CN220086337U - Electric core helium filling nail feeding clamp - Google Patents

Abstract

The utility model provides a helium charging and nailing clamp for a battery cell, which comprises a first mounting seat, a side baffle, an assembly seat, a cylinder and a compression pushing block, wherein the first mounting seat is used for supporting the battery cell in the vertical direction; the number of the side baffles is at least two, and the side baffles are arranged on the first mounting seat and are respectively positioned on two adjacent sides of the battery cell; the number of the assembly seats is at least two, and the assembly seats are arranged on the first installation seat and are respectively positioned on two adjacent sides of the battery cell and are respectively opposite to the two side baffles; the number of the air cylinders is at least two. The side baffle and the compression pushing block limit the battery core from four sides of the battery core, so that limit positioning treatment of the battery core is completed, and the positioned battery core increases the stability of helium filling and nailing. Because the limiting and positioning treatment of the battery cells is completed by the extension of the telescopic ends of the adjusting cylinders, the clamp can adapt to the battery cells with different sizes for clamping and fixing, and is convenient to use.

Description

Electric core helium filling nail feeding clamp

Technical Field

The utility model relates to the technical field of electric core helium filling and nailing, in particular to an electric core helium filling and nailing clamp.

Background

In the production process of the battery cell, the battery cell needs to be filled with helium and nailed in order to enable the battery cell to smoothly carry out the next sealing welding process after liquid injection, and the gas production expansion in the battery cell is prevented by filling helium and nailed in.

At present, when helium is filled into the battery cell, the battery cell is placed in a square groove matched with the external dimension of the battery cell, and the battery cell is limited and positioned through the groove wall of the square groove so as to perform helium filling and nailing operation.

The utility model with the publication number of CN104337686A provides a liquid injection device, which is characterized in that a liquid injection process and a process of pressing in a sealant nail are respectively operated at different stations, so that the sealant nail directly enters a liquid injection hole without passing through a liquid injection pipe, and the pollution of the sealant nail by electrolyte in the liquid injection pipe is avoided, therefore, the defects of pinholes, explosion points, steps, pits and the like in the subsequent laser welding process of the sealant nail can be reduced, the probability of causing the fire of a battery core is reduced, and the yield of the battery core is improved. But carry out spacing fixedly to not unidimensional electric core through this annotate liquid equipment inconvenient when filling helium and going into the nail operation, carry out spacing to electric core through square groove and can lead to when electric core dimensional tolerance is lower limit, electric core place can produce to rock in the groove, influence and fill helium and go into the nail result, and change electric core and need change mounting fixture, influence operating efficiency, therefore this scheme especially provides an electric core and fills helium and go into nail anchor clamps and solve above-mentioned problem.

Disclosure of Invention

In view of the above, the utility model provides a fixture for helium filling and nailing of a battery cell, and side baffles and a compression pushing block limit the battery cell from four sides of the battery cell, so that limit positioning treatment of the battery cell is completed, and the positioned battery cell increases the stability of helium filling and nailing of the battery cell. Because the limiting and positioning treatment of the battery cells is completed by the extension of the telescopic ends of the adjusting cylinders, the clamp can adapt to the battery cells with different sizes for clamping and fixing, and is convenient to use.

The technical scheme of the utility model is realized as follows: the utility model provides a fixture for charging helium into a nail of an electric core, which comprises a first mounting seat, a side baffle, an assembly seat, an air cylinder and a compression pushing block, wherein,

the first mounting seat is used for supporting the battery cell in the vertical direction;

the side baffles are at least two in number, are arranged on the first mounting seat and are respectively positioned on two adjacent sides of the battery cell;

the at least two assembly seats are arranged on the first installation seat, are respectively positioned on two adjacent sides of the battery cell, and are respectively arranged opposite to the two side baffles;

the number of the air cylinders is at least two, the air cylinders are respectively arranged on each assembly seat, and the telescopic ends of the air cylinders are telescopic towards the direction approaching or far away from the battery cell;

the number of the compression pushing blocks is at least two, and the compression pushing blocks are respectively arranged at the telescopic ends of the cylinders.

On the basis of the technical proposal, the device preferably further comprises a plurality of crimping pieces, wherein,

the crimping pieces are respectively arranged on one side of the side baffle plate, which is close to the battery cell, and the crimping pieces comprise an assembling end and a crimping end, wherein the crimping end is in contact with the battery cell and protrudes out of the assembling end in the width direction of the assembling end.

On the basis of the technical proposal, the utility model preferably further comprises a plurality of sliding connectors and a first fixing component, wherein,

the sliding connectors are respectively arranged on one side of the side baffle plate and one side of the compression pushing block, close to the battery cell, and slide towards the direction, close to or away from the first mounting seat, and the crimping connectors are respectively arranged on the sliding connectors;

the first fixing component is used for positioning the sliding position of the sliding connection piece relative to the first mounting seat.

On the basis of the above technical solution, preferably, the pressure connector is connected with the sliding connector by a bolt.

On the basis of the technical scheme, preferably, the sliding connection piece comprises a connection plate, the connection plate is arranged on one side, close to the battery cell, of the compression pushing block, a first sliding connection groove is formed in the connection plate, and the compression pushing block is inserted into the inner side of the first sliding connection groove and is in sliding connection with the connection plate.

On the basis of the technical proposal, the device preferably further comprises a second fixing component, wherein,

the side baffles are arranged in a sliding manner with the first mounting seat and slide in the length direction and the width direction of the battery cell respectively;

and the second fixing part is used for positioning the sliding position of the side baffle plate relative to the first mounting seat.

On the basis of the technical scheme, preferably, a second sliding groove is formed in one side of the first mounting seat corresponding to the side baffle plate, and the side baffle plates are inserted into the inner sides of the second sliding grooves and are in sliding connection with the first mounting seat.

On the basis of the technical proposal, the device preferably further comprises a third fixing component, wherein,

the plurality of assembly seats are arranged in a sliding manner with the first mounting seat and slide in the length direction and the width direction of the battery cell respectively;

the third fixing component is used for positioning the sliding position of the assembly seat relative to the first mounting seat.

On the basis of the above technical scheme, preferably, the first fixing part, the second fixing part and the third fixing part are fixing bolts, the side baffle and the sliding connection part are provided with first waist-shaped holes for the first fixing part to pass through, the first mounting seat is provided with second waist-shaped holes for the second fixing part to pass through, and the assembly seat is provided with third waist-shaped holes for the third fixing part to pass through.

On the basis of the technical proposal, the utility model preferably further comprises a second mounting seat and a stand column, wherein,

the upright post is arranged on one side of the first mounting seat far away from the battery cell;

the second mounting seat is arranged at one end of the upright post far away from the first mounting seat and used for being connected with a base of helium filling and nailing equipment.

Compared with the prior art, the fixture for charging helium into the electric core and nailing has the following beneficial effects:

(1) Through setting up side shield and cylinder, first mount pad sets up in the one side of filling helium into the nail equipment base when using, the electric core is through holding in the palm the top of putting at first mount pad for filling helium into the nail and handle, the electric core is located between side shield and the compression ejector pad in this moment, the expansion end of adjusting the cylinder is to the direction extension that is close to the electric core, a plurality of compression ejector pads are through promoting to the direction that is close to the side shield from the adjacent both sides of electric core this moment, the electric core is promoted and contradicted between side shield and compression ejector pad, side shield and compression ejector pad are spacing to the electric core from the four sides of electric core, thereby accomplish the spacing location processing to the electric core, the electric core that is fixed a position has increased the stability of filling helium into the nail to it. Because the limiting and positioning treatment of the battery cells is completed by the extension of the telescopic ends of the adjusting cylinders, the clamp can adapt to the battery cells with different sizes for clamping and fixing, and is convenient to use.

(2) Through setting up the crimping piece and including assembly end and crimping end, the crimping end is located one side of keeping away from first mount pad when using, carries out spacing centre gripping to the electric core through adjusting a plurality of crimping ends from the four sides of electric core and accomplishes the location processing to the electric core, and crimping end is located 2-3mm department near electric core top this, and the centre gripping is stable effectual, simultaneously because the crimping end is protruding the assembly end on the width direction of assembly end, so when holding the electric core through crimping end, the assembly end can keep away the position to the outer drum of electric core casing, facilitate the use.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front perspective view of a helium-filled and nailed clamp for a battery cell of the present utility model;

FIG. 2 is a rear perspective view of the helium-filled and nailed clamp of the present utility model;

FIG. 3 is a schematic perspective view of the structure of the assembly seat of the fixture for helium-filled electrical core nail of the present utility model;

FIG. 4 is an exploded view of the view of FIG. 3 of the cell helium-filled stapling fixture of the present utility model;

FIG. 5 is a rear perspective view of the view of FIG. 4 of the cell helium-filled stapling fixture of the present utility model;

FIG. 6 is a schematic perspective view of the structure at the side shield of the cell helium-filled stapling fixture of the present utility model;

FIG. 7 is an exploded view of the view of FIG. 6 of the cell helium-filled stapling fixture of the present utility model;

FIG. 8 is a perspective view of a crimp of the cell helium-filled stapling fixture of the present utility model;

fig. 9 is a perspective view of a first mounting seat of the cell helium-filled stapling fixture of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will clearly and fully describe the technical aspects of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, are intended to fall within the scope of the present utility model.

As shown in fig. 1 to 9, the fixture for charging helium into nails of electric core of the present utility model comprises a first mounting seat 1, a side baffle 3, an assembly seat 41, an air cylinder 42 and a compression pushing block 43, wherein the first mounting seat 1 is used for supporting the electric core 2 in the vertical direction, in particular implementation, the first mounting seat 1 is arranged at one side of the base of the apparatus for charging helium into nails, and the helium into nails of electric core 2 is processed by supporting electric core 2; the number of the side baffles 3 is at least two, and the side baffles are arranged on the first mounting seat 1 and are respectively positioned on two adjacent sides of the battery cell 2; the number of the assembly seats 41 is at least two, and the assembly seats are arranged on the first installation seat 1 and are respectively positioned on two adjacent sides of the battery cell 2 and are respectively opposite to the two side baffles 3; the number of the air cylinders 42 is at least two, and the air cylinders are respectively arranged on each assembly seat 41, and the telescopic ends of the air cylinders stretch in the direction approaching or separating from the battery cell 2; the number of the pressing pushing blocks 43 is at least two, and the pressing pushing blocks 43 are respectively arranged at the telescopic ends of the air cylinders 42, and in a specific implementation, the side baffle plates 3 and the pressing pushing blocks 43 are respectively positioned at four positions on the periphery side of the battery cell 2.

In specific implementation, the first mount pad 1 sets up in the one side of filling helium and going into the nail equipment base, electric core 2 is through holding in the palm and put at the top of first mount pad 1 for filling helium and go into the nail processing, electric core 2 is located between side shield 3 and the compression ejector pad 43 in this moment, the expansion end of adjusting cylinder 42 is to being close to electric core 2's direction extension, a plurality of compression ejector pad 43 are through pushing to the direction of being close to side shield 3 from the adjacent both sides of electric core 2 this moment, electric core 2 is pushed and is contradicted between side shield 3 and compression ejector pad 43, side shield 3 and compression ejector pad 43 carry out spacingly to electric core 2 from the four sides of electric core 2, thereby accomplish the spacing location processing to electric core 2, the electric core 2 of being located has increased the stability of filling helium into the nail to it. Because the limiting and positioning treatment on the battery cells 2 is completed by the extension of the telescopic ends of the adjusting air cylinders 42, the clamp can adapt to the battery cells 2 with different sizes for clamping and fixing, and is convenient to use.

As a preferred embodiment, a plurality of crimping pieces 51 are further included, wherein the plurality of crimping pieces 51 are provided at the side of the side shield 3 and the pressing push block 43, respectively, near the battery cell 2, and the crimping pieces 51 include a fitting end 511 and a crimping end 512, the crimping end 512 being in contact with the battery cell 2 and protruding the fitting end 511 in the width direction of the fitting end 511.

By means of the design, when the electric core positioning device is used, the press-connection ends 512 are located on one side far away from the first mounting seat 1, the electric core 2 is subjected to limiting clamping from four sides of the electric core 2 through adjusting the press-connection ends 512 to complete positioning processing of the electric core 2, the press-connection ends 512 are located at positions 2-3mm close to the top of the electric core 2, the clamping stability effect is better, meanwhile, the press-connection ends 512 protrude out of the assembly ends 511 in the width direction of the assembly ends 511, and therefore when the electric core 2 is clamped through the press-connection ends 512, the assembly ends 511 can avoid the outer drum of the electric core 2 shell, and the electric core positioning device is convenient to use.

As a preferred embodiment, the battery pack further comprises a plurality of sliding connectors 52 and a first fixing part 61, wherein the sliding connectors 52 are respectively arranged on one side of the side baffle 3 and the pressing push block 43 close to the battery cell 2 in a sliding way towards or away from the first mounting seat 1, and the pressing connectors 51 are respectively arranged on the sliding connectors 52; the first fixing member 61 is used for positioning the sliding position of the sliding contact 52 relative to the first mounting seat 1.

By means of the design, when the electric core pressing device is used, the height of the pressing connector 51 can be adjusted by adjusting the sliding connector 52 to slide relative to the side baffle 3 or the pressing push block 43, so that the pressing connector 51 can adapt to the heights of electric cores 2 with different sizes to perform pressing treatment, the pressing clamping effect is improved, and after the position of the pressing connector 51 is adjusted, the sliding position of the sliding connector 52 relative to the first mounting seat 1 is located through the first fixing part 61 for use.

As a preferred embodiment, the crimp 51 is connected to the slip connector 52 by a bolt.

By the design, the crimping piece 51 can be detached relative to the sliding piece 52, and maintenance or replacement of the crimping piece 51 is facilitated.

As a preferred embodiment, the sliding connector 52 includes a connecting plate 521, the connecting plate 521 is disposed on a side of the pressing push block 43 near the battery core 2, a first sliding groove 5211 is formed on the connecting plate 521, and the pressing push block 43 is inserted into the inner side of the first sliding groove 5211 and slidingly connected with the connecting plate 521.

By means of the design, the sliding connector 52 arranged at the position of the compression pushing block 43 is inserted into the inner side of the first sliding connection groove 5211 through the compression pushing block 43 to achieve sliding connection treatment between the connecting plate 521 and the compression pushing block 43, the compression pushing block 43 can only slide along the first sliding connection groove 5211, stability of sliding position adjustment of the connecting plate 521 is improved, stability of the connecting plate 521 after being positioned by the first fixing part 61 is improved, and use is facilitated.

As a preferred embodiment, the battery pack further comprises a second fixing member 62, wherein the plurality of side baffles 3 are slidably arranged with the first mounting seat 1, and slide in the length and width directions of the battery cell 2 respectively; the second fixing member 62 is used for positioning the sliding position of the side shield 3 relative to the first mount 1.

Through setting up a plurality of side shield 3 and all being the slip setting with first mount pad 1 like this, can the size of electric core 2 adjust a plurality of side shield 3 and slide in order to counterpoint electric core 2's middle part position when using to make the crimping piece 51 that sets up in side shield 3 department can adapt to electric core 2 centre gripping electric core 2 of equidimension stable, facilitate the use.

As a preferred embodiment, a second sliding groove 11 is formed on one side of the corresponding side baffle plate 3 of the first mounting seat 1, and a plurality of side baffle plates 3 are inserted into the second sliding groove 11 and are connected with the first mounting seat 1 in a sliding manner.

By means of the design, the side baffle 3 is connected with the first mounting seat 1 in a sliding connection mode through being inserted into the inner side of the second sliding connection groove 11, the side baffle 3 can only slide along the second sliding connection groove 11, sliding stability of the side baffle 3 is improved, meanwhile, stability of the side baffle 3 after connection can be improved under the limitation of the groove wall of the second sliding connection groove 11, and the side baffle is convenient to use.

As a preferred embodiment, the battery pack further comprises a third fixing member 63, wherein the plurality of mounting seats 41 are slidably arranged with the first mounting seat 1, and slide in the length and width directions of the battery cell 2, respectively; the third fixing member 63 is used for positioning the sliding position of the fitting seat 41 with respect to the first mounting seat 1.

By means of the design, the plurality of assembly seats 41 are arranged in a sliding mode with the first mounting seat 1, the plurality of assembly seats 41 can be adjusted to slide relative to the first mounting seat 1 through the size of the battery cell 2 when the battery pack is used, the crimping piece 51 arranged on the assembly seats 41 can adapt to the middle positions of the battery cells 2 in the opposite positions of the battery cells 2 with different sizes, clamping is stable, and the battery pack is convenient to use.

As a preferred embodiment, the first fixing member 61, the second fixing member 62 and the third fixing member 63 are fixing bolts, the side baffle 3 and the sliding contact piece 52 are provided with a first waist-shaped hole 71 through which the first fixing member 61 passes, the first mounting seat 1 is provided with a second waist-shaped hole 72 through which the second fixing member 62 passes, and the mounting seat 41 is provided with a third waist-shaped hole 73 through which the third fixing member 63 passes.

In particular, the first fixing member 61, the second fixing member 62 and the third fixing member 63 slide along the first waist-shaped hole 71, the second waist-shaped hole 72 and the third waist-shaped hole 73, respectively, and when the fixing position is required, the first fixing member 61, the second fixing member 62 and the third fixing member 63 are rotated, and the positioning process is completed by pressing.

As a preferred embodiment, the battery pack further comprises a second mounting seat 81 and a stand column 82, wherein the stand column 82 is arranged on one side of the first mounting seat 1 away from the battery cell 2; the second mount 81 is disposed at an end of the upright 82 away from the first mount 1 for connecting to a base of a helium charging and nailing device.

In specific implementation, the second mounting seat 81 is connected to the base of the helium filling and nailing device through a bolt, and the welding head of the welding machine of the helium filling and nailing device moves in the Z direction on the helium filling and nailing device, so that the travel is limited, and in order to enable the fixture to adapt to the moving path of the welding head to carry out helium filling and nailing treatment on the battery cell 2, the height of the battery cell 2 is raised by the vertical column 82, and the use is convenient.

The working principle of the utility model is described as follows:

the second mounting seat 81 is connected to the base of the helium filling and nailing device through bolts, the battery cell 2 is supported on the top of the first mounting seat 1 for helium filling and nailing treatment, the battery cell 2 is located between the side baffle plate 3 and the compression pushing block 43, the air cylinder 42 is started, and the crimping piece 51 arranged on the side baffle plate 3 and the compression pushing block 43 is used for compressing the battery cell 2 from the peripheral side of the battery cell 2, so that clamping and positioning treatment of the battery cell 2 is completed. During clamping, the side baffle 3 can be adjusted to slide relative to the first mounting seat 1 according to the size of the battery cell 2, the adjusting assembly seat 41 can slide relative to the first mounting seat 1, the crimping piece 51 arranged on the side baffle 3 and the compression pushing block 43 can adapt to the lengths and widths of different battery cells 2 for clamping and fixing, the crimping piece 52 can be adjusted to slide, so that the crimping piece 51 can use the heights of different battery cells 2 for clamping and fixing, and after clamping, the crimping end 512 is positioned at a position which is 2-3mm close to the top of the battery cell 2, so that the clamping is stable, and the clamp can adapt to the battery cells 2 with different sizes for clamping and fixing, thereby being convenient to use.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a nail anchor clamps are gone into to electric core helium filling which characterized in that: comprises a first mounting seat (1), a side baffle plate (3), an assembling seat (41), an air cylinder (42) and a compression pushing block (43), wherein,

the first mounting seat (1) is used for supporting the battery cell (2) in the vertical direction;

the side baffles (3) are at least two in number, are arranged on the first mounting seat (1) and are respectively positioned on two adjacent sides of the battery cell (2);

the assembly seats (41) are at least two in number, are arranged on the first installation seat (1) and are respectively positioned on two adjacent sides of the battery cell (2) and are respectively opposite to the two side baffles (3);

the number of the air cylinders (42) is at least two, the air cylinders are respectively arranged on the assembly seats (41), and the telescopic ends of the air cylinders stretch in the direction approaching or separating from the battery cell (2);

and at least two compression pushing blocks (43) are arranged at the telescopic ends of the air cylinders (42) respectively.

2. The cell helium-filled stapling fixture of claim 1, wherein: also comprises a plurality of crimping members (51), wherein,

the plurality of crimping pieces (51) are respectively arranged on one side of the side baffle plate (3) and one side of the compression pushing block (43) close to the battery cell (2), the crimping pieces (51) comprise an assembling end (511) and a crimping end (512), and the crimping end (512) is in contact with the battery cell (2) and protrudes out of the assembling end (511) in the width direction of the assembling end (511).

3. The cell helium-filled stapling fixture of claim 2, wherein: also comprises a plurality of sliding connectors (52) and a first fixing part (61), wherein,

the sliding connectors (52) are respectively arranged on one side of the side baffle plate (3) and one side of the compression pushing block (43) close to the battery cell (2) in a sliding manner in a direction approaching or separating from the first mounting seat (1), and the crimping connectors (51) are respectively arranged on the sliding connectors (52);

and a first fixing part (61) for positioning the sliding position of the sliding connector (52) relative to the first mounting seat (1).

4. A cell helium-filled stapling fixture as recited in claim 3, wherein: the press-fit member (51) is connected with the sliding-fit member (52) by a bolt.

5. A cell helium-filled stapling fixture as recited in claim 3, wherein: the sliding connection piece (52) comprises a connection plate (521), the connection plate (521) is arranged on one side, close to the battery cell (2), of the compression pushing block (43), a first sliding connection groove (5211) is formed in the connection plate (521), and the compression pushing block (43) is inserted into the inner side of the first sliding connection groove (5211) and is in sliding connection with the connection plate (521).

6. A cell helium-filled stapling fixture as recited in claim 3, wherein: also comprises a second fixing part (62), wherein,

the side baffles (3) are arranged in a sliding manner with the first mounting seat (1) and slide in the length direction and the width direction of the battery cell (2) respectively;

and a second fixing part (62) for positioning the sliding position of the side baffle (3) relative to the first mounting seat (1).

7. The cell helium-filled stapling fixture of claim 6, wherein: the side baffle plate structure is characterized in that a second sliding groove (11) is formed in one side of the first mounting seat (1) corresponding to the side baffle plate (3), and a plurality of side baffle plates (3) are inserted into the inner side of the second sliding groove (11) and are in sliding connection with the first mounting seat (1).

8. The cell helium-filled stapling fixture of claim 7, wherein: also comprises a third fixing part (63), wherein,

the plurality of assembly seats (41) are arranged in a sliding manner with the first installation seat (1) and slide in the length direction and the width direction of the battery cell (2) respectively;

and a third fixing part (63) for positioning the sliding position of the assembly seat (41) relative to the first mounting seat (1).

9. The cell helium-filled stapling fixture of claim 8, wherein: the first fixing part (61), the second fixing part (62) and the third fixing part (63) are fixing bolts, the side baffle plate (3) and the sliding connection piece (52) are provided with first waist-shaped holes (71) for the first fixing part (61) to penetrate through, the first mounting seat (1) is provided with second waist-shaped holes (72) for the second fixing part (62) to penetrate through, and the assembly seat (41) is provided with third waist-shaped holes (73) for the third fixing part (63) to penetrate through.

10. The cell helium-filled stapling fixture of claim 1, wherein: also comprises a second mounting seat (81) and a stand column (82), wherein,

the upright post (82) is arranged on one side of the first mounting seat (1) far away from the battery cell (2);

the second installation seat (81) is arranged at one end, far away from the first installation seat (1), of the upright post (82) and is used for being connected with a base of helium filling and nailing equipment.