CN214718492U - Emptying device for battery cell sorting machine - Google Patents

Abstract

The utility model discloses a blowing device that electricity core sorter was used, including the rack, elevating system and two at least tilting mechanism, the rack encloses out the space of placing of feed dish placing usefulness, elevating system includes first linear drive device and carrier bar, first linear drive device installs in the below of rack, the carrier bar is located the below of placing the space and is used for supporting the charging tray of placing in the space, first linear drive device's output is connected with the carrier bar and orders about the direction of height motion of this carrier bar along the rack, tilting mechanism is located the both sides of carrier bar respectively, tilting mechanism installs in the below of rack, tilting mechanism's one end is stretched into and is placed in the space and can be followed the direction of height rotation of rack. The utility model discloses a blowing device that electricity core sorter was used can make tilting mechanism temporarily replace the carrier bar to bear the charging tray through above structure, so realized placing the zero clearance of charging tray, improved the blowing efficiency to the charging tray.

Description

Emptying device for battery cell sorting machine

Technical Field

The utility model relates to a technical field of lithium cell production, concretely relates to blowing device that electricity core sorter was used.

Background

As is well known, lithium batteries have the advantages of high energy, light weight, long service life, and the like, and are widely used in various products such as notebook computers, mobile phones, digital cameras, electric vehicles, electric tools, and new energy vehicles.

The lithium battery mainly comprises a pole piece, a diaphragm, electrolyte, a shell and the like. The production and manufacturing process of the lithium battery comprises the steps of sorting the battery cores and the like, wherein the purpose of sorting is to place the battery cores with the same specification on the same material tray for conveying. The existing discharging device for the battery cell sorting machine generally comprises a discharging frame and a lifting device; wherein, the blowing frame encloses out the space of placing that is used for placing the charging tray, and elevating gear installs in the below of blowing frame in order to be used for carrying electric core going up and down. However, the existing emptying device has the following defects: when the lifting device is filled with the charging tray and drives the charging tray to descend, the charging tray needs to be placed in a pause mode due to the fact that the placing frame is not provided with any mechanism for bearing the charging tray, the charging tray needs to be placed again until the lifting device rises again to the placing space, and discharging efficiency of the charging tray is reduced.

Therefore, a discharging device for a battery cell sorting machine is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a to present technique not enough, provide a blowing device that electricity core sorter was used.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

the utility model provides a blowing device that electricity core sorter was used, includes rack, elevating system and two at least tilting mechanism, the rack encloses out the space of placing that the feed dish was placed the usefulness, elevating system includes first linear drive device and carrier bar, first linear drive device install in the below of rack, the carrier bar is located place the below in space and be used for the support place the charging tray in the space, first linear drive device's output with the carrier bar is connected and is ordered about this carrier bar and follow the direction of height motion of rack, tilting mechanism is located respectively the both sides of carrier bar, tilting mechanism install in the below of rack, tilting mechanism's one end stretches into place in the space and can follow the direction of height of rack rotates.

The improved structure comprises a turnover mechanism, wherein the turnover mechanism comprises a rotating plate, a linkage rod, a gear, a rack and a second linear driving device, the rotating plate is fixed on the linkage rod, the gear is sleeved on the linkage rod, the output end of the second linear driving device is connected with the rack and drives the rack to move along the height direction of the placing rack, and the rack is meshed with the gear to drive the rotating plate to rotate through the gear.

In a further improvement, the number of the bearing rods is at least two, and the two bearing rods are arranged side by side and at intervals.

The discharging device for the battery cell sorting machine is further improved by comprising an adjusting mechanism for positioning a charging tray located in the placing space, wherein the adjusting mechanism is arranged above the placing rack.

The improved structure comprises a rack, wherein the rack is provided with a plurality of positioning mechanisms, each positioning mechanism comprises a first positioning component and a second positioning component, the first positioning component is used for positioning a material tray along the width direction of the rack, the second positioning component is used for positioning the material tray along the length direction of the rack, and the first positioning component and the second positioning component are both arranged above the rack.

The improved rack is characterized in that the first positioning assembly comprises a first positioning block, a first pushing block and a third linear driving device, the first positioning block and the first pushing block are arranged side by side along the width direction of the rack, the placing space is arranged between the first positioning block and the first pushing block at intervals, and the output end of the third linear driving device is connected with the first pushing block and drives the first pushing block to be close to or far away from the first positioning block.

The improved structure of the rack is characterized in that the second positioning assembly comprises a second positioning block, a second pushing block and a fourth linear driving device, the second positioning block and the second pushing block are arranged side by side along the length direction of the rack, the placing space is arranged between the second positioning block and the second pushing block at intervals, and the output end of the fourth linear driving device is connected with the second pushing block and drives the second pushing block to be close to or far away from the second positioning block.

The utility model has the advantages that: the utility model discloses a blowing device that electricity core sorter was used, including the rack, elevating system and two at least tilting mechanism, the rack encloses out the space of placing of feed dish placing usefulness, elevating system includes first linear drive device and carrier bar, first linear drive device installs in the below of rack, the carrier bar is located the below of placing the space and is used for supporting the charging tray of placing in the space, first linear drive device's output is connected with the carrier bar and orders about the direction of height motion of this carrier bar along the rack, tilting mechanism is located the both sides of carrier bar respectively, tilting mechanism installs in the below of rack, tilting mechanism's one end is stretched into and is placed in the space and can be followed the direction of height rotation of rack. Consequently the utility model discloses a blowing device that electricity core sorter was used is at the actual work time, when first linear drive device ordered about the relative rack downstream of carrier bar, tilting mechanism's one end can stretch into place in the space and replace the carrier bar to realize the bearing effect to the charging tray, when the carrier bar was ordered about by first linear drive device and rises once more to placing in the space, tilting mechanism overturns downwards and places the charging tray on the carrier bar, so realized placing the zero clearance of charging tray, improved the blowing efficiency to the charging tray.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

Fig. 1 is the utility model discloses a blowing device's that electricity core sorter was used spatial structure sketch map.

In the figure: 100. the discharging device comprises a placing frame 10, a lifting mechanism 20, a turnover mechanism 30, a placing space 10a, a first linear driving device 21, a bearing rod 22, a rotating plate 31, a linkage rod 32, a gear 33, a rack 34, a second linear driving device 35, an adjusting mechanism 40, a first positioning assembly 41, a second positioning assembly 42, a first positioning block 411, a first pushing block 412, a third linear driving device 413, a second positioning block 421, a second pushing block 422, a fourth linear driving device 423.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Referring to fig. 1, a discharging device 100 for a battery cell sorting machine of the present invention includes a placing frame 10, a lifting mechanism 20, and at least two turnover mechanisms 30. Wherein, rack 10 encloses the space 10a of placing that the feed tray was placed the usefulness, elevating system 20 includes first linear drive device 21 and carrier bar 22, first linear drive device 21 installs in the below of rack 10, carrier bar 22 is located the below of placing space 10a and is used for supporting the charging tray of placing space 10a, first linear drive device 21's output is connected with carrier bar 22 and orders about this carrier bar 22 along the direction of height motion of rack 10, tilting mechanism 30 is located the both sides of carrier bar 22 respectively, tilting mechanism 30 installs in the below of rack 10, tilting mechanism 30's one end stretches into and places in the space 10a and can rotate along the direction of height of rack 10. Preferably, there are at least two carrying rods 22, and the two carrying rods 22 are arranged side by side and at intervals, so as to achieve the purpose of stably carrying the tray and saving materials.

Referring to fig. 1, the turnover mechanism 30 includes a rotating plate 31, a linkage rod 32, a gear 33, a rack 34 and a second linear driving device 35, the rotating plate 31 is fixed on the linkage rod 32, the gear 33 is sleeved on the linkage rod 32, an output end of the second linear driving device 35 is connected to the rack 34 and drives the rack 34 to move along the height direction of the rack 10, and the rack 34 is engaged with the gear 33 to drive the rotating plate 31 to rotate through the gear 33, but not limited thereto.

With continued reference to fig. 1, the discharging device 100 for the battery cell sorter further includes an adjusting mechanism 40 for positioning the tray located in the placing space 10a, and the adjusting mechanism 40 is installed above the placing rack 10. The adjusting mechanism 40 comprises a first positioning component 41 and a second positioning component 42, wherein the first positioning component 41 is used for positioning the material tray along the width direction of the placing frame 10, the second positioning component 42 is used for positioning the material tray along the length direction of the placing frame 10, and the first positioning component 41 and the second positioning component 42 are both arranged above the placing frame 10. Specifically, the first positioning assembly 41 includes a first positioning block 411, a first pushing block 412 and a third linear driving device 413, the first positioning block 411 and the first pushing block 412 are arranged side by side along the width direction of the rack 10, a placing space 10a is arranged between the first positioning block 411 and the first pushing block 412, and an output end of the third linear driving device 413 is connected to the first pushing block 412 and drives the first pushing block 412 to be close to or far from the first positioning block 411. More specifically, the second positioning assembly 42 includes a second positioning block 421, a second pushing block 422 and a fourth linear driving device 423, the second positioning block 421 and the second pushing block 422 are arranged side by side along the length direction of the placement frame 10, a placement space 10a is provided between the second positioning block 421 and the second pushing block 422, and an output end of the fourth linear driving device 423 is connected to the second pushing block 422 and drives the second pushing block 422 to approach or leave the second positioning block 421. Therefore, when the tray is placed in the placing space 10a, the third linear driving device 413 can drive the first pushing block 412 to move towards the direction close to the first positioning block 411 so as to position the tray in the width direction of the placing rack 10; meanwhile, the second pushing block 422 is driven by the fourth linear driving device 423 to move towards the direction close to the second positioning block 421 to position the trays in the length direction of the rack, so that each tray placed in the placing space 10a can be aligned.

The utility model has the advantages that: the utility model discloses a blowing device 100 that electricity core sorter was used, including rack 10, elevating system 20 and two at least tilting mechanism 30, rack 10 encloses the space 10a of placing that the feed dish placed the usefulness, elevating system 20 includes first linear drive device 21 and carrier bar 22, first linear drive device 21 is installed in the below of rack 10, carrier bar 22 is located the below of placing space 10a and is used for supporting the charging tray of placing in the space 10a, first linear drive device 21's output is connected with carrier bar 22 and orders about this carrier bar 22 along the direction of height motion of rack 10, tilting mechanism 30 is located the both sides of carrier bar 22 respectively, tilting mechanism 30 installs in the below of rack 10, tilting mechanism 30's one end stretches into and places in the space 10a and can follow the direction of height rotation of rack 10. Therefore the utility model discloses a blowing device 100 that electricity core sorter was used is at the actual work time, when first linear drive device 21 ordered about the relative rack 10 downstream of carrier bar 22, tilting mechanism 30's one end can stretch into place in the space 10a and replace carrier bar 22 to realize the bearing effect to the charging tray, when carrier bar 22 was ordered about by first linear drive device 21 and rises once more to place in the space 10a, tilting mechanism 30 overturns downwards and places the charging tray on carrier bar 22, so realized placing the zero clearance of charging tray, improved the blowing efficiency to the charging tray.

The utility model discloses be not limited to above-mentioned embodiment, adopt and the utility model discloses above-mentioned embodiment is the same or approximate structure or device, and the other blowing devices that are used for electric core sorter that obtain are all within the protection scope of the utility model.

Claims (7)

1. The utility model provides a blowing device that electricity core sorter was used which characterized in that: including rack, elevating system and two at least tilting mechanism, the rack encloses out the space of placing that the feed dish was placed the usefulness, elevating system includes first linear drive device and carrier bar, first linear drive device install in the below of rack, the carrier bar is located place the below in space and be used for the support place the charging tray in the space, first linear drive device's output with the carrier bar is connected and is ordered about this carrier bar and follow the direction of height motion of rack, tilting mechanism is located respectively the both sides of carrier bar, tilting mechanism install in the below of rack, tilting mechanism's one end stretches into place in the space and can follow the direction of height of rack rotates.

2. The discharging device for the battery cell sorting machine according to claim 1, characterized in that: the turnover mechanism comprises a rotating plate, a linkage rod, a gear, a rack and a second linear driving device, wherein the rotating plate is fixed on the linkage rod, the gear is sleeved on the linkage rod, the output end of the second linear driving device is connected with the rack and drives the rack to move along the height direction of the placing rack, and the rack is meshed with the gear to drive the rotating plate to rotate through the gear.

3. The discharging device for the battery cell sorting machine according to claim 1, characterized in that: the bearing rods are at least two, and the two bearing rods are arranged side by side at intervals.

4. The discharging device for the battery cell sorting machine according to claim 1, characterized in that: the material tray placing rack is characterized by further comprising an adjusting mechanism used for positioning the material tray in the placing space, and the adjusting mechanism is installed above the placing rack.

5. The discharging device for the battery cell sorting machine according to claim 4, characterized in that: the adjusting mechanism comprises a first positioning component and a second positioning component, the first positioning component is used for positioning the material tray along the width direction of the placing frame, the second positioning component is used for positioning the material tray along the length direction of the placing frame, and the first positioning component and the second positioning component are both arranged above the placing frame.

6. The discharging device for the battery cell sorting machine according to claim 5, characterized in that: the first positioning assembly comprises a first positioning block, a first pushing block and a third linear driving device, the first positioning block and the first pushing block are arranged side by side along the width direction of the placing rack, the placing space is arranged between the first positioning block and the first pushing block at intervals, and the output end of the third linear driving device is connected with the first pushing block and drives the first pushing block to be close to or far away from the first positioning block.

7. The discharging device for the battery cell sorting machine according to claim 5, characterized in that: the second positioning assembly comprises a second positioning block, a second pushing block and a fourth linear driving device, the second positioning block and the second pushing block are arranged side by side along the length direction of the placing rack, the second positioning block and the second pushing block are arranged in the placing space at intervals, and the output end of the fourth linear driving device is connected with the second pushing block and drives the second pushing block to be close to or far away from the second positioning block.

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