CN2896530Y - Cell bending lid-enclosuring machine - Google Patents

Abstract

The utility model relates to a bending battery cover-sealing machine, which includes a machine frame and a feeding mechanism, a gripping mechanism, a bending mechanism and a cover-sealing mechanism arranged on the frame. Wherein, the gripping structure includes at least one limit gripper fixed on the frame. The others are mobile grippers of the power drive, which are located on the other four surfaces except for the joint surface of the frame with the feeding mechanism, together to limit the freeness of the cell in the five directions. The bending mechanism includes the top block and the pressing wheel positioned on the both sides of the cell's terminal cover. The cover sealing mechanism includes the pressing block of the power-drive. Adoption of the bending cover-sealing machine can effectively overcome the problems of low efficiency and high rejection rate in the process of manual bending cover-sealing, accomplish the cell's automatic bending cover-sealing, effectively promote the working efficiency and guarantee the quality of the products, thereby facilitating the industrial mass production and large-size high-quality operation demands.

Description

Battery bending capsuling machine

Technical field

The utility model belongs to the tooling device technical field, relates in particular to a kind of capping special equipment of square aluminum housing battery.

Background technology

The finishing operation of battery processing carries out capping to the end exactly, and common prismatic battery capping machinery equipment is more complete, does not have substantially and the capping special equipment of square aluminum housing battery is domestic.The structure of square aluminum housing battery as shown in Figure 1, comprise battery matrix 1 ', end cap 2 ', connect end cap 2 ' with matrix 1 ' brace 3 '; The work step of capping only had two steps: at first brace 3 ' bending, and then end cap 2 ' depress and housing 1 ' involution; The capping process need not to apply energetically, and processing is simple, and this type of battery volume is small and exquisite, in light weight simultaneously, generally adopts manual capping.

But there is following problem in manual capping: the one, and efficient is low; The 2nd, because of being to be connected between capping and the battery by two small and exquisite very thin braces, dynamics during capping is difficult for grasping, bending brace 3 ' in easily with brace 3 ' fracture, end cap 2 ' also easily be pressed into when depressing housing 1 ' in, produce the waster rate than higher.

Summary of the invention

The problem that efficient is low, the waster rate is high that the utility model causes in order to solve existing square aluminum housing battery and to adopt manual capping proposes a kind of battery bending capsuling machine.

This battery bending capsuling machine comprises frame and is installed in feed mechanism, clamp system, bending mechanism, capping mechanism on this frame; Described feed mechanism comprises and being installed on the described frame by power-actuated slide block mechanism; Described clamp system includes at least one and is fixed on spacing or fixture block on the described frame, and other are power-actuated movable clip block; Described spacing or fixture block with the slide block of described feed mechanism be distributed in except that with described frame joint face other four faces, with the degree of freedom of described frame limit battery in these five directions; Described bending mechanism comprises that respectively by power-actuated jacking block and pinch roller, described jacking block and pinch roller are installed in the both sides of end cover for battery cells respectively; Described capping mechanism comprises power-actuated compact heap.

Described battery bending capsuling machine, wherein: described bending capsuling machine also includes ejecting mechanism, and described ejecting mechanism comprises the push rod that ejects the cylinder driving.

Described battery bending capsuling machine, wherein: described power-actuated slide block mechanism comprises slide unit, slide rail, cylinder, described cylinder is fixed on the described frame, links with described slide unit; Described slide unit and slide rail are slidingly connected, and do and reciprocatingly slide; Described slide rail is horizontally fixed on the described frame.

Described battery bending capsuling machine, wherein: described clamp system comprises ambulatory splint, the guide vane end stop that strap, cylinder drive; The place ahead that described guide vane end stop is fixed on the described frame, battery is sent into; Described strap is arranged on a side of battery, and is vertical with described guide vane end stop; Described ambulatory splint is parallel with described strap, lays respectively at the both sides of battery, between connect by guide pillar, and move reciprocatingly along described guide pillar; Described cylinder is fixed on described frame one side by support.

Described battery bending capsuling machine, wherein: described bending mechanism is installed on the described frame position that the end cap with battery adapts, and comprises pinch roller, thimble that cylinder drives; Described pinch roller is driven by the press-bending cylinder, and described press-bending cylinder is installed in the described ambulatory splint outside by support, and links to each other with described pinch roller by the slide rail that is installed in described press-bending cylinder top; Described thimble is driven by the bending cylinder, and described bending cylinder is installed in the described strap outside by support, and links to each other with described thimble by the slide rail that is installed in described bending cylinder below.

Described battery bending capsuling machine, wherein: described capping mechanism comprises capping cylinder, compact heap; Described capping cylinder is installed on the described strap, and the described compact heap that drive to connect is done and pumped.

Described battery bending capsuling machine, wherein: described ejecting mechanism is arranged on the opposite side of described guide vane end stop, and described guide vane end stop is provided with the through hole with described push rod coupling; The described cylinder that ejects is fixed on the other end relative with described feed mechanism on the described frame.

Adopt this bending capsuling machine, effectively overcome the problem that efficient is low, percent defective is high that exists in the manual bending capping, realized the automatic bending capping of battery, effectively increased work efficiency, guarantee product quality, be beneficial to industrialized mass production and extensive high-quality job requirements.

Description of drawings

Fig. 1 is the structural representation of shell with square aluminum battery;

Fig. 2 is the agent structure schematic diagram vertical view of the utility model battery bending capsuling machine;

Fig. 3 is the agent structure schematic diagram front view of the utility model battery bending capsuling machine;

Fig. 4 is that the A-A of Fig. 3 is to cutaway view;

Fig. 5 is the B portion partial enlarged drawing of Fig. 4.

Embodiment

As Fig. 2, Fig. 3, Fig. 4, shown in Figure 5, battery bending capsuling machine of the present utility model comprises frame 10 and is installed in parts such as feed mechanism on the frame 10, clamp system, bending mechanism, capping mechanism, ejecting mechanism; Wherein clamp system includes at least one and is fixed on spacing or fixture block on the frame 10, other are power-actuated movable clip block, with feed mechanism be distributed in except that with 10 frame joint faces other four faces, with the degree of freedom of frame 10 limit battery in these five directions; Bending mechanism comprises jacking block and the pinch roller that is installed in the end cover for battery cells both sides; Capping mechanism comprises power-actuated compact heap.

Below in conjunction with concrete accompanying drawing detailed structure is further specified:

As Fig. 2, shown in Figure 3, wherein feed mechanism comprises slide unit 20, slide rail 19, feeding cylinder 18 etc.As shown in Figure 3, Figure 4, feeding cylinder 18 is fixed on the end of frame 10, links with slide unit 20; Slide unit 20 is slidingly connected with slide rail 19, does reciprocatingly sliding on the slide rail 19; Slide rail 19 is horizontally fixed on the frame 10; The capping end of battery 16 upwards is placed on the place ahead of slide unit 20, and feeding cylinder 19 promotes slide unit 20, advances thereby promote battery 16, realizes charging; Battery 16 is sent into the back through feed mechanism and is clamped by the clamp system location.

As Fig. 2, Fig. 3, shown in Figure 4, clamp system comprises strap 15, ambulatory splint 8, guide pillar 17, clamps cylinder 7, cylinder support 9, guide vane end stop 22; Wherein guide vane end stop 22 is arranged on the place ahead that battery 16 is sent into, and is fixed on the frame 10; Strap 15 is arranged on a side of battery 16, and is vertical mutually with guide vane end stop 22; Ambulatory splint 8 is parallel with strap 15, lays respectively at the both sides of battery 16, and links to each other with strap 15 by guide pillar 17, moves reciprocatingly along guide pillar 17, and battery 16 is placed on the frame 10 against ambulatory splint 8; Ambulatory splint 8 drives by clamping cylinder 7, clamps cylinder 7 and is fixed on frame 10 1 sides by cylinder support 9; When slide unit 20 promotes the position of battery 16 arrival guide vane end stops 22, clamp cylinder 7 and drive ambulatory splints 8 battery 16 clampings; This moment, battery 16 was limited the position of 5 directions respectively by guide vane end stop 22, strap 15, ambulatory splint 8, frame 10, slide unit 20, and the scope of activities of the end cap of battery 16 also is able to alignment restrictions; Battery 16 after the clamping carries out bending by bending mechanism to its end cap.

As Fig. 4, shown in Figure 5, bending mechanism is installed on the frame 10 position that the end cap with battery 16 adapts, and comprises press-bending cylinder 5, slide rail 4, pinch roller 3, cylinder support 6, bending cylinder 12, slide rail 13, thimble 14 and cylinder support 11; Wherein pinch roller 3 and thimble 14 are installed in the both sides of the end cap 160 of battery 16 respectively; Pinch roller 3 is driven by press-bending cylinder 5, and press-bending cylinder 5 is installed in ambulatory splint 8 outsides by cylinder support 6, and links to each other with pinch roller 3 by the slide rail 4 that is installed in press-bending cylinder 5 tops; Thimble 14 is driven by bending cylinder 12, and bending cylinder 12 is installed in strap 15 outsides by cylinder support 11, and links to each other with thimble 14 by the slide rail 13 that is installed in bending cylinder 12 belows; After battery 16 clamps, the following side trench 161 that is withstood the end cap 160 of battery 16 by bending cylinder 12 driving thimbles 14 leans against on the ambulatory splint 8, drive pinch roller 3 by press-bending cylinder 5 again, the end cap 160 that makes battery 16 is around being tilted by 161 rotations of side trench under the end cap that withstands, return pinch roller 3, thimble 14 then, carry out capping by capping mechanism.

As shown in Figure 3, Figure 4, capping mechanism comprises capping cylinder 1 and the compact heap 2 that drives thereof.Capping cylinder 1 is installed on the strap 15, and the compact heap 2 that drive to connect is done and pumped; After the end cap bending of battery 16, capping cylinder 1 drives compact heap 2 and depresses, and makes the end cap 160 of battery 16 be pressed into battery container; Return compact heap 2 then, battery 16 is ejected by ejecting mechanism.

As shown in Figure 3, ejecting mechanism is arranged on the opposite side of guide vane end stop 22, comprises the push rod 23 that liftout cylinder 21 drives, and guide vane end stop 22 is provided with the through hole 24 with push rod 23 couplings; Liftout cylinder 21 is fixed on the frame 10 other end relative with feeding cylinder 18; It is after battery 16 cappings finish, and ambulatory splint 8, slide unit 20 are return, and drives push rod 23 by liftout cylinder 21, passes the through hole 24 on the guide vane end stop 22, and the battery 16 that will be positioned at a relative side of guide vane end stop 22 ejects.

So realize battery feeding, clamping, bending, capping, eject circulation.

Be that what to adopt is that guide vane end stop 22 is fixedly mounted on the structure on the frame 10 in the above-described embodiments, in practice, guide vane end stop 22 also can adopt the movable structure by travel switch control, and at this moment, homonymy or opposite side that ejecting mechanism is arranged on feed mechanism all can.

Above-mentioned power drive can be electronic or pneumatic, and what adopt in an embodiment is pneumatic.

Claims (7)

1, a kind of battery bending capsuling machine is characterized in that: comprise frame and be installed in feed mechanism, clamp system, bending mechanism, capping mechanism on this frame;

Described feed mechanism comprises and being installed on the described frame by power-actuated slide block mechanism;

Described clamp system includes at least one and is fixed on spacing or fixture block on the described frame, and other are power-actuated movable clip block; Described spacing or fixture block with the slide block of described feed mechanism be distributed in except that with described frame joint face other four faces, with the degree of freedom of described frame limit battery in these five directions;

Described bending mechanism comprises that respectively by power-actuated jacking block and pinch roller, described jacking block and pinch roller are installed in the both sides of end cover for battery cells respectively;

Described capping mechanism comprises power-actuated compact heap.

2, battery bending capsuling machine as claimed in claim 1, it is characterized in that: described bending capsuling machine also includes ejecting mechanism, and described ejecting mechanism comprises the push rod that ejects the cylinder driving.

3, battery bending capsuling machine as claimed in claim 1 or 2, it is characterized in that: described power-actuated slide block mechanism comprises slide unit, slide rail, cylinder, described cylinder is fixed on the described frame, links with described slide unit; Described slide unit and slide rail are slidingly connected, and do and reciprocatingly slide; Described slide rail is horizontally fixed on the described frame.

4, battery bending capsuling machine as claimed in claim 1 or 2 is characterized in that: described clamp system comprises ambulatory splint, the guide vane end stop that strap, cylinder drive; The place ahead that described guide vane end stop is fixed on the described frame, battery is sent into; Described strap is arranged on a side of battery, and is vertical with described guide vane end stop; Described ambulatory splint is parallel with described strap, lays respectively at the both sides of battery, between connect by guide pillar, and move reciprocatingly along described guide pillar; Described cylinder is fixed on described frame one side by support.

5, battery bending capsuling machine as claimed in claim 1 or 2 is characterized in that: described bending mechanism is installed on the described frame position that the end cap with battery adapts, and comprises pinch roller, thimble that cylinder drives; Described pinch roller is driven by the press-bending cylinder, and described press-bending cylinder is installed in the described ambulatory splint outside by support, and links to each other with described pinch roller by the slide rail that is installed in described press-bending cylinder top; Described thimble is driven by the bending cylinder, and described bending cylinder is installed in the described strap outside by support, and links to each other with described thimble by the slide rail that is installed in described bending cylinder below.

6, battery bending capsuling machine as claimed in claim 4, it is characterized in that: described capping mechanism comprises capping cylinder, compact heap; Described capping cylinder is installed on the described strap, and the described compact heap that drive to connect is done and pumped.

7, battery bending capsuling machine as claimed in claim 4, it is characterized in that: described ejecting mechanism is arranged on the opposite side of described guide vane end stop, and described guide vane end stop is provided with the through hole with described push rod coupling; The described cylinder that ejects is fixed on the other end relative with described feed mechanism on the described frame.

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