular workbench 23 at one time, when a worker places the battery plates and the lithium batteries in the material containing box 43, the battery plates and the lithium batteries extrude the second push plate 51 towards the rear side, the second push plate 51 moves towards the rear side and drives the second connecting rod 53 and the handle 54 to move towards the rear side, the second connecting rod 53 moves towards the rear side, the second telescopic assembly 52 is compressed, because the first telescopic assembly 44 is in an extended state, the battery plates and the lithium batteries cannot be temporarily pushed to the right side of the first push plate 45, after the first telescopic assembly 44 is compressed, the second telescopic assembly 52 is reset, the second telescopic assembly 52 pushes the second push plate 51 to move towards the front side, the second push plate 51 moves towards the front side and drives the second connecting rod 53 and the handle 54 to move towards the front side, and simultaneously, the second push plate 51 can slowly push the battery plates and the lithium batteries to the right side of the first push plate 45, furthermore, the device avoids the situation that the first push plate 45 can directly push the battery plates and the lithium batteries in the material containing box 43 to the circular workbench 23 at one time.

In order to increase the riveting speed of the battery plate and the lithium battery, when the circular worktable 23 moves towards the rear side, the circular worktable 23 drives the first ejector rod 61, the second spring 62 and the first connecting plate 63 to move towards the rear side, when the first connecting plate 63 moves towards the rear side to be contacted with the first arc-shaped guide rail 64, the first arc-shaped guide rail 64 pushes the first connecting plate 63 to move upwards, the second spring 62 is compressed, the first connecting plate 63 moves upwards to drive the first ejector rod 61 to slide upwards in the circular worktable 23, the first connecting plate 63 slides upwards to jack up the battery plate and the lithium battery, so that the riveting rod 32 can rivet and press the battery plate on the lithium battery quickly, when the circular worktable 23 moves towards the front side, the circular worktable 23 drives the first ejector rod 61, the second spring 62 and the first connecting plate 63 to move towards the front side, when the first connecting plate 63 moves towards the front side to be temporarily stopped being contacted with the first arc-shaped guide rail 64, second spring 62 acts on reseing, and second spring 62 can promote first connecting plate 63 and move down, and first connecting plate 63 moves down can drive first ejector pin 61 and slide down in circular workstation 23, and first connecting plate 63 slides down can temporarily stop upwards jack-up battery piece and lithium cell, and the device has realized the quick work of riveting the battery piece on the lithium cell of supplementary riveting pole 32 so.

When the circular workbench 23 moves forwards, the circular workbench 23 drives the ejector block 76 and the third spring 74 to move forwards, the ejector block 76 moves forwards to drive the second ejector rod 73 and the third connecting rod 75 to move forwards, the third connecting rod 75 moves forwards to contact with the second arc-shaped guide rail 72, the second arc-shaped guide rail 72 pushes the third connecting rod 75 to move upwards, the third connecting rod 75 moves upwards to drive the second ejector rod 73 to slide upwards in the circular workbench 23, the third spring 74 is compressed, the second ejector rod 73 slides upwards to drive the ejector block 76 to slide upwards, the ejector block 76 ejects out the lithium battery riveted on the circular workbench 23, when the circular workbench 23 moves backwards, the circular workbench 23 drives the ejector block 76 and the third spring 74 to move backwards, the ejector block 76 moves towards the rear side to drive the second ejector rod 73 and the third connecting rod 75 to move towards the rear side, when the third connecting rod 75 moves towards the rear side and temporarily stops contacting with the second arc-shaped guide rail 72, the third spring 74 resets, the third spring 74 pushes the second ejector rod 73 to slide downwards in the circular workbench 23, the second ejector rod 73 slides downwards to drive the third connecting rod 75 and the ejector block 76 to move downwards to reset, and the ejector block 76 temporarily stops ejecting the lithium battery subjected to riveting on the circular workbench 23.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments 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 riveting device for lithium cell battery piece, including base (1), characterized by: the top of the base (1) is provided with a moving mechanism (2), the top of the base (1) is provided with a riveting mechanism (3), and the riveting mechanism (3) is in contact fit with the top of the moving mechanism (2);

the top of the base (1) is symmetrically provided with sliding rails (21), a sliding support table (22) is arranged between the two sliding rails (21) in a sliding manner, the middle of the sliding support table (22) is provided with a circular workbench (23) in a penetrating manner, the top of the base (1) is fixedly connected with a first cylinder (25) through bolts, the end part of a telescopic rod of the first cylinder (25) is fixedly connected with a first connecting rod (24), and the end part of the first connecting rod (24) is connected with the bottom of the sliding support table (22);

the riveting device comprises a base (1), a first support frame (31) is fixedly connected to the top of the base (1), a riveting rod (32) is arranged in the first support frame (31) in a sliding mode, a first spring (33) is sleeved on the riveting rod (32), two ends of the first spring (33) are connected to the riveting rod (32) and the first support frame (31) respectively, a second support frame (34) is fixedly connected to the top of the first support frame (31), a second air cylinder (35) is fixedly connected to the top of the second support frame (34), a pressing plate (36) is arranged on the top of the riveting rod (32), and a telescopic rod of the second air cylinder (35) is connected to the top end of the pressing plate (36);

the top of the circular workbench (23) is fixedly connected with a special-shaped rod (41), the top of the circular workbench (23) is welded with a material baffle plate (42), the top of the base (1) is provided with a material containing box (43), the material containing box (43) is provided with a first telescopic assembly (44), the end part of the first telescopic assembly (44) is provided with a first push plate (45), and the special-shaped rod (41) is in contact fit with the first push plate (45);

the material containing box (43) is internally provided with a second push plate (51) in a sliding manner, a second telescopic assembly (52) is connected between the material containing box (43) and the end part of the second push plate (51), a second connecting rod (53) is welded on the second push plate (51), and the end part of the second connecting rod (53) is provided with a handle (54).

2. The riveting and pressing device for the battery piece of the lithium battery as claimed in claim 1, which is characterized in that: circular workstation (23) internal sliding formula is equipped with first ejector pin (61), first ejector pin (61) upper portion and circular workstation (23) slidingtype cooperation, first connecting plate (63) bottom welding of first ejector pin (61), the cover is equipped with second spring (62) on first ejector pin (61), the both ends of second spring (62) are connected respectively on first connecting plate (63) and slip supporting bench (22), base (1) top symmetry rigid coupling has first bracing piece (65), be connected with first arc guide rail (64) between two first bracing piece (65) tops.

3. The riveting and pressing device for the lithium battery cell as recited in claim 2, which is characterized in that: base (1) top symmetry is equipped with second bracing piece (71), be connected with second arc guide rail (72) between two second bracing piece (71) tops, the slidingtype second ejector pin (73) that is equipped with in slip supporting bench (22) middle part, the cover is equipped with third spring (74) on second ejector pin (73), the both ends of third spring (74) are connected respectively on slip supporting bench (22) and second ejector pin (73), second ejector pin (73) bottom rigid coupling has third connecting rod (75), second ejector pin (73) top rigid coupling has kicking block (76).

4. The riveting and pressing device for the lithium battery cell as recited in claim 1, which is characterized in that: the first push plate (45) is arc-shaped.