CN201051518Y - Automatic product line of button lithium manganese battery - Google Patents
Automatic product line of button lithium manganese battery Download PDFInfo
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- CN201051518Y CN201051518Y CNU2007200379649U CN200720037964U CN201051518Y CN 201051518 Y CN201051518 Y CN 201051518Y CN U2007200379649 U CNU2007200379649 U CN U2007200379649U CN 200720037964 U CN200720037964 U CN 200720037964U CN 201051518 Y CN201051518 Y CN 201051518Y
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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
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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
- 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
An automatic production line of lithium-manganese dioxide button cell belongs to technical field of cell production line, comprising a vacuum drying glove box (1), a negative pole casing vibration discharge machine (2) and an anodic casing vibration discharge machine (9). The automatic production line is characterized in that the vacuum drying glove box (1) is further provided inside with a conveyer belt (3), a lithium ribbon cutting device (4), a lithium material drawing device (5), an isolating film drawing device (6), an electrolytic solution charging device (7), an anodic discharge device (8), an anodic and negative pole casing aggregate unit (10) and a cell punching sealing device (11). The automatic production line meets urgent need of market, which is beneficial to enhancing productive efficiency of the lithium-manganese dioxide button cell.
Description
Technical field
The utility model relates to the battery automatic production line, especially a kind of button type lithium-manganese battery automatic production line equipment, specifically a kind of button type lithium-manganese battery automatic production line.
Background technology
As everyone knows, button type lithium-manganese battery is that a kind of use amount is very huge, and the battery of dependable performance is very popular, is widely used in each electronic product.
The mode of production of traditional button type lithium-manganese battery is a manual production, each lithium-manganese cell production has five processes, finish in the dry type glove box by five operative employees respectively, these five steps are: place the disk lithium electrode in cathode shell, on the lithium sheet, place barrier film, be barrier film filling electrolyte, on barrier film, place the manganese oxide positive plate that has soaked into electrolyte, installing anodal coverboard and pressing additional is shaped, its five step all needs to operate in glove box to finish, and employed raw material lithium sheet must be machined to the size of design in advance, and in order to guarantee that the lithium sheet contacts with the good of negative pole housing, must be in negative pole housing inboard weld metal net in advance, this processing mode not only efficient is low, required operating personnel are many, and cost of raw material height, operation is many, can not directly adopt the lithium band, also must when making, the negative electrode casing system increase the bigger wire netting welding work step of processing dimension, the general maximum production of existing manual production mode is about 10,000, therefore, battery production enterprise is in order to satisfy market demand many identical production lines must to be set and working extra shifts or extra hours and could satisfy the growing market demand.
Therefore, make button type lithium-manganese battery realize that automated production is to improve output, reduce cost, reduce operating personnel's only way, according to the knowledge of the applicant, still not having corresponding production line at present can be for selecting for use.
Summary of the invention
The purpose of this utility model is not high at button type lithium-manganese battery production efficiency, is badly in need of realizing the problem of automated production, designs a kind of button type lithium-manganese battery automatic production line.
The technical solution of the utility model is:
A kind of button type lithium-manganese battery automatic production line, comprise vacuumize glove box 1, negative pole hull vibration discharge machine 2 and anode casing vibration discharge machine 9, anode casing vibration discharge machine 9 and negative pole hull vibration discharge machine 2 are installed in the vacuumize glove box 1, it is characterized in that in described vacuumize glove box 1, conveyer belt 3 being installed also, lithium band cutting means 4, lithium material press molding equipment 5, barrier film press molding equipment 6, electrolyte filling apparatus 7, anode discharge device 8, anode casing and negative electrode casing are set up jointly to attach together and are put 10 and battery punching press closing device 11, the guide plate 34 of promising negative electrode casing body 33 guiding is installed in the both sides of conveyer belt 3,35, guide plate 34, form one between 35 and transmit passage 310, the discharging opening of negative pole hull vibration discharge machine 2 is relative with the feeding end of conveyer belt 3, lithium band cutting means 4, lithium material press molding equipment 5, barrier film press molding equipment 6, electrolyte filling apparatus 7, anode discharge device 8, anode casing and negative electrode casing are set up jointly to attach together and are put 10, battery punching press closing device 11 is installed in the one or both sides of conveyer belt 3 successively, they are connected to the production line of a continuous operation by conveyer belt 3, battery punching press closing device 11 is installed in anode casing and negative electrode casing and sets up jointly to attach together and put 10 discharge end, it or be arranged in described vacuumize glove box 1, or be arranged in second drying box 12 that communicates with described vacuumize glove box 1, on the described vacuumize glove box 1 or second drying box 12, be provided with battery finished product discharging opening.
Described lithium band cutting means 4 is mainly by input block 406, locating piece 407, IOB 412 and miniature punch press are formed, the input block 406 that negative pole housing 33 is pushed away conveyer belt 3 is installed in guide plate 34 and negative pole lithium material loading position opposite position, one side of input block 406 is provided with an arc section 411 that matches with negative pole housing 33, in the outside locating piece 407 is installed with the guide plate 35 at input block 406 relative position places, locating piece 407 is provided with also that a circular arc positioning section 408 that matches with negative pole housing 33 and one and circular arc positioning section 408 seamlessly transit, with the feeding-passage 409 that the conveyer belt direction of advance intersects, arc section 411 on the described input block 406 and the arc section on the locating piece 407 408 form envelope negative pole housings 33 and make it be positioned at detent in the locating piece 407; The drift 401 of miniature punch press be positioned at described detent directly over, a side of drift 401 be equipped with by on the weight feed wheels formed of wheel 416 and lower whorl 417, the lithium tep reel then is installed in a side of weight feed wheels, and the lithium band is fitted between wheel 416 and the lower whorl 417; The outlet of described feeding-passage 409 communicates with transmitting passage 310, is provided with at the other end of feeding-passage 409 and negative pole housing 33 is pushed the IOB 412 that transmits in the passage 310.
Described lithium material press molding equipment 5 is main by the punch press 501 that is installed in conveyer belt 3 one sides, counterdie 507, input block 506 and IOB 512 are formed, the input block 506 that negative pole housing 33 is pushed away conveyer belt 3 is installed in guide plate 34 and punch press drift relative position place, one side of input block 506 is provided with an arc section 511 that matches with negative pole housing 33, counterdie 507 is installed in the outside with the guide plate 35 at input block 506 relative position places, counterdie 507 is provided with also that a circular arc positioning section 508 that matches with negative pole housing 33 and one and circular arc positioning section 508 seamlessly transit, with the crossing feeding-passage 509 of conveyer belt direction of advance, arc section 511 on the described input block 506 and the arc section on the counterdie 507 508 forms envelope negative pole housings 33 and makes it be positioned at detent in the counterdie 507, the drift of described punch press 501 be positioned at this detent directly over, between this drift and negative pole housing 33, be coated with barrier paper 513; The outlet of described feeding-passage 509 communicates with transmission passage 310, be provided with at the other end of feeding-passage 509 and negative pole housing 33 pushed the IOB 512 that transmits in the passage 310, one end of barrier paper 513 is fixed on the discharge plate, the other end is fixed on the rewinding dish, and discharge plate and entry table are installed in the both sides of punch press drift respectively.
Described barrier film press molding equipment 6 is by punch press 666, diaphragm paper 613, locating unit 618 is formed, one end of diaphragm paper 613 is fixed on the discharge plate, the other end is fixed on the rewinding dish, its between discharge plate and rewinding dish section is the bottom that level places punch press drift 601, described drift 601 is made up of the cutting head 614 of hollow and the inserted link 615 that is movably arranged in the cutting head 614, be provided with the blade clearance between described cutting head 614 and the inserted link 615, under described cutting head 614, the bottom of diaphragm paper 613 be equipped with two ends communicate and have the interior step surface that makes negative pole housing 33 location cut mould 616, in the bottom that cuts mould 616 workpiece that is driven by drive unit is installed and holds upper boom 617, the negative pole housing 33 that has been suppressed with negative pole lithium sheet is positioned at the top that workpiece is held upper boom 617 under the effect of locating unit 618, described locating unit 618 is by two flipper guides 34 that are installed in line conveyor 3, input block 606 that negative pole housing 33 is pushed away conveyer belt 3 on 35 and the locating piece 607 relative with input block 606 are formed, one side of input block 606 is provided with an arc section 611 that matches with negative pole housing 33, locating piece 607 is provided with also that a circular arc positioning section 608 that matches with negative pole housing 33 and one and circular arc positioning section 608 seamlessly transit, with the crossing feeding-passage 609 of conveyer belt direction of advance, arc section 611 on the described input block 606 and the arc section on the locating piece 607 608 forms envelope negative pole housings 33 and makes it be positioned at location shrinkage pool in the locating piece 607, described work hold the upper end of upper boom 617 and this location shrinkage pool over against, the outlet of described feeding-passage 609 be positioned at two flipper guides 34, transmit passage 310 between 35 and communicate, be provided with at the other end of feeding-passage 609 and negative pole housing 33 pushed the IOB 612 that transmits in the passage 310.
Described electrolyte filling apparatus 7 is made up of the active block stop 701 that is installed in conveyer belt 3 one sides, topping-up pump 702 and filling head 703, topping-up pump 702 is installed in the vacuumize glove box 1, a side of conveyer belt 3, filling head 703 links to each other with topping-up pump 702 and is positioned at the top of the negative pole housing 33 of active block stop 701 1 sides, active block stop 701 is installed in a side of conveyer belt 3, and it links to each other with its driving cylinder that inserts, leaves conveyer belt 3 repeatedly circularly of drive.
Described anode discharge device 8 is by anode discharge workbench 801, anode conveyer belt 802, anode input block 803 and location explant 804 are formed, anode discharge workbench 801 and anode conveyer belt 802 are installed in a side of conveyer belt 3, the direction of rotation of the rotation direction of anode conveyer belt 802 and conveyer belt 3, anode input block 803 is movably arranged on a side of anode conveyer belt 802 and can promotes anode strip 44 and sends into through the opening on the guide plates 34 in the negative pole housing 33 transfer passage 310 from anode conveyer belt 802, and location explant 804 is installed in a side of guide plate 35 and can stretches into from the opening on the guide plate 35 and makes negative pole housing 33 location to finish the filling of anode strip 44 transfer passage 310.
Described anode casing and negative electrode casing are set up jointly to attach together and are put 10 mainly by being made up of stand type support 101, horizontal support 102 and holding head 103 and location explant 104, holding head 103 is movably arranged on the lateral frame 102, horizontal support 102 is movably arranged on the stand type support 101, stand type support 101 is installed in a side of conveyer belt 3, holding head 103 is positioned at the top of the outlet guide rail 103 of anode casing vibration discharge machine 9, and location explant 104 is arranged in the opposite side of conveyer belt 3 and can stretches into transfer passage 310 from the opening on the guide plate 34 and makes negative pole housing 33 clampings location.
Described battery punching press closing device 11 is made up of punch press 111, clamping and positioning device 112, and the punch die of punch press 111 is positioned at the top of clamping and positioning device 112; Described clamping and positioning device 112 is by input block 113, locating piece 114, IOB 115, the input block 113 that battery to be sealed 55 is pushed away conveyer belt 3 is installed in a side of guide plate 34, one side of input block 113 is provided with an arc section 116 that matches with battery 55 to be sealed, in the outside locating piece 114 is installed with the guide plate 35 at input block 113 relative position places, locating piece 114 is provided with also that a circular arc positioning section 117 that matches with battery 55 to be sealed and one and circular arc positioning section 117 seamlessly transit, with the feeding-passage 118 that the conveyer belt direction of advance intersects, arc section 116 on the described input block 113 and the circular arc positioning section on the locating piece 114 117 form envelope battery 55 to be sealed and make it be positioned at detent in the locating piece 114; The punch die of punch press 111 be positioned at this detent directly over, the outlet of feeding-passage 118 communicates with transmission passage 310, be provided with at the other end of feeding-passage 118 and the battery after sealing pushed the IOB 115 that transmits in the passage 310, described punch die has beats knockout rod from punch die with the battery after sealing.
Described conveyer belt 3 is by the conveying motor-driven that is installed in the one side.
The utlity model has following advantage:
The utility model provides guarantee for the automated production of button type lithium-manganese battery, and it is simple in structure, easy to use, the efficient height, and can reduce the manufacturing cost of raw-material cost and semi-finished product raw material greatly, wherein can directly select for use band as raw material as the lithium material of negative pole, need purchase the lithium sheet of sealing state supply during with manual production compares, cost can reduce significantly, in addition owing to adopt the bond strength that has increased lithium sheet and negative pole housing when square lithium piece is pressed into circular lithium sheet, in the time of therefore can saving manual manufacturing in the negative pole housing technology of weld metal conductive mesh, not only reduce cost, and make that the manufacturing of stainless steel negative pole housing is convenient.
The utility model has solved the adhesion problems of lithium material and punch die in the punching course by the method for using the plastic barrier band in carrying out the negative pole pressing process, and can connect production.
Electrical control of the present utility model all can adopt existing P LC to add that programming is realized with relevant controller, transducer, contactor, and productive temp can realize regulating by PLC and at corresponding position sensor installation.
Production efficiency of the present utility model can improve 2-4 doubly, and personnel can reduce over half, and the cost efficiency effect is obvious.
Description of drawings
Fig. 1 is an overall structure schematic diagram of the present utility model.
Fig. 2 is the structural representation of lithium band cutting means of the present utility model.
Fig. 3 is the negative pole housing positioning device structure schematic diagram that matches with Fig. 2.
Fig. 4 is the structural representation of lithium material press molding equipment of the present utility model.
Fig. 5 is the negative pole housing positioning device structure schematic diagram that matches with Fig. 4.
Fig. 6 is the structural representation of barrier film press molding equipment of the present utility model.
Fig. 7 is the negative pole housing positioning device structure schematic diagram that matches with Fig. 6.
Fig. 8 is that anode casing of the present utility model and negative electrode casing are set up jointly and attached together the structural representation of putting.
Fig. 9 is the vertical view of Fig. 8.
Figure 10 is of the present utility model and the structural representation of battery precompressed closing device.
Figure 11 is the positioning device structure schematic diagram for the treatment of sealed battery that matches with Figure 10.
Wherein 901 is pre-compressed spring, and 902 is the drift guide pin bushing, and 903 is drift, and 904 is seal mould, 905 are demoulding push rod, and 906 is ejector spring, and 419 is the lithium band, and 908 is dry transition case, 909 is electric liquid constant displacement pump, and 910 is the conveyer belt motor, and 911 are anode cover (or being called anode case).
Embodiment
Following structure drawings and Examples are further described the utility model.
Shown in Fig. 1-11.
A kind of button type lithium-manganese battery automatic production line, comprise vacuumize glove box 1, negative pole hull vibration discharge machine 2 and anode casing vibration discharge machine 9, anode casing vibration discharge machine 9 and negative pole hull vibration discharge machine 2 are installed in the vacuumize glove box 1, in described vacuumize glove box 1, conveyer belt 3 is installed also, lithium band cutting means 4, lithium material press molding equipment 5, barrier film press molding equipment 6, electrolyte filling apparatus 7, anode discharge device 8, anode casing and negative electrode casing are set up jointly to attach together and are put 10 and battery punching press closing device 11, the guide plate 34 of promising negative electrode casing body 33 guiding is installed in the both sides of conveyer belt 3,35, guide plate 34, form one between 35 and transmit passage 310, the discharging opening of negative pole hull vibration discharge machine 2 is relative with the feeding end of conveyer belt 3, lithium band cutting means 4, lithium material press molding equipment 5, barrier film press molding equipment 6, electrolyte filling apparatus 7, anode discharge device 8, anode casing and negative electrode casing are set up jointly to attach together and are put 10, battery punching press closing device 11 is installed in the one or both sides of conveyer belt 3 successively, they are connected to the production line of a continuous operation by conveyer belt 3, battery punching press closing device 11 is installed in anode casing and negative electrode casing and sets up jointly to attach together and put 10 discharge end, it or be arranged in described vacuumize glove box 1, or be arranged in second drying box 12 that communicates with described vacuumize glove box 1, on the described vacuumize glove box 1 or second drying box 12, be provided with battery finished product discharging opening.As shown in Figure 1, conveyer belt 3 wherein is by carrying motor 910 to drive.
Wherein:
Described lithium band cutting means 4 is mainly by input block 406, locating piece 407, IOB 412 and miniature punch press are formed, the input block 406 that negative pole housing 33 is pushed away conveyer belt 3 is installed in guide plate 34 and negative pole lithium material loading position opposite position, one side of input block 406 is provided with an arc section 411 that matches with negative pole housing 33, in the outside locating piece 407 is installed with the guide plate 35 at input block 406 relative position places, locating piece 407 is provided with also that a circular arc positioning section 408 that matches with negative pole housing 33 and one and circular arc positioning section 408 seamlessly transit, with the feeding-passage 409 that the conveyer belt direction of advance intersects, arc section 411 on the described input block 406 and the arc section on the locating piece 407 408 form envelope negative pole housings 33 and make it be positioned at detent in the locating piece 407; The drift 401 of miniature punch press be positioned at described detent directly over, a side of drift 401 be equipped with by on the weight feed wheels formed of wheel 416 and lower whorl 417, the lithium tep reel then is installed in a side of weight feed wheels, and the lithium band is fitted between wheel 416 and the lower whorl 417; The outlet of described feeding-passage 409 communicates with transmitting passage 310, is provided with at the other end of feeding-passage 409 and negative pole housing 33 is pushed the IOB 412 that transmits in the passage 310.As Fig. 2, shown in 3.Input block wherein and IOB all can be driven by driving cylinder, and productive temp can be controlled by PLC.
Described lithium material press molding equipment 5 is main by the punch press 501 that is installed in conveyer belt 3 one sides, counterdie 507, input block 506 and IOB 512 are formed, the input block 506 that negative pole housing 33 is pushed away conveyer belt 3 is installed in guide plate 34 and punch press drift relative position place, one side of input block 506 is provided with an arc section 511 that matches with negative pole housing 33, counterdie 507 is installed in the outside with the guide plate 35 at input block 506 relative position places, counterdie 507 is provided with also that a circular arc positioning section 508 that matches with negative pole housing 33 and one and circular arc positioning section 508 seamlessly transit, with the crossing feeding-passage 509 of conveyer belt direction of advance, arc section 511 on the described input block 506 and the arc section on the counterdie 507 508 forms envelope negative pole housings 33 and makes it be positioned at detent in the counterdie 507, the drift of described punch press 501 be positioned at this detent directly over, between this drift and negative pole housing 33, be coated with barrier paper 513; The outlet of described feeding-passage 509 communicates with transmission passage 310, be provided with at the other end of feeding-passage 509 and negative pole housing 33 pushed the IOB 512 that transmits in the passage 310, one end of barrier paper 513 is fixed on the discharge plate, the other end is fixed on the rewinding dish, and discharge plate and entry table are installed in the both sides of punch press drift respectively.Shown in Fig. 4,5.Input block wherein and IOB all can be driven by driving cylinder, and productive temp can be controlled by PLC.
Described barrier film press molding equipment 6 is by punch press 666, diaphragm paper 613, locating unit 618 is formed, one end of diaphragm paper 613 is fixed on the discharge plate, the other end is fixed on the rewinding dish, its between discharge plate and rewinding dish section is the bottom that level places punch press drift 601, described drift 601 is made up of the cutting head 614 of hollow and the inserted link 615 that is movably arranged in the cutting head 614, be provided with the blade clearance between described cutting head 614 and the inserted link 615, under described cutting head 614, the bottom of diaphragm paper 613 be equipped with two ends communicate and have the interior step surface that makes negative pole housing 33 location cut mould 616, in the bottom that cuts mould 616 workpiece that is driven by drive unit is installed and holds upper boom 617, the negative pole housing 33 that has been suppressed with negative pole lithium sheet is positioned at the top that workpiece is held upper boom 617 under the effect of locating unit 618, described locating unit 618 is by two flipper guides 34 that are installed in line conveyor 3, input block 606 that negative pole housing 33 is pushed away conveyer belt 3 on 35 and the locating piece 607 relative with input block 606 are formed, one side of input block 606 is provided with an arc section 611 that matches with negative pole housing 33, locating piece 607 is provided with also that a circular arc positioning section 608 that matches with negative pole housing 33 and one and circular arc positioning section 608 seamlessly transit, with the crossing feeding-passage 609 of conveyer belt direction of advance, arc section 611 on the described input block 606 and the arc section on the locating piece 607 608 forms envelope negative pole housings 33 and makes it be positioned at location shrinkage pool in the locating piece 607, described work hold the upper end of upper boom 617 and this location shrinkage pool over against, the outlet of described feeding-passage 609 be positioned at two flipper guides 34, transmit passage 310 between 35 and communicate, be provided with at the other end of feeding-passage 609 and negative pole housing 33 pushed the IOB 612 that transmits in the passage 3 10.As Fig. 6, shown in 7.Input block wherein and IOB all can be driven by driving cylinder, and productive temp can be controlled by PLC.
Described electrolyte filling apparatus 7 is by the active block stop 701 that is installed in conveyer belt 3 one sides, topping-up pump 702 and filling head 703 are formed, topping-up pump 702 is installed in the vacuumize glove box 1, one side of conveyer belt 3, filling head 703 links to each other with topping-up pump 702 and is positioned at the top of the negative pole housing 33 of active block stop 701 1 sides, active block stop 701 is installed in a side of conveyer belt 3, it inserts it and drive repeatedly circularly, the driving cylinder that leaves conveyer belt 3 links to each other, when active block stop 702 inserts on the conveyer belt 3, negative pole housing 33 is blocked so that finish electrolyte filling work, when leaving conveyer belt 3, negative pole housing 33 continues to advance to subsequent processing under the drive of conveyer belt 3.Active block stop 701 wherein can be driven by driving cylinder, and productive temp can be controlled by PLC, as shown in fig. 1.
Described anode discharge device 8 is by anode discharge workbench 801, anode conveyer belt 802, anode input block 803 and location explant 804 are formed, anode discharge workbench 801 and anode conveyer belt 802 are installed in a side of conveyer belt 3, the direction of rotation of the rotation direction of anode conveyer belt 802 and conveyer belt 3, anode input block 803 is movably arranged on a side of anode conveyer belt 802 and can promotes anode strip 44 and sends into through the opening on the guide plates 34 in the negative pole housing 33 transfer passage 310 from anode conveyer belt 802, and location explant 804 is installed in a side of guide plate 35 and can stretches into from the opening on the guide plate 35 and makes negative pole housing 33 location to finish the filling of anode strip 44 transfer passage 310.As shown in Figure 1.
Described anode casing and negative electrode casing are set up jointly to attach together and are put 10 mainly by being made up of stand type support 101, horizontal support 102 and holding head 103 and location explant 104, holding head 103 is movably arranged on the lateral frame 102, horizontal support 102 is movably arranged on the stand type support 101, stand type support 101 is installed in a side of conveyer belt 3, holding head 103 is positioned at the top of the outlet guide rail 103 of anode casing vibration discharge machine 9, and location explant 104 is arranged in the opposite side of conveyer belt 3 and can stretches into transfer passage 310 from the opening on the guide plate 34 and makes negative pole housing 33 clampings location.As Fig. 8, shown in 9.Input block wherein and IOB all can be driven by driving cylinder, and productive temp can be controlled by PLC.
Described battery punching press closing device 11 is made up of punch press 111, clamping and positioning device 112, and the punch die of punch press 111 is positioned at the top of clamping and positioning device 112; Described clamping and positioning device 112 is by input block 113, locating piece 114, IOB 115, the input block 113 that battery to be sealed 55 is pushed away conveyer belt 3 is installed in a side of guide plate 34, one side of input block 113 is provided with an arc section 116 that matches with battery 55 to be sealed, in the outside locating piece 114 is installed with the guide plate 35 at input block 113 relative position places, locating piece 114 is provided with also that a circular arc positioning section 117 that matches with battery 55 to be sealed and one and circular arc positioning section 117 seamlessly transit, with the feeding-passage 118 that the conveyer belt direction of advance intersects, arc section 116 on the described input block 113 and the circular arc positioning section on the locating piece 114 117 form envelope battery 55 to be sealed and make it be positioned at detent in the locating piece 114; The punch die of punch press 111 be positioned at this detent directly over, the outlet of feeding-passage 118 communicates with transmission passage 310, be provided with at the other end of feeding-passage 118 and the battery after sealing pushed the IOB 115 that transmits in the passage 310, described punch die has beats knockout rod from punch die with the battery after sealing.As Figure 10, shown in 11.Input block wherein and IOB all can be driven by driving cylinder, and productive temp can be controlled by PLC.
The course of work of the present utility model is:
At first negative pole housing 33 is poured into auto arrangement becomes recess upwards to enter on the conveyer belt 3 in the negative pole hull vibration discharge machine 2, at baffle plate 34,35 effect lower edge transfer passage 310 advances, when negative pole housing 3 when the effect of conveyer belt 3 is moved to the position of lithium band cutting means 4, be admitted in the positioner wherein of conveyer belt 3 one sides, after putting in place, lithium band cutting means 4 is washed into the square shape with banded lithium material and falls into negative pole housing 33, and then send back on the conveyer belt and to finish lithium on 3 and quantitatively insert operation, when the negative pole housing that the lithium piece is housed continues to proceed to the position of lithium material press molding equipment 5, being pushed away conveyer belt 3 once more, to enter punch die medium to be punched, between drift and lithium piece, be provided with the isolation strip that connects the folding and unfolding band, the lithium piece is stamped under the effect of punch press and the corresponding to negative pole lithium of negative pole housing 33 inner chambers sheet, finish lithium side and make the sired results preface, after punching press finishes, the negative pole housing 33 that negative pole lithium sheet is housed is pushed into once more and continues to be forwarded to barrier film press molding equipment 6 places on the conveyer belt 3 and pushed away conveyer belt 3 and enter in the positioner punching press filling diaphragm paper, diaphragm paper can adopt continuous folding and unfolding dish to carry out folding and unfolding, the die-cut insertion operation of diaphragm paper is promptly finished in die-cut end, the negative pole housing 33 that is fitted with diaphragm paper is pushed into once more and enters the quantitative instillation of carrying out electrolyte in next electrolyte filling apparatus 7 on the conveyer belt 3, the negative pole housing 33 in electrolysis Huaihe River of having annotated moves on and arrives anode discharge device 8 positions, upwards the anode strip feeding belt by wherein pushes in the negative pole housing 33 that the explant that is positioned on the conveyer belt 3 blocks by the one side of the anode strip band grid that manually will be soaked with electrolyte, realize the semi-automatic filling table of anode, finish and add the positive plate operation, explant is return into when the location, the negative pole housing 33 that has installed positive plate additional continues to the position of anode casing and negative pole housing composite set 10, the effect auto arrangement of pre-processed anodal housing by anode casing vibration discharge machine 9 becomes that Open Side Down and combines by wherein holding head sticking and with negative pole housing 33 that motion puts in place, finish and cover the positive cover operation, at this moment, the semi-finished product battery of building positive cover continues to and reaches battery punching press closing device 11 places, pushed away conveyer belt for the last time, enter position to be laminated, under the effect of mould shown in Figure 11, finish whole pressing sealing process, and then after once poured conveyer belt and under it drives, sent from the exit of vacuum drying chamber 1, wait for last packing work.
During concrete enforcement, but battery punching press closing device 11 both the such quilt shown in the image pattern 1 place one second drying box 12 separately, also can be directly installed in the vacuumize glove box 1.The driving of conveyer belt also can be adopted similar driving method, and each input, IOB all can adopt the pneumatic actuation mode.
The utility model does not relate to part as vibrates the prior aries that maybe can adopt all same as the prior art such as discharge device, electrical control gear, drying device, pneumatic means and realized.
Claims (9)
1. button type lithium-manganese battery automatic production line, comprise vacuumize glove box (1), negative pole hull vibration discharge machine (2) and anode casing vibration discharge machine (9), anode casing vibration discharge machine (9) and negative pole hull vibration discharge machine (2) are installed in the vacuumize glove box (1), it is characterized in that in described vacuumize glove box (1), also being equipped with conveyer belt (3), lithium band cutting means (4), lithium material press molding equipment (5), barrier film press molding equipment (6), electrolyte filling apparatus (7), anode discharge device (8), anode casing and negative electrode casing are set up jointly to attach together and are put (10) and battery punching press closing device (11), the guide plate (34 of promising negative electrode casing body (33) guiding is installed in the both sides of conveyer belt (3), 35), guide plate (34,35) form one between and transmit passage (310), the discharging opening of negative pole hull vibration discharge machine (2) is relative with the feeding end of conveyer belt (3), lithium band cutting means (4), lithium material press molding equipment (5), barrier film press molding equipment (6), electrolyte filling apparatus (7), anode discharge device (8), anode casing and negative electrode casing are set up jointly to attach together and are put (10), battery punching press closing device (11) is installed in the one or both sides of conveyer belt (3) successively, they are connected to the production line of a continuous operation by conveyer belt (3), battery punching press closing device (11) is installed in anode casing and negative electrode casing and sets up jointly and attach together the discharge end of putting (10), it or be arranged in described vacuumize glove box (1), or be arranged in second drying box (12) that communicates with described vacuumize glove box (1), on described vacuumize glove box (1) or second drying box (12), be provided with battery finished product discharging opening.
2. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that described lithium band cutting means (4) is mainly by input block (406), locating piece (407), IOB (412) and miniature punch press are formed, the input block (406) that negative pole housing (33) is pushed away conveyer belt (3) is installed in guide plate (34) and negative pole lithium material loading position opposite position, one side of input block (406) is provided with an arc section (411) that matches with negative pole housing (33), in the outside locating piece (407) is installed with the guide plate (35) at input block (406) relative position place, locating piece (407) is provided with also that a circular arc positioning section (408) that matches with negative pole housing (33) and one and circular arc positioning section (408) seamlessly transit, with the feeding-passage (409) that the conveyer belt direction of advance intersects, arc section (411) on the described input block (406) and the formation envelope negative pole housing (33) of the arc section (408) on the locating piece (407) also make it be positioned at detent in the locating piece (407); The drift of miniature punch press (401) be positioned at described detent directly over, a side of drift (401) be equipped with by on take turns the weight feed wheels that (416) and lower whorl (417) are formed, the lithium tep reel then is installed in a side of weight feed wheels, and the lithium band is fitted between wheel (416) and the lower whorl (417); The outlet of described feeding-passage (409) communicates with transmitting passage (310), is provided with at the other end of feeding-passage (409) and negative pole housing (33) is pushed the IOB (412) that transmits in the passage (310).
3. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that described lithium material press molding equipment (5) is mainly by the punch press that is installed in conveyer belt (3) one sides (501), counterdie (507), input block (506) and IOB (512) are formed, the input block (506) that negative pole housing (33) is pushed away conveyer belt (3) is installed in guide plate (34) and punch press drift relative position place, one side of input block (506) is provided with an arc section (511) that matches with negative pole housing (33), counterdie (507) is installed in the outside with the guide plate (35) at input block (506) relative position place, counterdie (507) is provided with also that a circular arc positioning section (508) that matches with negative pole housing (33) and one and circular arc positioning section (508) seamlessly transit, with the crossing feeding-passage (509) of conveyer belt direction of advance, arc section 511 on the described input block (506)) and the arc section (508) on the counterdie (507) forms an envelope negative pole housing (33) and make it be positioned at detent in the counterdie (507), the drift of described punch press (501) be positioned at this detent directly over, between this drift and negative pole housing (33), be coated with barrier paper (513); The outlet of described feeding-passage (509) communicates with transmission passage (310), be provided with at the other end of feeding-passage (509) and negative pole housing (33) pushed the IOB (512) that transmits in the passage (310), one end of barrier paper (513) is fixed on the discharge plate, the other end is fixed on the rewinding dish, and discharge plate and entry table are installed in the both sides of punch press drift respectively.
4. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that described barrier film press molding equipment (6) is by punch press (666), diaphragm paper (613), locating unit (618) is formed, one end of diaphragm paper (613) is fixed on the discharge plate, the other end is fixed on the rewinding dish, its between discharge plate and rewinding dish section is the bottom that level places punch press drift (601), described drift (601) is made up of the cutting head (614) of hollow and the inserted link (615) that is movably arranged in the cutting head (614), be provided with the blade clearance between described cutting head (614) and the inserted link (615), under described cutting head (614), the bottom of diaphragm paper (613) be equipped with two ends communicate and have the interior step surface that makes negative pole housing (33) location cut mould (616), in the bottom that cuts mould (616) workpiece that is driven by drive unit is installed and holds upper boom (617), the negative pole housing (33) that has been suppressed with negative pole lithium sheet is positioned at the top that workpiece is held upper boom (617) under the effect of locating unit (618), described locating unit (618) is by two flipper guides (34 that are installed in line conveyor (3), 35) input block (606) that negative pole housing (33) is pushed away conveyer belt (3) on and the locating piece (607) relative with input block (606) are formed, one side of input block (606) is provided with an arc section (611) that matches with negative pole housing (33), locating piece (607) is provided with also that a circular arc positioning section (608) that matches with negative pole housing (33) and one and circular arc positioning section (608) seamlessly transit, with the crossing feeding-passage (609) of conveyer belt direction of advance, arc section (611) on the described input block (606) and the arc section (608) on the locating piece (607) form an envelope negative pole housing (33) and make it be positioned at location shrinkage pool in the locating piece (607), described work hold the upper end of upper boom (617) and this location shrinkage pool over against, the outlet of described feeding-passage (609) be positioned at two flipper guides (34,35) transmit passage (310) between and communicate, be provided with at the other end of feeding-passage (609) and negative pole housing (33) pushed the IOB (612) that transmits in the passage (310).
5. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that described electrolyte filling apparatus (7) is by the active block stop that is installed in conveyer belt (3) one sides (701), topping-up pump (702) and filling head (703) are formed, topping-up pump (702) is installed in the vacuumize glove box (1), one side of conveyer belt (3), filling head (703) links to each other with topping-up pump (702) and is positioned at the top of the negative pole housing (33) of active block stop (701) one sides, active block stop (701) is installed in a side of conveyer belt (3), and it inserts it and drive repeatedly circularly, the driving cylinder that leaves conveyer belt (3) links to each other.
6. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that anode discharge device (8) is by anode discharge workbench (801), anode conveyer belt (802), anode input block (803) and location explant (804) are formed, anode discharge workbench (801) and anode conveyer belt (802) are installed in a side of conveyer belt (3), the direction of rotation of the rotation direction of anode conveyer belt (802) and conveyer belt (3), anode input block (803) is movably arranged on a side of anode conveyer belt (802) and can promotes anode strip (44) and sends into through the opening on guide plate (34) in the negative pole housing (33) the transfer passage (310) from anode conveyer belt (802), and location explant (804) is installed in a side of guide plate (35) and can stretches into from the opening on the guide plate (35) negative pole housing (33) is located to finish the filling of anode strip (44).
7. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that described anode casing and negative electrode casing are set up jointly to attach together puts (10) mainly by by stand type support (101), horizontal support (102) and holding head (103) and location explant (104) are formed, holding head (103) is movably arranged on the lateral frame (102), horizontal support (102) is movably arranged on the stand type support (101), stand type support (101) is installed in a side of conveyer belt (3), holding head (103) is positioned at the top of the outlet guide rail (103) of anode casing vibration discharge machine (9), and location explant (104) is arranged in the opposite side of conveyer belt (3) and can stretches into transfer passage (310) from the opening on the guide plate (34) and makes negative pole housing (33) clamping location.
8. button type lithium-manganese battery automatic production line according to claim 1, it is characterized in that described battery punching press closing device (11) is made up of punch press (111), clamping and positioning device (112), the punch die of punch press (111) is positioned at the top of clamping and positioning device (112); Described clamping and positioning device (112) is by input block (113), locating piece (114), IOB (115), the input block (113) that battery to be sealed (55) is pushed away conveyer belt (3) is installed in a side of guide plate (34), one side of input block (113) is provided with an arc section (116) that matches with battery (55) to be sealed, in the outside locating piece (114) is installed with the guide plate (35) at input block (113) relative position place, locating piece (114) is provided with also that a circular arc positioning section (117) that matches with battery (55) to be sealed and one and circular arc positioning section (117) seamlessly transit, with the feeding-passage (118) that the conveyer belt direction of advance intersects, the battery (55) that the arc section (116) on the described input block (113) and envelope of the formation of the circular arc positioning section (117) on the locating piece (114) are to be sealed also makes it be positioned at detent in the locating piece (114); The punch die of punch press (111) be positioned at this detent directly over, the outlet of feeding-passage (118) communicates with transmission passage (310), be provided with at the other end of feeding-passage (118) and the battery after sealing pushed the IOB (115) that transmits in the passage (310), described punch die has beats knockout rod from punch die with the battery after sealing.
9. button type lithium-manganese battery automatic production line according to claim 1 is characterized in that described conveyer belt (3) is by the conveying motor-driven that is installed in the one side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2007200379649U CN201051518Y (en) | 2007-05-23 | 2007-05-23 | Automatic product line of button lithium manganese battery |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2007200379649U CN201051518Y (en) | 2007-05-23 | 2007-05-23 | Automatic product line of button lithium manganese battery |
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CN201051518Y true CN201051518Y (en) | 2008-04-23 |
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CNU2007200379649U Expired - Lifetime CN201051518Y (en) | 2007-05-23 | 2007-05-23 | Automatic product line of button lithium manganese battery |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102872687A (en) * | 2011-07-15 | 2013-01-16 | 湖北骆驼蓄电池研究院有限公司 | Drying system for producing lithium ion batteries |
CN104359305A (en) * | 2014-11-10 | 2015-02-18 | 万英南 | Lithium cell or super capacitor manufacturing device |
WO2018107596A1 (en) * | 2016-12-14 | 2018-06-21 | 广州市永合祥自动化设备科技有限公司 | Automated packaging production line for storage battery |
CN110061253A (en) * | 2019-03-04 | 2019-07-26 | 惠州亿纬锂能股份有限公司 | Button cell manufacturing equipment |
-
2007
- 2007-05-23 CN CNU2007200379649U patent/CN201051518Y/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102872687A (en) * | 2011-07-15 | 2013-01-16 | 湖北骆驼蓄电池研究院有限公司 | Drying system for producing lithium ion batteries |
CN104359305A (en) * | 2014-11-10 | 2015-02-18 | 万英南 | Lithium cell or super capacitor manufacturing device |
WO2018107596A1 (en) * | 2016-12-14 | 2018-06-21 | 广州市永合祥自动化设备科技有限公司 | Automated packaging production line for storage battery |
CN110061253A (en) * | 2019-03-04 | 2019-07-26 | 惠州亿纬锂能股份有限公司 | Button cell manufacturing equipment |
CN110061253B (en) * | 2019-03-04 | 2021-01-26 | 惠州亿纬锂能股份有限公司 | Button cell manufacturing equipment |
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