CN104401662A - Battery material pushing mechanism - Google Patents
Battery material pushing mechanism Download PDFInfo
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- CN104401662A CN104401662A CN201410486088.2A CN201410486088A CN104401662A CN 104401662 A CN104401662 A CN 104401662A CN 201410486088 A CN201410486088 A CN 201410486088A CN 104401662 A CN104401662 A CN 104401662A
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- expansion spacing
- push rod
- spacing
- cylinder
- battery
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Abstract
The invention discloses a battery material pushing mechanism. The battery material pushing mechanism comprises a horizontal moving component and a gap expanding component. The gap expanding component comprises a gap expanding bottom plate; a gap expanding air cylinder is arranged on one side of the gap expanding bottom plate; at least two gap expanding guide rails with the gap gradually largened are formed on the gap expanding bottom plate in the direction from the position close to the gap expanding air cylinder to the position far away from the gap expanding air cylinder; a gap expanding pushing rod is arranged on each gap expanding guide rail; the gap expanding pushing rods are in transmission connection with the movable end of the gap expanding air cylinder; a horizontal moving rail of the horizontal moving component is arranged on the gap expanding bottom plate; the horizontal moving rail and the gap expanding sliding rails are staggered; and a pushing rod containing groove which is used for containing battery materials and can be selectively in abut joint with the horizontal moving rail is formed in one end, away from the gap expanding air cylinder, of each gap expanding pushing rod. According to the invention, a plurality of battery cell materials can be transferred at the same time, and meanwhile the distance between the battery cell materials is changed, and therefore the different requirements of different working procedures on gaps of the battery cell materials can be met; and the transferring efficiency of the battery materials is improved.
Description
Technical field
The present invention relates to the technical field of battery production equipment, particularly relate to a kind of battery pusher.
Background technology
Current various equipment is more and more diversified, but they have a common trend to be lightweight and convenient mobile, just because of the moveable feature of these equipment, these equipment cannot be connected on fixing external power supply for a long time, and the battery of therefore convenient movement plays more and more important role.Current battery is widely used in the fields such as radiocommunication, portable computer, Video Camera, medicine equipment, model plane power and remote control, instrument and meter, household small-size electrical equipment, toy and mini-motorcycle power supply, and market demand amount is very large.
The production efficiency of market demand to enterprise of battery proposes higher requirement, the input of battery production enterprise to automated production equipment is increasing, progressively achieve the production technology that multiple single-piece processes simultaneously, but cell production process is complicated, need successively through too much organizing treatment process, and the station distance difference between multiple single-pieces of process while different operation, difficulty is very large to cause turning between different operation to be expected, has a strong impact on the integral production efficiency of enterprise.
Based on above-mentioned situation, we need badly and propose a kind of battery that can change distance between multiple single-piece and turn materials device.
Summary of the invention
The object of the invention is to: a kind of battery pusher is provided, realize shifting multiple cell material simultaneously, change the distance between multiple cell material simultaneously, with the different demands of satisfied different operation to cell storeroom distance, improve battery material transfer efficiency.
For reaching this object, the present invention by the following technical solutions:
A kind of battery pusher, the translation assembly comprising index(ing) feed and the expansion spacing assembly be crisscross arranged with described translation assembly, described expansion spacing assembly comprises expansion spacing base plate, the side of described expansion spacing base plate is provided with expands spacing cylinder, described expansion spacing base plate offers the expansion spacing slide rail that at least two stripe pitch become large gradually along close described expansion spacing cylinder to the direction away from described expansion spacing cylinder, expand described in every bar on spacing slide rail and be provided with an expansion spacing push rod that can slide on described expansion spacing slide rail, described expansion spacing push rod is in transmission connection near the movable end of one end of described expansion spacing cylinder and described expansion spacing cylinder, the translation track of described translation assembly is arranged on described expansion spacing base plate, described translation track and described expansion spacing slide rail are crisscross arranged, described expansion spacing push rod offers the alternative push rod standing groove for holding battery material docked with described translation track away from one end of described expansion spacing cylinder.
Preferably, described expansion spacing base plate offers four described expansion spacing slide rails, the quantity of described expansion spacing push rod is four.
Particularly, battery material is mutually close in described translation track, when the movable end of described expansion spacing cylinder is retracted, described expansion spacing push rod moves to the side near described expansion spacing cylinder, now, described push rod standing groove docks with described translation track, battery material in described translation track is pushed in described push rod standing groove, then the movable end of described expansion spacing cylinder is protruding, described expansion spacing push rod slides along described expansion spacing slide rail and moves to the side away from described expansion spacing cylinder, because described expansion spacing slide rail becomes large along near described expansion spacing cylinder gradually to the direction spacing away from described expansion spacing cylinder, the spacing of the battery material therefore in difference described push rod standing groove is extended, realize changing the distance between cell material, to meet the different demands of next procedure to cell storeroom distance, improve battery material transfer efficiency.
As the preferred technical scheme of one, the movable end of described expansion spacing cylinder is provided with and expands spacing push pedal, the push pedal of described expansion spacing offers the push rod chute parallel with described translation track, described expansion spacing push rod is provided with the pusher slide roller corresponding with described push rod chute near one end of described expansion spacing cylinder, and described pusher slide roller is slidably arranged in described push rod chute.
Particularly, described expansion spacing push rod is along in described expansion spacing slide rail sliding process, distance between different described pusher slide rollers can change, by arranging described push rod chute, the distance between described pusher slide roller arbitrarily can be changed, effectively prevent described expansion spacing push rod and described expansion spacing slide rail is interfered even stuck.
As the preferred technical scheme of one, described expansion spacing base plate is provided with down away from the side of described expansion spacing cylinder and pushes away assembly, push away the corresponding described push rod standing groove of assembly under described to be provided with some alternatives and to insert and press down push rod in described push rod standing groove, the top pushing away assembly under described is provided with lower push cylinder, the movable end of described lower push cylinder is positioned at the side near described expansion spacing base plate, described in press down push rod and be fixedly installed on the movable end of described lower push cylinder away from one end of described expansion spacing base plate.
Preferably, push away assembly under described to comprise described in four and press down push rod.
Preferably, the movable end of described lower push cylinder has been horizontally disposed with and has pressed down push pedal, described in press down push rod be fixedly mounted on described in press down in push pedal.
Preferably, push away assembly under described and also comprise being fixed under on described expansion spacing base plate and push away support, described lower push cylinder be fixedly mounted on described under push away on support.
Particularly, when the movable end of described expansion spacing cylinder stretches out, described expansion spacing push rod moves to the side away from described expansion spacing cylinder, now, press down immediately below push rod described in described push rod standing groove is positioned at, press down push rod described in described lower push cylinder drives move downward and insert in described push rod standing groove, the battery material in described push rod standing groove is extruded, realize turning material.
As the preferred technical scheme of one, also comprise mounting base, stay bearing plate is provided with between described expansion spacing base plate and described mounting base, the position pressing down push rod described in described expansion spacing base plate correspondence offers some base plate downcast holes passed through for battery material, and described expansion spacing base plate is provided with the placement mould for shifting battery material with between described mounting base and the position of corresponding described base plate downcast hole.
By arranging described stay bearing plate, make, between described expansion spacing base plate and described mounting base, there is certain distance, make to form the passage placing mould between described expansion spacing base plate and described mounting base, described placement mould selectivity is positioned at immediately below described base plate downcast hole, and now battery material can pass from described base plate downcast hole and fall to described placement mould.
As the preferred technical scheme of one, described mounting base is provided with the glidepath be connected with the blanking assembly of preceding working procedure away from the side of described expansion spacing assembly, between described glidepath and described translation track, is provided with the rotary components of the placement direction of adjustable battery material.
Particularly, the battery material after preceding working procedure process enters described rotary components by described glidepath, and then described rotary components turns to described translation track position and is delivered in described translation track by battery material.
As the preferred technical scheme of one, described rotary components comprises the swivel block be rotatably arranged on described stay bearing plate, described swivel block offers the rotation standing groove for holding battery material, described rotation standing groove alternative is docked with described glidepath or described translation track.
Preferably, the length of described rotation standing groove equals four times of battery material diameter, namely can place four battery materials in described rotation standing groove simultaneously.
As the preferred technical scheme of one, the side of described swivel block is provided with the rotary cylinder driving described swivel block to rotate, the movable end of described rotary cylinder is linked on described swivel block, the fixed end of described rotary cylinder is linked at and rotates on adapter plate, and the height of the movable end of described rotary cylinder is higher than the height of the fixed end of described rotary cylinder.
Particularly, the movable end of described rotary cylinder is arranged on the position of the fixed end higher than described rotary cylinder, effectively ensures that the movable end of described rotary cylinder can promote described swivel block when stretching out and rotate up.
As the preferred technical scheme of one, described translation assembly also comprises flat-removing air cyclinder, described flat-removing air cyclinder to be arranged on described mounting base and to be positioned at the side of described swivel block away from described translation track, the movable end of described flat-removing air cyclinder is fixedly installed the alternative translation push rod inserted in described rotation standing groove.
Preferably, the length of described translation push rod is greater than the length of described rotation standing groove, to ensure that the battery material in described rotation standing groove can all be released and be delivered on described translation track by described translation push rod.
As the preferred technical scheme of one, described glidepath comprises downslide first end and second end that glides, and described downslide first end is connected with the blanking assembly of preceding working procedure, and described downslide second end selectivity is connected with described rotation standing groove.
Preferably, described glidepath is arranged on described mounting base by downslide fixed block.
As the preferred technical scheme of one, the both sides of described expansion spacing slide rail are provided with limiting stopper, and the corresponding described translation track of described limiting stopper offers the mouth of stepping down passed for battery material.
Battery material of the present invention can be battery, also can be the cylindric workpiece such as box hat, battery core of battery.
Beneficial effect of the present invention is: provide a kind of battery pusher, realize shifting multiple cell material simultaneously, change the distance between multiple cell material simultaneously, with the different demands of satisfied different operation to cell storeroom distance, improve battery material transfer efficiency.
Accompanying drawing explanation
According to drawings and embodiments the present invention is described in further detail below.
The three-dimensional structure diagram (translation push rod does not insert and rotates standing groove) that Fig. 1 is the first visual angle of the battery pusher described in embodiment;
The three-dimensional structure diagram (translation push rod does not insert and rotates standing groove) that Fig. 2 is the second visual angle of the battery pusher described in embodiment;
The three-dimensional structure diagram (translation push rod inserts and rotates standing groove) at the 3rd visual angle that Fig. 3 is the battery pusher described in embodiment;
The three-dimensional structure diagram (translation push rod inserts and rotates standing groove) at the 4th visual angle that Fig. 4 is the battery pusher described in embodiment;
The assembling assumption diagram that Fig. 5 is the expansion spacing assembly described in embodiment and limiting stopper;
Fig. 6 is the three-dimensional structure diagram of the expansion spacing assembly described in embodiment;
Fig. 7 is the partial enlarged drawing of the position of A shown in Fig. 6.
In Fig. 1 to Fig. 7:
1, glidepath; 11, downslide first end; 12, glide the second end; 13, downslide fixed block;
2, rotary components; 21, swivel block; 211, standing groove is rotated; 22, rotary cylinder; 23, adapter plate is rotated;
3, translation assembly; 31, flat-removing air cyclinder; 32, translation push rod; 33, translation track;
4, spacing assembly is expanded; 41, spacing base plate is expanded; 411, spacing slide rail is expanded; 412, base plate downcast hole; 42, spacing cylinder is expanded; 43, spacing push pedal is expanded; 431, push rod chute; 44, spacing push rod is expanded; 441, pusher slide roller; 442, push rod standing groove;
5, assembly is pushed away under; 51, support is pushed away under; 52, lower push cylinder; 53, push pedal is pressed down; 54, push rod is pressed down;
6, mounting base; 7, stay bearing plate; 8, limiting stopper; 9, battery material.
Detailed description of the invention
Technical scheme of the present invention is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.
As shown in Fig. 1 ~ 7, in the present embodiment, a kind of battery pusher, the translation assembly 3 comprising index(ing) feed and the expansion spacing assembly 4 be crisscross arranged with translation assembly 3, expand spacing assembly 4 and comprise expansion spacing base plate 41, the side expanding spacing base plate 41 is provided with expands spacing cylinder 42, expansion spacing base plate 41 offers the expansion spacing slide rail 411 that four stripe pitch become large gradually along close expansion spacing cylinder 42 to the direction away from expansion spacing cylinder 42, every bar expansion spacing slide rail 411 is provided with one and can expands the expansion spacing push rod 44 that spacing slide rail 411 slides, the translation track 33 of translation assembly 3 is arranged on and expands on spacing base plate 41, translation track 33 is crisscross arranged with expansion spacing slide rail 411, the both sides expanding spacing slide rail 411 are provided with limiting stopper 8, the corresponding translation track 33 of limiting stopper 8 offers the mouth of stepping down passed for battery material 9.The movable end of expansion spacing cylinder 42 is provided with and expands spacing push pedal 43, expand in spacing push pedal 43 and offer the push rod chute 431 parallel with translation track 33, expand spacing push rod 44 and the one end expanding spacing cylinder 42 is provided with the pusher slide roller 441 corresponding with push rod chute 431, pusher slide roller 441 is slidably arranged in push rod chute 431 and also realizes being in transmission connection, and expands spacing push rod 44 and offers the alternative push rod standing groove 442 for holding battery material 9 docked with translation track 33 away from the one end expanding spacing cylinder 42.Expand spacing push rod 44 along in expansion spacing slide rail 411 sliding process, distance between different pusher slide rollers 441 can change, by arranging push rod chute 431, the distance between pusher slide roller 441 arbitrarily can be changed, effectively prevent to expand spacing push rod 44 and expand spacing slide rail 411 and interfering even stuck.
This battery pusher also comprises mounting base 6, expand between spacing base plate 41 and mounting base 6 and be provided with stay bearing plate 7, the position that expansion spacing base plate 41 correspondence presses down push rod 54 offers some base plate downcast holes 412 passed through for battery material 9, and expansion spacing base plate 41 and between the mounting base 6 and position of corresponding base plate downcast hole 412 are provided with the placement mould for shifting battery material 9.By arranging stay bearing plate 7, make, between expansion spacing base plate 41 and mounting base 6, there is certain distance, make to form the passage placing mould between expansion spacing base plate 41 and mounting base 6, described placement mould selectivity is positioned at immediately below base plate downcast hole 412, and now battery material 9 can pass from base plate downcast hole 412 and fall to described placement mould.
Expansion spacing base plate 41 is provided with down away from the side expanding spacing cylinder 42 and pushes away assembly 5, under push away assembly 5 and comprise being fixed on to expand under on spacing base plate 41 and push away support 51, under push away support 51 top be provided with lower push cylinder 52, the movable end of lower push cylinder 52 is positioned at the side near expanding spacing base plate 41, and the movable end of lower push cylinder 52 has been horizontally disposed with and has pressed down push pedal 53.Under push away the corresponding push rod standing groove 442 of assembly 5 and be provided with four alternative insertions and press down push rod 54 in push rod standing grooves 442, press down push rod 54 and be fixedly mounted on away from the one end expanding spacing base plate 41 and press down in push pedal 53.Particularly, when the movable end expanding spacing cylinder 42 stretches out, expansion spacing push rod 44 moves to the side away from expanding spacing cylinder 42, now, push rod standing groove 442 is positioned at and presses down immediately below push rod 54, lower push cylinder 52 driving presses down push rod 54 and moves downward and insert in push rod standing groove 442, the battery material 9 in push rod standing groove 442 is extruded and passes base plate downcast hole 412 to fall in described placement mould, realizes turning material.
Mounting base 6 is provided with away from the side expanding spacing assembly 4 glidepath 1 be connected with the blanking assembly of preceding working procedure, between glidepath 1 and translation track 33, is provided with the rotary components 2 of the placement direction of adjustable battery material 9.Rotary components 2 comprises the swivel block 21 be rotatably arranged on stay bearing plate 7, swivel block 21 offers the rotation standing groove 211 for holding battery material 9, rotates standing groove 211 alternative and docks with glidepath 1 or translation track 33.The length rotating standing groove 211 equals four times of battery material 9 diameter, namely rotates in standing groove 211 and can place four battery materials 9 simultaneously.The side of swivel block 21 is provided with the rotary cylinder 22 driving swivel block 21 to rotate, the movable end of rotary cylinder 22 is linked on swivel block 21, the fixed end of rotary cylinder 22 is linked at and rotates on adapter plate 23, the height of the movable end of rotary cylinder 22, higher than the height of the fixed end of rotary cylinder 22, effectively ensures that the movable end of rotary cylinder 22 can promote swivel block 21 when stretching out and rotate up.
Translation assembly 3 also comprises flat-removing air cyclinder 31, and flat-removing air cyclinder 31 to be arranged on mounting base 6 and to be positioned at the side of swivel block 21 away from translation track 33, the movable end of flat-removing air cyclinder 31 is fixedly installed alternatively insert the translation push rod 32 rotated in standing groove 211.The length of translation push rod 32 is greater than the length rotating standing groove 211, to ensure that the battery material 9 rotated in standing groove 211 can all be released and be delivered on translation track 33 by translation push rod 32.
Glidepath 1 is arranged on mounting base 6 by downslide fixed block 13, and glidepath 1 comprises downslide first end 11 and second end 12 that glides, and downslide first end 11 is connected with the blanking assembly of preceding working procedure, and second end 12 selectivity that glides is connected with rotation standing groove 211.Particularly, battery material 9 after preceding working procedure process is by downslide first end 11 landing extremely downslide second end 12 of glidepath 1, and enter rotary components 2, then rotary components 2 turns to translation track 33 position, and the movable end of flat-removing air cyclinder 31 stretches out and is delivered in translation track 33 by battery material 9 simultaneously.
Particularly, battery material 9 is mutually close in translation track 33, when the movable end expanding spacing cylinder 42 is retracted, expand spacing push rod 44 and move to the close side expanding spacing cylinder 42, now, push rod standing groove 442 docks with translation track 33, battery material 9 in translation track 33 is pushed in push rod standing groove 442 under the driving effect of flat-removing air cyclinder 31, then the movable end expanding spacing cylinder 42 is protruding, expand spacing push rod 44 slide along expanding spacing slide rail 411 and move to the side away from expanding spacing cylinder 42, gradually become large along near expanding spacing cylinder 42 to away from the direction spacing expanding spacing cylinder 42 owing to expanding spacing slide rail 411, the spacing of the battery material 9 therefore in different push rod standing groove 442 is extended, realize changing the distance between cell material 9, to meet the different demands of next procedure to cell material 9 spacing, improve battery material 9 transfer efficiency.
Battery material 9 of the present invention can be battery, also can be the cylindric workpiece such as box hat, battery core of battery.In the present embodiment, battery material 9 is box hats.
" first ", " second " is herein only used to be distinguished in description, not special implication.
It is to be understood that; above-mentioned detailed description of the invention is only preferred embodiment of the present invention and institute's application technology principle; in technical scope disclosed in this invention, the change that any those skilled in the art of being familiar with easily expect or replacement, all should be encompassed in protection scope of the present invention.
Claims (10)
1. a battery pusher, it is characterized in that, the translation assembly comprising index(ing) feed and the expansion spacing assembly be crisscross arranged with described translation assembly, described expansion spacing assembly comprises expansion spacing base plate, the side of described expansion spacing base plate is provided with expands spacing cylinder, described expansion spacing base plate offers the expansion spacing slide rail that at least two stripe pitch become large gradually along close described expansion spacing cylinder to the direction away from described expansion spacing cylinder, expand described in every bar on spacing slide rail and be provided with an expansion spacing push rod that can slide on described expansion spacing slide rail, described expansion spacing push rod is in transmission connection near the movable end of one end of described expansion spacing cylinder and described expansion spacing cylinder, the translation track of described translation assembly is arranged on described expansion spacing base plate, described translation track and described expansion spacing slide rail are crisscross arranged, described expansion spacing push rod offers the alternative push rod standing groove for holding battery material docked with described translation track away from one end of described expansion spacing cylinder.
2. battery pusher according to claim 1, it is characterized in that, the movable end of described expansion spacing cylinder is provided with and expands spacing push pedal, the push pedal of described expansion spacing offers the push rod chute parallel with described translation track, described expansion spacing push rod is provided with the pusher slide roller corresponding with described push rod chute near one end of described expansion spacing cylinder, and described pusher slide roller is slidably arranged in described push rod chute.
3. battery pusher according to claim 1 and 2, it is characterized in that, described expansion spacing base plate is provided with down away from the side of described expansion spacing cylinder and pushes away assembly, push away the corresponding described push rod standing groove of assembly under described to be provided with some alternatives and to insert and press down push rod in described push rod standing groove, the top pushing away assembly under described is provided with lower push cylinder, the movable end of described lower push cylinder is positioned at the side near described expansion spacing base plate, described in press down push rod and be fixedly installed on the movable end of described lower push cylinder away from one end of described expansion spacing base plate.
4. the battery pusher according to any one of claims 1 to 3, it is characterized in that, also comprise mounting base, stay bearing plate is provided with between described expansion spacing base plate and described mounting base, the position pressing down push rod described in described expansion spacing base plate correspondence offers some base plate downcast holes passed through for battery material, and described expansion spacing base plate is provided with the placement mould for shifting battery material with between described mounting base and the position of corresponding described base plate downcast hole.
5. the battery pusher according to any one of Claims 1-4, it is characterized in that, described mounting base is provided with the glidepath be connected with the blanking assembly of preceding working procedure away from the side of described expansion spacing assembly, between described glidepath and described translation track, is provided with the rotary components of the placement direction of adjustable battery material.
6. the battery pusher according to any one of claim 1 to 5, it is characterized in that, described rotary components comprises the swivel block be rotatably arranged on described stay bearing plate, described swivel block offers the rotation standing groove for holding battery material, described rotation standing groove alternative is docked with described glidepath or described translation track.
7. the battery pusher according to any one of claim 1 to 6, it is characterized in that, the side of described swivel block is provided with the rotary cylinder driving described swivel block to rotate, the movable end of described rotary cylinder is linked on described swivel block, the fixed end of described rotary cylinder is linked at and rotates on adapter plate, and the height of the movable end of described rotary cylinder is higher than the height of the fixed end of described rotary cylinder.
8. the battery pusher according to any one of claim 1 to 7, it is characterized in that, described translation assembly also comprises flat-removing air cyclinder, described flat-removing air cyclinder to be arranged on described mounting base and to be positioned at the side of described swivel block away from described translation track, the movable end of described flat-removing air cyclinder is fixedly installed the alternative translation push rod inserted in described rotation standing groove.
9. the battery pusher according to any one of claim 1 to 8, it is characterized in that, described glidepath comprises downslide first end and second end that glides, and described downslide first end is connected with the blanking assembly of preceding working procedure, and described downslide second end selectivity is connected with described rotation standing groove.
10. the battery pusher according to any one of claim 1 to 9, is characterized in that, the both sides of described expansion spacing slide rail are provided with limiting stopper, and the corresponding described translation track of described limiting stopper offers the mouth of stepping down passed for battery material.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410486088.2A CN104401662B (en) | 2014-09-22 | 2014-09-22 | Battery material pushing mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410486088.2A CN104401662B (en) | 2014-09-22 | 2014-09-22 | Battery material pushing mechanism |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN104401662A true CN104401662A (en) | 2015-03-11 |
| CN104401662B CN104401662B (en) | 2017-01-11 |
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ID=52639354
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201410486088.2A Active CN104401662B (en) | 2014-09-22 | 2014-09-22 | Battery material pushing mechanism |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN104401662B (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN105347012A (en) * | 2015-10-26 | 2016-02-24 | 芜湖凯尔电气科技有限公司 | Transport device of superbattery |
| WO2019090670A1 (en) * | 2017-11-10 | 2019-05-16 | 贺碧先 | Battery toggling push mechanism |
| CN114834701A (en) * | 2022-04-20 | 2022-08-02 | 山水云(上海)信息科技有限公司 | Visual collection, reading and box association method and equipment for machine-readable codes of bottle bodies of round bottles with multiple specifications |
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| CN201089647Y (en) * | 2007-09-30 | 2008-07-23 | 汕头市粤东机械厂有限公司 | Bottle-distributing device for filling packing machine |
| CN201626106U (en) * | 2010-01-21 | 2010-11-10 | 徐爱方 | Varying pitch lane-changing mechanism of straight-line fully-automatic bottle blowing machine |
| CN203707263U (en) * | 2013-12-06 | 2014-07-09 | 浙江长兴竹园锂电池材料有限公司 | Lithium battery cap covering machine with functions of automatic feeding and discharging |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| US4079829A (en) * | 1976-12-01 | 1978-03-21 | Leonid Lavrentievich Belyshev | Device for assembling cylindrical primary current sources |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN105347012A (en) * | 2015-10-26 | 2016-02-24 | 芜湖凯尔电气科技有限公司 | Transport device of superbattery |
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| CN114834701A (en) * | 2022-04-20 | 2022-08-02 | 山水云(上海)信息科技有限公司 | Visual collection, reading and box association method and equipment for machine-readable codes of bottle bodies of round bottles with multiple specifications |
| CN114834701B (en) * | 2022-04-20 | 2024-02-20 | 山水云(上海)信息科技有限公司 | Vision acquisition and reading method and device for machine-readable codes of bottle bodies of round bottles with multiple specifications |
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| Publication number | Publication date |
|---|---|
| CN104401662B (en) | 2017-01-11 |
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