CN214383572U - Electricity core mantle loading attachment - Google Patents
Electricity core mantle loading attachment Download PDFInfo
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- CN214383572U CN214383572U CN202022649371.6U CN202022649371U CN214383572U CN 214383572 U CN214383572 U CN 214383572U CN 202022649371 U CN202022649371 U CN 202022649371U CN 214383572 U CN214383572 U CN 214383572U
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- 230000005611 electricity Effects 0.000 title description 10
- 230000007246 mechanism Effects 0.000 claims abstract description 76
- 238000001179 sorption measurement Methods 0.000 claims abstract description 34
- 238000009826 distribution Methods 0.000 claims abstract description 30
- 238000007667 floating Methods 0.000 claims description 15
- 238000009434 installation Methods 0.000 claims description 11
- 239000000463 material Substances 0.000 abstract description 6
- 238000000034 method Methods 0.000 description 5
- 238000007789 sealing Methods 0.000 description 5
- 230000007547 defect Effects 0.000 description 4
- 239000012528 membrane Substances 0.000 description 4
- 230000008901 benefit Effects 0.000 description 2
- WHXSMMKQMYFTQS-UHFFFAOYSA-N Lithium Chemical compound [Li] WHXSMMKQMYFTQS-UHFFFAOYSA-N 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000007664 blowing Methods 0.000 description 1
- 230000003139 buffering effect Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 230000003749 cleanliness Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000003792 electrolyte Substances 0.000 description 1
- 229910052744 lithium Inorganic materials 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000005086 pumping Methods 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model discloses an electric core mantle feeding device, which comprises a base, a conveying mechanism, an air supply driving mechanism and an adsorption mechanism for adsorbing an electric core, wherein the conveying mechanism, the air supply driving mechanism and the adsorption mechanism are all fixed on the base; the conveying end of the conveying mechanism is fixedly connected with the fixed end of the air supply driving mechanism, the telescopic air supply end of the air supply driving mechanism is communicated with the air inlet end of the adsorption mechanism, the adsorption mechanism comprises a vacuum sucker, the air supply driving mechanism comprises a guide rail, a sliding plate, a rodless cylinder and an air distribution block, a vacuum generator is arranged on the inner side of the guide rail, and the vacuum generator is communicated with the rodless cylinder; the guide rail is fixed on the base, the sliding plate is fixed on the guide rail in a sliding connection mode, the fixed end of the rodless cylinder is fixed on the sliding plate, the driving end of the rodless cylinder is communicated and fixed with the gas distribution block, and the gas distribution block is communicated and fixed with the vacuum chuck; carry out the not damaged material loading to electric core through this electric core mantle loading attachment, degree of mechanization is high, material loading efficiency is high, the cost of labor is low.
Description
Technical Field
The utility model relates to a battery preparation technical field especially relates to an electricity core mantle loading attachment.
Background
Lithium cell trade, need the covering membrane when cylinder electricity core uses, traditional clamping jaw presss from both sides and gets electric core and causes the collision, leads to electric core surface damage, to follow-up manufacturing and use, causes electrolyte weeping or insulating bad danger easily, the most conveyer belt forms that adopt of cover membrane machine conveying mechanism in addition, puts the battery through the manual work on the conveyer belt, carries to the covering membrane machine by the conveyer belt again and enough carries out the covering membrane, intensity of labour is big, inefficiency.
SUMMERY OF THE UTILITY MODEL
Based on the technical problem that the background art exists, the utility model provides an electricity core mantle loading attachment carries out not damaged material loading to electric core, and degree of mechanization is high, material loading efficiency is high, the cost of labor is low.
The utility model provides an electric core mantle feeding device, which comprises a base, a conveying mechanism, an air supply driving mechanism and an adsorption mechanism for adsorbing an electric core, wherein the conveying mechanism, the air supply driving mechanism and the adsorption mechanism are all fixed on the base; the conveying end of the conveying mechanism is fixedly connected with the fixed end of the air supply driving mechanism, and the telescopic air supply end of the air supply driving mechanism is communicated with the air inlet end of the adsorption mechanism.
Further, the adsorption mechanism comprises a vacuum chuck, the air supply driving mechanism comprises a guide rail, a sliding plate, a rodless cylinder and an air distribution block, a vacuum generator is arranged on the inner side of the guide rail, and the vacuum generator is communicated with the rodless cylinder; the guide rail is fixed on the base, the sliding plate is fixed on the guide rail in a sliding connection mode, the fixed end of the rodless cylinder is fixed on the sliding plate, the driving end of the rodless cylinder is fixedly communicated with the gas distribution block, and the gas distribution block is fixedly communicated with the vacuum chuck.
Further, the air supply driving mechanism further comprises an air guide rod, a telescopic rod and a sucker installation block, one end of the air guide rod is fixedly communicated with the hollow end of the rodless cylinder, the other end of the air guide rod is fixedly communicated with the air distribution block, one end of the telescopic rod is fixedly connected with the telescopic end of the rodless cylinder, the other end of the telescopic rod is fixedly connected with the air distribution block, and one end of the sucker installation block is communicated with the air distribution block and the other end of the sucker installation block is communicated with the vacuum sucker.
Furthermore, the outside of the sucker mounting block is connected with a male elbow, one end of the male elbow is communicated with the inside of the sucker mounting block, and the other end of the male elbow is communicated with the outside air.
Further, a vacuum switch valve for controlling the on/off of the male elbow is arranged on the male elbow.
Further, conveying mechanism includes backup pad, tow chain, slide and unsteady joint, and the tow chain groove has been seted up to the backup pad, and the one end of tow chain is fixed to be set up in the tow chain groove, the other end and unsteady joint fixed connection, unsteady joint and slide sliding connection, unsteady joint and slide fixed connection, the slide is fixed to be set up on the base.
Further, conveying mechanism still includes the tow chain support, the one end and the tow chain one end fixed connection of tow chain support, the other end and the unsteady joint fixed connection, the extension direction of slide is parallel with the extension direction of tow chain groove.
Furthermore, the axial end parts of the slide ways are respectively provided with a buffer block, and the buffer blocks are fixed on the base.
Furthermore, the air guide rod is connected with the air distribution block in a sealing mode, and the telescopic rod is connected with the air distribution block in a sealing mode.
The utility model provides a pair of electricity core mantle loading attachment's advantage lies in: the utility model provides an electricity core mantle loading attachment in the structure, adsorb the electricity core through adsorption mechanism, air feed actuating mechanism can drive the motion of adsorption mechanism on the one hand, on the other hand can provide the vacuum to adsorption mechanism for adsorption mechanism adsorbs the electricity core through pressure differential stability, accomplishes the absorption and the transport of electricity core; therefore, the moving mechanism is combined with the vacuum adsorption, so that the damage-free conveying of the battery cell is realized, and the defect that the quality of the battery cell is poor after subsequent film covering due to the damage of the surface of the battery cell caused by collision caused by clamping the battery cell by the clamping jaw in the traditional method is avoided; adopt the loading attachment of this application simultaneously, degree of mechanization is high, material loading efficiency is high, the cost of labor is low.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a plan view of FIG. 1;
FIG. 3 is a schematic structural view of a gas supply driving mechanism and an adsorption mechanism;
the device comprises a base 1, a conveying mechanism 2, an air supply driving mechanism 3, an adsorption mechanism 4, a support plate 21, a drag chain 22, a slideway 23, a floating joint 24, a drag chain groove 25, a drag chain support 26, a buffer block 27, a guide rail 31, a sliding plate 32, a rodless cylinder 33, an air distribution block 34, a vacuum generator 36, an air guide rod 37, an expansion rod 38, a suction cup mounting block 39, a male elbow 40, a vacuum suction cup 41 and a valve block fixing plate 42.
Detailed Description
The technical solutions of the present invention are explained in detail below with reference to specific embodiments, and many specific details are set forth in the following description to provide a thorough understanding of the present invention. The present invention can be embodied in many other forms than those specifically described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit and scope of the invention.
As shown in fig. 1 to 3, the utility model provides an electrical core covering film feeding device, which comprises a base 1, a conveying mechanism 2, an air supply driving mechanism 3 and an adsorption mechanism 4 for adsorbing an electrical core, wherein the conveying mechanism 2, the air supply driving mechanism 3 and the adsorption mechanism 4 are all fixed on the base 1; the conveying end of the conveying mechanism 2 is fixedly connected with the fixed end of the air supply driving mechanism 3, and the telescopic air supply end of the air supply driving mechanism 3 is communicated with the air inlet end of the adsorption mechanism 4.
The battery cell is adsorbed by the adsorption mechanism 4, and the air supply driving mechanism 3 can drive the adsorption mechanism 4 to move on one hand and provide vacuum for the adsorption mechanism 4 on the other hand, so that the adsorption mechanism 4 can stably adsorb the battery cell through pressure difference to complete adsorption and conveying of the battery cell; therefore, the moving mechanism is combined with the vacuum adsorption, so that the damage-free conveying of the battery cell is realized, and the defect that the quality of the battery cell is poor after subsequent film covering due to the damage of the surface of the battery cell caused by collision caused by clamping the battery cell by the clamping jaw in the traditional method is avoided; adopt the loading attachment of this application simultaneously, degree of mechanization is high, material loading efficiency is high, the cost of labor is low.
Further, the adsorption mechanism 4 comprises a vacuum chuck 41, the air supply driving mechanism 3 comprises a guide rail 31, a sliding plate 32, a rodless cylinder 33 and an air distribution block 34, a vacuum generator 36 is arranged on the inner side of the guide rail 31, and the vacuum generator 36 is communicated with the rodless cylinder 33; the guide rail 31 is fixed on the base 1, the sliding plate 32 is fixed on the guide rail 31 in a sliding connection mode, the fixed end of the rodless cylinder 33 is fixed on the sliding plate 32, the driving end of the rodless cylinder is communicated and fixed with the air distribution block 34, and the air distribution block 34 is communicated and fixed with the vacuum chuck 41. The air supply driving mechanism 3 further comprises an air guide rod 37, an expansion rod 38 and a suction cup mounting block 39, one end of the air guide rod 37 is fixedly communicated with the hollow end of the rodless cylinder 33, the other end of the air guide rod is fixedly communicated with the air distribution block 34, one end of the expansion rod 38 is fixedly connected with the expansion end of the rodless cylinder 33, the other end of the expansion rod is fixedly connected with the air distribution block 34, one end of the suction cup mounting block 39 is communicated with the air distribution block 34, and the other end of the suction cup mounting block is communicated with the vacuum suction cup 41. The slide plate 32 is driven by the conveying mechanism 2 to move on the guide rail 31, so that the rodless cylinder 33 fixed on the slide block 32 moves, and the vacuum chuck 41 finally adsorbing the battery cell moves.
Firstly, the air inlet end of the rodless cylinder 33 penetrates through the sliding plate 32 to be connected with an electromagnetic valve, the electromagnetic valve is connected with the vacuum generator 36 in a sealing mode, the air guide rod 37 is connected with the air distribution block 34 in a sealing mode, and the telescopic rod 38 is connected with the air distribution block 34 in a sealing mode, so that the vacuum generator 36, the rodless cylinder 33, the air guide rod 37, the air distribution block 34, the suction cup mounting block 39 and the vacuum suction cup 41 are sequentially communicated to form a vacuum channel, and the suction and the movement of the vacuum suction cup 41 are achieved.
After the operation of vacuum chuck 41 adsorbing electric core is finished, when electric core needs to be released, vacuum in the vacuum channel needs to be destroyed to make vacuum chuck 41 not have vacuum suction, therefore, the application design is as follows: the sucking disc mounting block 39 is externally connected with a male elbow 40, one end of the male elbow 40 is communicated with the inside of the sucking disc mounting block 39, the other end of the male elbow 40 is communicated with the outside air, and a vacuum switch valve for controlling the on/off of the male elbow 40 is arranged on the male elbow 40. The on/off of the male elbow 40 can be controlled through a vacuum switch valve to break or maintain the vacuum suction force of the vacuum chuck 41; the method specifically comprises the following steps: when the vacuum chuck 41 needs to release the battery cell, the vacuum switch valve is opened, so that the male elbow 40 is communicated, the blow-up valve through the vacuum generator 36 is opened, the blow-up valve and the male elbow 40 form an air duct communicated with the outside, air enters the vacuum channel, the vacuum property of the vacuum channel is damaged, the vacuum chuck 41 does not have vacuum suction, and the effective release of the battery cell is realized. When the vacuum chuck 41 needs to adsorb the electric core, the vacuum switch valve is closed, so that the male elbow 40 is not communicated, meanwhile, the air inlet valve of the vacuum generator 36 is opened, external air cannot enter the vacuum channel through the air blowing valve and the male elbow 40, the vacuum channel keeps vacuum performance, and the vacuum adsorption force of the vacuum chuck 41 is maintained.
Further, conveying mechanism 2 includes backup pad 21, tow chain 22, slide 23 and floating joint 24, and tow chain groove 25 has been seted up to backup pad 21, and the one end of tow chain 22 is fixed to be set up in tow chain groove 25, the other end and floating joint 24 fixed connection, and floating joint 24 and slide 23 sliding connection, floating joint 24 and slide 32 fixed connection, slide 23 fixed setting are on base 1. The conveying mechanism 2 further comprises a drag chain support 26, one end of the drag chain support 26 is fixedly connected with one end of the drag chain 22, the other end of the drag chain support is fixedly connected with the floating joint 24, and the extension direction of the slide rail 23 is parallel to the extension direction of the drag chain groove 25.
The movement of driving the vacuum chuck 41 through the drag chain 22 improves the movement stability of the vacuum chuck 41 on the one hand, and on the other hand, when a plurality of feeding devices exist, the mode of sharing the drag chain 22 can be adopted to realize the synchronous movement of the plurality of feeding devices so as to improve the film covering efficiency of the battery core.
In order to avoid the end derailing defect of the floating joint 24 during the movement on the slideway 23, the axial ends of the slideway 23 are respectively provided with a buffer block 27, and the buffer blocks 27 are fixed on the base 1. Buffer block 27 can be attached to set up the rubber pad in the butt department with floating joint 24 to further play the buffering effect of trading to floating joint 24, avoid at the in-process of floating joint 24 with the quick butt of buffer block 27, the defect that electric core was thrown away by vacuum chuck 41 because inertia.
It should be understood that, 1 to a plurality of vacuum chucks 41 may be provided in the same group of feeding devices to perform adsorption on a relatively large area of the battery cell, so as to improve the adsorption force on the battery cell, and further improve the stability and safety of the movement of the battery cell. For example, this application has set up two vacuum chuck groups, and every vacuum chuck group includes 3 vacuum chuck 41, and every vacuum chuck group is connected with branch gas piece 34 through corresponding sucking disc installation piece 39, and two vacuum chuck groups adopt two independent sucking disc installation pieces 39 to fix the intercommunication more, consequently obviously all are provided with public elbow 40 on every sucking disc installation piece 39. In addition, as shown in fig. 3, the vacuum chuck device is further provided with a valve block fixing plate 42, the valve block fixing plate 42 is communicated and fixed with the male elbow 40, the two sucker mounting blocks 39 are respectively and independently communicated with the valve block fixing plate 42, the uniformity of the sucker mounting blocks 39 during vacuum pumping is improved, and the adsorption force of the vacuum sucker 41 for adsorbing the battery cell is basically consistent.
The working process is as follows: the arrangement of the gas dividing port of the gas dividing block 34 avoids complex assembly and connection of multiple pipelines, and the use of the rodless cylinder 33 has the advantages of installation space saving, high cleanliness and easy maintenance and management functions; the vacuum switch valve is arranged on the sucker mounting block 39 and is controlled by an electric signal to open/close the air inlet work of the male elbow, so that the control effect on the formation and the damage of a vacuum channel is realized, and the work control on the suction, the transportation and the release of the electric core is increased;
the device uses the principle that the vacuum generator 36 is matched with the rodless cylinder 33 for use: the electromagnetic valve of the rodless cylinder 33 forms a sealed space with the vacuum generator 36 through the received electric signal, simultaneously the vacuum switch valve is closed, the compressed air flow of the air inlet valve of the vacuum generator 36 rises rapidly, the vacuum generator 36, the rodless cylinder 33, the air guide rod 37, the air distribution block 34, the sucker installation block 39 and the vacuum sucker 41 are communicated in sequence to form a vacuum channel, after the cell is sucked up by the vacuum sucker 41, the rodless cylinder 33 and the telescopic rod 38 are lifted and transferred, after the cell is transferred in place, the sealed space formed by the electromagnetic valve and the vacuum generator 36 is opened through the control of the electric signal, the blow-up valve of the vacuum generator 36 is opened, the vacuum switch valve is opened to open the male elbow 40, an air channel is formed between the blow-up valve and the male elbow 40, air enters rapidly through the blow-up valve to break the vacuum channel, the rodless cylinder 33 and the telescopic rod 38 descend and release the cell to complete the adsorption of the cell, And (4) transporting and placing.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (8)
1. The battery cell film-covering feeding device is characterized by comprising a base (1), a conveying mechanism (2), an air supply driving mechanism (3) and an adsorption mechanism (4) for adsorbing a battery cell, wherein the conveying mechanism (2), the air supply driving mechanism (3) and the adsorption mechanism (4) are all fixed on the base (1);
the conveying end of the conveying mechanism (2) is fixedly connected with the fixed end of the air supply driving mechanism (3), and the telescopic air supply end of the air supply driving mechanism (3) is communicated with the air inlet end of the adsorption mechanism (4);
the adsorption mechanism (4) comprises a vacuum chuck (41), the air supply driving mechanism (3) comprises a guide rail (31), a sliding plate (32), a rodless cylinder (33) and an air distribution block (34), a vacuum generator (36) is arranged on the inner side of the guide rail (31), and the vacuum generator (36) is communicated with the rodless cylinder (33);
the guide rail (31) is fixed on the base (1), the sliding plate (32) is fixed on the guide rail (31) in a sliding connection mode, the fixed end of the rodless cylinder (33) is fixed on the sliding plate (32), the driving end of the rodless cylinder is communicated and fixed with the air distribution block (34), and the air distribution block (34) is communicated and fixed with the vacuum chuck (41).
2. The battery core covering film feeding device according to claim 1, wherein the gas supply driving mechanism (3) further comprises a gas guide rod (37), an expansion rod (38) and a suction cup installation block (39), one end of the gas guide rod (37) is fixedly communicated with the hollow end of the rodless cylinder (33), the other end of the gas guide rod is fixedly communicated with the gas distribution block (34), one end of the expansion rod (38) is fixedly connected with the expansion end of the rodless cylinder (33), the other end of the expansion rod is fixedly connected with the gas distribution block (34), one end of the suction cup installation block (39) is communicated with the gas distribution block (34), and the other end of the suction cup installation block is communicated with the vacuum suction cup (41).
3. The battery core covering film feeding device according to claim 2, wherein a male elbow (40) is connected to the outside of the sucker mounting block (39), one end of the male elbow (40) is communicated with the inside of the sucker mounting block (39), and the other end of the male elbow is communicated with the outside air.
4. The battery cell covering film feeding device according to claim 3, wherein a vacuum switch valve for controlling on/off of the male elbow (40) is arranged on the male elbow (40).
5. The battery cell covering film feeding device according to claim 1, wherein the conveying mechanism (2) comprises a support plate (21), a drag chain (22), a slide way (23) and a floating joint (24), the support plate (21) is provided with a drag chain groove (25), one end of the drag chain (22) is fixedly arranged in the drag chain groove (25), the other end of the drag chain is fixedly connected with the floating joint (24), the floating joint (24) is slidably connected with the slide way (23), the floating joint (24) is fixedly connected with a sliding plate (32), and the slide way (23) is fixedly arranged on the base (1).
6. The battery cell sheathing feeding device according to claim 5, wherein the conveying mechanism (2) further comprises a drag chain support (26), one end of the drag chain support (26) is fixedly connected with one end of a drag chain (22), the other end of the drag chain support is fixedly connected with the floating joint (24), and the extension direction of the slideway (23) is parallel to the extension direction of the drag chain groove (25).
7. The battery cell covering film feeding device according to claim 5, wherein the axial ends of the slide ways (23) are respectively provided with a buffer block (27), and the buffer blocks (27) are fixed on the base (1).
8. The battery cell covering film feeding device according to claim 2, wherein the gas guide rod (37) is hermetically connected with the gas distribution block (34), and the telescopic rod (38) is hermetically connected with the gas distribution block (34).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022649371.6U CN214383572U (en) | 2020-11-16 | 2020-11-16 | Electricity core mantle loading attachment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022649371.6U CN214383572U (en) | 2020-11-16 | 2020-11-16 | Electricity core mantle loading attachment |
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CN214383572U true CN214383572U (en) | 2021-10-12 |
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CN202022649371.6U Active CN214383572U (en) | 2020-11-16 | 2020-11-16 | Electricity core mantle loading attachment |
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