CN208489289U - A kind of battery core turnover mechanism - Google Patents
A kind of battery core turnover mechanism Download PDFInfo
- Publication number
- CN208489289U CN208489289U CN201821311626.4U CN201821311626U CN208489289U CN 208489289 U CN208489289 U CN 208489289U CN 201821311626 U CN201821311626 U CN 201821311626U CN 208489289 U CN208489289 U CN 208489289U
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- battery core
- overturning
- component
- several
- workbench
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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
Abstract
The utility model belongs to cell manufacturing techniques field, discloses a kind of battery core turnover mechanism comprising: workbench;Feeding assembly is set on workbench, and it is mobile that feeding assembly can carry several battery cores;Overturn component, it is set on workbench and is located at the lower section of feeding assembly, overturning component includes a rollover stand that itself can be overturn, rollover stand overturns face there are two setting, several adsorption holes are arranged at intervals on two overturning faces, and several adsorption holes on two overturning faces are staggered, two overturning faces can receive the battery core from feeding assembly respectively and drive battery core to be overturn respectively;And component is accepted, it is set on workbench and is located at the lower section of rollover stand, the battery core after overturning component overturning can be received by accepting component.The utility model can be realized automatic turning battery core, guarantee that battery core accurately arranges on demand.
Description
Technical field
The utility model relates to cell manufacturing techniques field more particularly to a kind of battery core turnover mechanisms.
Background technique
Battery modules are ordered in a shell by several battery cores and are formed, wherein usually adjacent two battery cores assembling
When the same side polarity on the contrary, so that battery core two neighboring when circuit is connected can be serially connected.Shell is packed into battery core
Before body, all battery cores are placed in a magazine vertically, and anode upward or cathode upward, tradition is by manually will be electric
Core is packed into shell, judges the polarity of battery core, while being packed into be properly loaded into;Or by the way that manually battery core is overturn
After correct, it is transferred to next station, battery core is mechanically packed into shell.
By way of passing through artificial judgment battery core positive-negative polarity and overturning, overturning efficiency is lower, also, due to manually overturning
The phenomenon that intensity is larger, and mistake is easy to cause to turn over will cause the feelings that battery modules are not available when battery core is mistakenly packed into
Condition will affect its entire circuit system used when serious.
Utility model content
The purpose of this utility model is to provide a kind of battery core turnover mechanism, can automatic turning battery core, it is quasi- convenient for battery core
Really arrangement.
For this purpose, the utility model uses following technical scheme:
A kind of battery core turnover mechanism, including workbench, further includes:
Feeding assembly is set on the workbench, and it is mobile that the feeding assembly can carry several battery cores;
Component is overturn, the lower section of the feeding assembly is set on the workbench and is located at, the overturning component includes
One rollover stand that itself can be overturn, the rollover stand set that there are two the faces of overturning, are arranged at intervals on two overturning faces
Several adsorption holes, and several adsorption holes on two overturning faces are staggered, two overturning faces can connect respectively
It receives the battery core from the feeding assembly and drives battery core to be overturn respectively;And
Component is accepted, the lower section of the rollover stand is set on the workbench and is located at, the undertaking component can connect
Receive the battery core after the overturning component overturning.
Preferably, the rotation axis of the rollover stand be parallel to the workbench and perpendicular to the feeding assembly into
Expect direction.
Preferably, the overturning component includes the first fixed bracket being set on the workbench and the second fixed branch
Frame, the both ends of the rollover stand are rotationally connected with the described first fixed bracket and the second fixed bracket respectively.
Preferably, sliding is provided with one first sliding panel on the described first fixed bracket, described second is fixed on bracket
Sliding is provided with one second sliding panel, and the both ends of the rollover stand are rotationally connected with first sliding panel and described second respectively
Sliding panel.
Preferably, the overturning component further includes being set to rotary drive motor on first sliding panel, the rotation
The output end for turning driving motor is connect with one end of the rollover stand.
Preferably, the feeding assembly includes the charging support being set on the workbench and is slidably connected to institute
The suction elements of charging support are stated, the suction elements can in a row pick up battery core and battery core is moved to the rollover stand.
Preferably, the suction elements include the sliding seat for being slidably connected to the charging support, are slidably connected to institute
It states sliding seat and is capable of the lifter plate of the relatively described sliding seat lifting and is set to the adsorption plate of the lifter plate bottom.
Preferably, several first magnetic force columns and several second magnetic force columns are equipped on the adsorption plate, several described
One magnetic force column is corresponding with several absorption hole sites on an overturning face respectively, several second magnetic force column difference
It is corresponding with several absorption hole sites on overturning face described in another.
Preferably, sliding is provided with the first driving plate and the second driving plate, second driving plate on the lifter plate
Positioned at the lower section of first driving plate, several second magnetic force columns are connected to second driving plate, and several described first
Magnetic force column passes through second driving plate and is connected to first driving plate.
Preferably, the undertaking component includes:
Two bearing plates being set on the workbench, are provided at the top of the bearing plate and battery core shape cooperation
Arc groove;And
The baffle being slideably positioned on the bearing plate, the baffle on two bearing plates can be towards or away from
It is mobile.
The utility model has the beneficial effects that
One row's battery core is moved at rollover stand by the utility model by feeding assembly, the overturning face absorption of rollover stand
Battery core overturning is simultaneously placed on undertaking component by part battery core, another overturning face adsorbs remaining battery core and simultaneously overturns battery core simultaneously
It is placed in and accepts on component, can be realized automatic turning battery core, guarantee that battery core accurately arranges on demand.
Detailed description of the invention
Fig. 1 is the structural representation of the overturning component of the utility model battery core turnover mechanism and a visual angle of undertaking component
Figure;
Fig. 2 is the structural representation of the overturning component of the utility model battery core turnover mechanism and another visual angle of undertaking component
Figure;
Fig. 3 is the structural schematic diagram of the feeding assembly of the utility model battery core turnover mechanism;
Fig. 4 is that the suction elements of the utility model battery core turnover mechanism conceal the structural schematic diagram after adsorption plate.
In figure:
100, battery core;
1, feeding assembly;11, charging support;12, suction elements;121, sliding seat;122, lifter plate;123, adsorption plate;
124, the first magnetic force column;125, the second magnetic force column;126, the first driving plate;127, the second driving plate;
2, component is overturn;21, rollover stand;22, the first fixed bracket;23, the second fixed bracket;24, the first sliding panel;
25, the second sliding panel;26, rotary drive motor;27, lifting driving cylinder;
3, component is accepted;31, bearing plate;32, baffle;33, barrier driving cylinder.
Specific embodiment
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.
The utility model provides a kind of battery core turnover mechanism, and as shown in Figs 1-4, which includes workbench
(not shown) and the feeding assembly 1 being set on workbench, overturning component 2 and undertaking component 3, wherein 1 energy of feeding assembly
It is mobile enough to carry several battery cores 100;Overturning component 2 is located at the lower section of feeding assembly 1, for overturning the transmitting of feeding assembly 1
Battery core 100, overturning component 2 include a rollover stand 21 that itself can be rotated, and rollover stand 21 is set there are two the face of overturning, and two overturn
Several adsorption holes are arranged at intervals on face, and several adsorption holes on two overturning faces are staggered, two overturning faces can be divided
Not Jie Shou the battery core 100 from feeding assembly 1 and respectively drive battery core 100 overturn, one of overturning face absorbed portion
Another part battery core 100 is adsorbed in battery core 100, another overturning face;The lower section that component 3 is located at rollover stand 21 is accepted, can be accepted
Battery core after overturning component 2 is overturn overturns battery core 100, finally after battery core 100 are respectively adsorbed in two overturning faces
It is placed in and accepts on component 3.
One row's battery core 100 is moved at rollover stand 21 by the utility model by feeding assembly 1, and one of rollover stand 21 turns over
Turn face absorbed portion battery core 100 and be placed in the overturning of battery core 100 to accept on component 3, remaining electricity is adsorbed in another overturning face
Battery core 100 is simultaneously overturn and is placed on undertaking component 3 by core 100, be can be realized automatic turning battery core 100, is guaranteed that battery core 100 is quasi-
Really arrangement on demand.
The position of adsorption hole on two overturning faces of the battery core turnover mechanism can be adjusted according to actual needs, example
Such as, feeding assembly 1 once conveys 10 battery cores 100 being moved to rollover stand 21, and referring to Figure 1 and Figure 3, one of rollover stand 21 turns over
Turn face and be provided with 6 adsorption holes, 6 adsorption holes are divided into two groups, and two neighboring adsorption hole interval is set between every group each 3, every group
It sets, another overturning face is provided with 4 adsorption holes, is equally divided into two groups, every group of two adsorption holes respectively correspond another overturning
Gap setting between 3 adsorption holes in face, adsorption hole arrangement mode in this way can be that (every group each for two groups of battery cores 100
5 battery cores 100) realize overturning simultaneously, it is finally arranged in when accepting on component 3,100 pole of battery core of undertaking component 3 wherein side
Property be " the positive and negative positive positive and negative positive negative and positive of negative and positive ".
As depicted in figs. 1 and 2, overturning component 2 includes that the first fixed bracket 22 and second being set on workbench is fixed
Bracket 23, the both ends of rollover stand 21 are rotationally connected with the first fixed bracket 22 and the second fixed bracket 23 respectively.Rollover stand 21
Rotation axis is parallel to workbench and perpendicular to the feedstock direction of feeding assembly 1, enables feeding assembly 1 by row's battery core
100 are tightly attached to the overturning face of rollover stand 21 simultaneously.
It is accepted on component 3 to enable rollover stand 21 to be stably placed at battery core 100 thereon, rollover stand 21 being capable of phase
For accepting 3 elevating movement of component, specifically, sliding is provided with one first sliding panel 24 on the first fixed bracket 22, and second is solid
Sliding is provided with one second sliding panel 25 on fixed rack 23, and the both ends of rollover stand 21 are rotationally connected with 24 He of the first sliding panel respectively
Second sliding panel 25.Wherein, the first sliding panel 24 drives cylinder 27 to drive by the lifting being set on the first fixed bracket 22
Its sliding is moved, the second sliding panel 25 cooperates sliding under the drive of the first sliding panel 24, realizes the lifting to rollover stand 21.Overturning
The rotation of component 2 is by being set to the realization of rotary drive motor 26, the output end of rotary drive motor 26 on the first sliding panel 24
It is connect with one end of rollover stand 21, can be realized the rotation of rollover stand 21 by rotary drive motor 26.
As shown in Figure 3 and Figure 4, feeding assembly 1 includes the charging support 11 being set on workbench and is slidably connected to
The suction elements 12 of charging support 11, suction elements 12 can in a row pick up battery core 100 and battery core 100 are moved to rollover stand
21.100 quantity of battery core that suction elements 12 can once be drawn is corresponding with the quantity of adsorption hole on rollover stand 21.
Specifically, suction elements 12 include the sliding seat 121 for being slidably connected to charging support 11, are slidably connected to sliding seat
121 and the lifter plate 122 that can go up and down with respect to sliding seat 121 and it is set to the adsorption plate 123 of 122 bottom of lifter plate.Lifting
The lifting of plate 122 is driven by the cylinder being set on sliding seat 121, and lifter plate 122 drives its bottom while lifting
Adsorption plate 123 is mobile.Adsorption plate 123 carries battery core 100 first close to an overturning face of rollover stand 21, and by part battery core 100
It is adsorbed on the overturning face, then, adsorption plate 123, which rises, simultaneously crosses rollover stand 21, then close to another overturning face after declining, will
Remaining battery core 100 is adsorbed on another overturning face, and after the transfer for completing battery core 100, adsorption plate 123 is retracted, and goes to draw again
Battery core 100 in charging tray (not shown).
Adsorption plate 123 needs, tool corresponding with two overturning suction-operateds of adsorption hole in face to the suction-operated of battery core 100
Body, several first magnetic force columns 124 and several second magnetic force columns 125, several first magnetic force columns 124 are equipped on adsorption plate 123
Corresponding with several absorption hole sites on an overturning face respectively, several second magnetic force columns 125 are respectively and on another overturning face
Several absorption hole sites it is corresponding.When adsorption plate 123 carries battery core 100 close to first overturning face and is adsorbed hole absorption,
First magnetic force column 124 disappears to the magnetic force of battery core 100, this part of battery core 100 is adsorbed on overturning face;Work as suction
Attached plate 123 carries remaining battery core 100 close to another overturning face and when being adsorbed hole absorption, and the second magnetic force column 125 is to battery core 100
Magnetic force disappear, remaining battery core 100 is adsorbed on another overturning face.
In the present embodiment, the first magnetic force column 124 and the second magnetic force column 125 can be electromagnet, or common
Magnet.When it is common magnet, the control of the adsorption capacity of battery core 100 is accomplished by the following way: on lifter plate 122
Sliding is provided with the first driving plate 126 and the second driving plate 127, and the movement of the first driving plate 126 and the second driving plate 127 is logical
It crosses the cylinder being set on lifter plate 122 and realizes that the second driving plate 127 is located at the lower section of the first driving plate 126, several second magnetic
Power column 125 is connected to the second driving plate 127, and several first magnetic force columns 124 pass through the second driving plate 127 and are connected to the first driving
Plate 126.Since the first magnetic force column 124 and the second magnetic force column 125 are arranged in adsorption plate 123, when by the first driving plate 126
When declining with the driving effect of the second driving plate 127, the bottom surface of the first magnetic force column 124 and the second magnetic force column 125 can be with suction
The bottom surface of attached plate 123 is overlapped, and battery core 100 is adsorbed on adsorption plate 123.When the first driving plate 126 drives first
When magnetic force column 124 rises, battery core 100 can not rise due to receiving the blocking of adsorption plate 123, to be detached from the first magnetic force column
124, so that suction-operated loses, it is detached from adsorption plate 123;Similarly, when the second driving plate 127 rises, 125 institute of the second magnetic force column
The battery core 100 of absorption can be detached from adsorption plate 123.
Referring to Figures 1 and 2, accepting component 3 includes that two bearing plates 31 being set on workbench and being slideably positioned in are held
Plate washer 32 on fishplate bar 31, the top of bearing plate 31 are provided with the arc groove with the cooperation of 100 shape of battery core, the electricity on rollover stand 21
The lower backwardness of core 100 can be set up between two bearing plates 31, and the plate washer 32 on two bearing plates 31 can be towards or away from shifting
Dynamic, so that multiple battery cores 100 on bearing plate 31 are aligned, the movement of plate washer 32 is driven by the plate washer being set on bearing plate 31
Cylinder 33 is realized.
The course of work of the battery core turnover mechanism is as follows: firstly, feeding assembly 1 draws row's battery core 100 out of charging tray, and
Drive battery core 100 mobile towards overturning component, by battery core 100 close to one of overturning face of rollover stand 21, the overturning face
Absorbed portion battery core 100;Then, the adsorption plate 123 of feeding assembly 1 rises and crosses rollover stand 21, then close to another after declining
Remaining battery core 100 is adsorbed on another overturning face by a overturning face, and feeding assembly 1 is retracted and carries out the charging of next round;This
When, rollover stand 21 is overturn, and one of overturning face first downwardly turns in one direction, after the completion of overturning under rollover stand 21
Battery core 100 on the overturning face is placed in and accepts on component 3 by drop;And then, rollover stand 21 rises and continues to overturn, so that
Another overturning is placed on undertaking component 3 facing towards undertaking component 3 and by battery core 100 thereon.It is final to overturn and neatly arrange
The battery core 100 being listed on bearing plate 31 can be removed by a conveying device (not shown), and conveying device can be moved to two
Between a bearing plate 31, and the battery core 100 on bearing plate 31 is jacked up, then removes battery core 100.
Obviously, the above embodiments of the present invention is used for the purpose of clearly illustrating examples for clearly illustrating the present invention, and
It is not limitations of the embodiments of the present invention.For those of ordinary skill in the art, in above description
On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments
Exhaustion.Any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention etc., should be included in
Within the protection scope of the utility model claims.
Claims (10)
1. a kind of battery core turnover mechanism, including workbench, which is characterized in that further include:
Feeding assembly (1), is set on the workbench, and it is mobile that the feeding assembly (1) can carry several battery cores (100);
It overturns component (2), is set on the workbench and is located at the lower section of the feeding assembly (1), the overturning component (2)
The rollover stand (21) that itself can be overturn including one, the rollover stand (21) set that there are two the faces of overturning, on two overturning faces
Several adsorption holes are arranged at intervals with, and several adsorption holes on two overturning faces are staggered, and turn over described in two
The battery core (100) from the feeding assembly (1) can be received respectively and drive battery core (100) to be overturn respectively by turning face;And
It accepts component (3), is set on the workbench and is located at the lower section of the rollover stand (21), the undertaking component (3)
The battery core (100) after overturning component (2) overturning can be received.
2. battery core turnover mechanism according to claim 1, which is characterized in that the rotation axis of the rollover stand (21) is parallel
In the workbench and perpendicular to the feedstock direction of the feeding assembly (1).
3. battery core turnover mechanism according to claim 1, which is characterized in that the overturning component (2) includes being set to institute
State first fixed bracket (22) on workbench and the second fixation bracket (23), the both ends of the rollover stand (21) company of rotation respectively
It is connected to described first fixed bracket (22) and second fixed bracket (23).
4. battery core turnover mechanism according to claim 3, which is characterized in that slide and set on described first fixed bracket (22)
It is equipped with one first sliding panel (24), sliding is provided with one second sliding panel (25) on described second fixed bracket (23), described to turn over
The both ends of pivoted frame (21) are rotationally connected with first sliding panel (24) and second sliding panel (25) respectively.
5. battery core turnover mechanism according to claim 4, which is characterized in that the overturning component (2) further includes being set to
Rotary drive motor (26) on first sliding panel (24), the output end and the rollover stand of the rotary drive motor (26)
(21) one end connection.
6. battery core turnover mechanism according to claim 1, which is characterized in that the feeding assembly (1) includes being set to institute
The suction elements (12) stated the charging support (11) on workbench and be slidably connected to the charging support (11), the absorption
Component (12) can in a row pick up battery core (100) and battery core (100) is moved to the rollover stand (21).
7. battery core turnover mechanism according to claim 6, which is characterized in that the suction elements (12) include being slidably connected
In the charging support (11) sliding seat (121), be slidably connected to the sliding seat (121) and being capable of the relatively described sliding seat
(121) lifter plate (122) that goes up and down and it is set to the adsorption plate (123) of the lifter plate (122) bottom.
8. battery core turnover mechanism according to claim 7, which is characterized in that be equipped on the adsorption plate (123) several
First magnetic force column (124) and several second magnetic force columns (125), several first magnetic force columns (124) respectively with turned over described in one
Several absorption hole sites turned on face are corresponding, several second magnetic force columns (125) respectively with overturning face described in another
On several absorption hole sites it is corresponding.
9. battery core turnover mechanism according to claim 8, which is characterized in that slide and be provided on the lifter plate (122)
First driving plate (126) and the second driving plate (127), second driving plate (127) are located at first driving plate (126)
Lower section, several second magnetic force columns (125) are connected to second driving plate (127), several first magnetic force columns (124)
Across second driving plate (127) and it is connected to first driving plate (126).
10. battery core turnover mechanism according to claim 1, which is characterized in that the undertaking component (3) includes:
Two bearing plates (31) being set on the workbench are provided at the top of the bearing plate (31) and battery core (100)
The arc groove of shape cooperation;And
The plate washer (32) being slideably positioned on the bearing plate (31), the plate washer (32) energy on two bearing plates (31)
Enough towards or away from movement.
Priority Applications (1)
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CN201821311626.4U CN208489289U (en) | 2018-08-15 | 2018-08-15 | A kind of battery core turnover mechanism |
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CN201821311626.4U CN208489289U (en) | 2018-08-15 | 2018-08-15 | A kind of battery core turnover mechanism |
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CN208489289U true CN208489289U (en) | 2019-02-12 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112478708A (en) * | 2020-11-20 | 2021-03-12 | 长兴金润科技有限公司 | Double-row output system and method for storage battery to enter and exit oven |
-
2018
- 2018-08-15 CN CN201821311626.4U patent/CN208489289U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112478708A (en) * | 2020-11-20 | 2021-03-12 | 长兴金润科技有限公司 | Double-row output system and method for storage battery to enter and exit oven |
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GR01 | Patent grant | ||
CP02 | Change in the address of a patent holder |
Address after: Room 1101-1110, Building 7, Xiangyu Cross Strait Trade Center, No. 1588, Chuangye Road, Kunshan Development Zone, Suzhou, Jiangsu 215301 Patentee after: XINGYUN INTELLIGENT EQUIPMENT (KUNSHAN) Co.,Ltd. Address before: 215333 Building 1, Tsinghua Science Park, No. 1666, Zuchongzhi South Road, Yushan Town, Kunshan City, Suzhou City, Jiangsu Province Patentee before: XINGYUN INTELLIGENT EQUIPMENT (KUNSHAN) Co.,Ltd. |
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CP02 | Change in the address of a patent holder |