CN219009269U - Electric core stacking device - Google Patents

Abstract

The utility model discloses a battery cell stacking device which comprises a cabinet, a conveying frame and a sucker, wherein the conveying frame is arranged at one end of the top end of the cabinet, a rack is arranged at the other end of the top end of the cabinet, a mounting plate is arranged at the bottom end of a rotating mechanism, an electric telescopic rod is arranged at the bottom end of the mounting plate, a mounting frame is arranged at the bottom end of the electric telescopic rod, the sucker is arranged at the bottom end of the mounting frame, a protection structure is arranged at the bottom end of the sucker, and a lifting mechanism is arranged at one end of the cabinet. According to the battery cell stacking device, the protection structure is arranged, the rubber pad is arranged at the bottom of the sucker through the clamping between the butt joint head and the butt joint groove at the bottom of the sucker, so that when the battery cell stacking device is used, the rubber pad is arranged between the battery cell and the sucker, the softer rubber pad can protect the adsorption position of the battery cell when the battery cell is adsorbed, the situation of abrasion or damage is prevented, and the protection of the battery cell stacking device when the battery cell stacking device is used is enhanced.

Description

Electric core stacking device

Technical Field

The utility model relates to the technical field of battery cell processing, in particular to a battery cell stacking device.

Background

The battery core is divided into an aluminum shell battery core and a soft package battery core, also called a polymer battery core and a cylindrical battery core, wherein the battery of a mobile phone is usually an aluminum shell battery core, a Bluetooth and other digital products are soft package battery cores, and the battery of a notebook computer is a serial-parallel combination of the cylindrical battery cores;

when the cell stacking device is used, the cell stacking device is generally adsorbed and placed through the negative pressure sucker, but if the suction force is strong, when the cell is adsorbed, the cell is contacted with the sucker, and if abrasion occurs on the surface of the cell, the quality of the cell is easily affected, so that a protection device is needed to assist in protecting the cell.

Disclosure of Invention

The utility model aims to provide a battery cell stacking device, which solves the problem that the battery cell stacking device sometimes causes abrasion to the surface of a battery cell when the battery cell is adsorbed in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a electricity core piles up device, includes rack, carriage and sucking disc, the carriage is installed to the one end on rack top, the frame is installed to the other end on rack top, the inside top of frame is provided with slewing mechanism, slewing mechanism's bottom is provided with the mounting disc, electric telescopic handle is installed to the bottom of mounting disc, the mounting bracket is installed to electric telescopic handle's bottom, the sucking disc is installed to the bottom of mounting bracket, the bottom of sucking disc is provided with protection architecture, protection architecture includes docking groove, abutment, anti-skidding bulge loop and rubber pad, the docking groove sets up in the bottom of sucking disc, the inside of docking groove is provided with the abutment, the fixed surface of abutment has anti-skidding bulge loop, the rubber pad is installed to the bottom of abutment, the one end of rack is provided with elevating system.

Preferably, the rotating mechanism comprises a motor case, a servo motor, a protection groove, a protection ring and a rotating disc, wherein the motor case is arranged at the top end of the inside of the frame, the servo motor is arranged in the motor case, the bottom end of the servo motor extends to the bottom end of the motor case, the rotating disc is arranged at the bottom end of the servo motor, the protection groove is arranged at the bottom end of the motor case, and the protection ring is arranged in the protection groove.

Preferably, the cross section of the protection groove is larger than that of the protection ring, and the protection groove and the protection ring form a rotating structure.

Preferably, the cross section of the butt joint groove is larger than that of the butt joint head, and the butt joint groove and the butt joint head form a clamping structure.

Preferably, the anti-slip convex rings are fixed on the surface of the butt joint, and the anti-slip convex rings are distributed at equal intervals.

Preferably, the lifting mechanism comprises a lifting seat, a mounting groove, a hydraulic rod, a guide frame and a lifting table, wherein the lifting seat is mounted at one end of the cabinet, the mounting groove is formed in the top end of the lifting seat, the hydraulic rod is mounted in the mounting groove, the lifting table is mounted at the top end of the hydraulic rod, and the guide frame is mounted at the bottom end of the lifting table.

Preferably, the cross section of the mounting groove is larger than that of the guide frame, and the mounting groove and the guide frame form a telescopic structure.

Compared with the prior art, the utility model has the beneficial effects that: through being provided with the protection architecture, the rubber pad passes through the block between butt joint groove bottom butt joint of butt joint and sucking disc, installs in the bottom of sucking disc, from this, when using, the rubber pad is between electric core and sucking disc, and softer rubber pad can be when adsorbing the electric core, protects the absorption department of electric core, prevents that wearing and tearing or damage's condition from appearing, has strengthened the protectiveness to electric core when this electric core piles up device and uses;

through being provided with slewing mechanism, electric telescopic handle is the annular and installs four groups in the bottom of mounting disc, during the use, through servo motor's drive, can make four groups of electric telescopic handle rotate, from this, four groups of electric telescopic handle rotate, realize the absorption of electricity core through the sucking disc and pile up the operation, can assist to strengthen the efficiency when piling up, has strengthened the efficiency when this electricity core piles up device and processes;

through being provided with elevating system, during the use, operating personnel accessible control hydraulic stem's lift adjusts the height of elevating platform to the electricity core stacks on the elevating platform, perhaps places electric core box, electric core packing carton and uses on the elevating platform, has realized the convenience when this electricity core stacks the device and stacks.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of the present utility model;

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is a schematic diagram of a cross-sectional front view of a rotary mechanism according to the present utility model;

fig. 4 is a schematic view of a partial enlarged structure at a in fig. 1 according to the present utility model.

In the figure: 1. a cabinet; 2. a carriage; 3. a frame; 4. a rotating mechanism; 401. a motor case; 402. a servo motor; 403. a protective groove; 404. a guard ring; 405. a rotating disc; 5. a mounting plate; 6. an electric telescopic rod; 7. a mounting frame; 8. a suction cup; 9. a protective structure; 901. a butt joint groove; 902. butt joint; 903. an anti-slip collar; 904. a rubber pad; 10. a lifting mechanism; 1001. a lifting seat; 1002. a mounting groove; 1003. a hydraulic rod; 1004. a guide frame; 1005. and a lifting platform.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, an embodiment of the present utility model is provided: the utility model provides a electricity core piles up device, including rack 1, carriage 2 and sucking disc 8, carriage 2 is installed to one end at rack 1 top, rack 3 is installed to the other end at rack 1 top, the inside top of rack 3 is provided with slewing mechanism 4, slewing mechanism 4 includes motor case 401, servo motor 402, guard slot 403, guard ring 404 and rolling disc 405, motor case 401 installs the top in rack 3 inside, servo motor 402 is installed to motor case 401's internally mounted, servo motor 402 bottom extends to motor case 401's bottom, rolling disc 405 is installed to servo motor 402's bottom, motor case 401's bottom is provided with guard slot 403, guard ring 404 is provided with in guard slot 403's inside, guard slot 403's cross section is greater than guard ring 404's cross section, guard slot 403 and guard ring 404 constitute revolution mechanic;

specifically, as shown in fig. 1, 2 and 3, when the mechanism is used, with the start of the servo motor 402, the electric telescopic rod 6 and the sucker 8 can be driven to rotate by the mounting disc 5, so that the electric telescopic rod 6 and the sucker 8 can sequentially perform adsorption stacking operation on the battery cells;

the bottom end of the rotating mechanism 4 is provided with a mounting disc 5, an electric telescopic rod 6 is mounted at the bottom end of the mounting disc 5, a mounting frame 7 is mounted at the bottom end of the electric telescopic rod 6, a sucker 8 is mounted at the bottom end of the mounting frame 7, a protection structure 9 is arranged at the bottom end of the sucker 8, the protection structure 9 comprises a butt joint groove 901, a butt joint 902, an anti-slip convex ring 903 and a rubber pad 904, the butt joint groove 901 is arranged at the bottom end of the sucker 8, the butt joint 902 is internally provided with the butt joint 902, the anti-slip convex ring 903 is fixed on the surface of the butt joint 902, the rubber pad 904 is mounted at the bottom end of the butt joint 902, the cross section of the butt joint groove 901 is larger than the cross section of the butt joint 902, the butt joint groove 901 and the butt joint 902 form a clamping structure, a plurality of anti-slip convex rings 903 are fixed on the surface of the butt joint 902, and the anti-slip convex rings 903 are distributed at equal intervals;

specifically, as shown in fig. 1, 2 and 4, when the structure is used, the rubber pad 904 is installed at the bottom of the sucker 8, so that the battery cell can be protected in an auxiliary manner when the sucker 8 adsorbs the battery cell, and the rubber pad is arranged between the sucker 8 and the battery cell, so that the surface of the battery cell can be prevented from being damaged during adsorption, and the quality of the battery cell is further affected;

one end of the cabinet 1 is provided with a lifting mechanism 10, the lifting mechanism 10 comprises a lifting seat 1001, a mounting groove 1002, a hydraulic rod 1003, a guide frame 1004 and a lifting table 1005, the lifting seat 1001 is mounted at one end of the cabinet 1, the top end of the lifting seat 1001 is provided with the mounting groove 1002, the hydraulic rod 1003 is mounted in the mounting groove 1002, the top end of the hydraulic rod 1003 is provided with the lifting table 1005, the bottom end of the lifting table 1005 is provided with the guide frame 1004, the cross section of the mounting groove 1002 is larger than the cross section of the guide frame 1004, and the mounting groove 1002 and the guide frame 1004 form a telescopic structure;

specifically, as shown in fig. 2, when the mechanism is used, the height position of the upper lifting platform 1005 can be adjusted by controlling the hydraulic rod 1003, so that the stacking position of the battery cells can be adjusted, and the battery cells can be better stacked.

Working principle: when the electric core stacking device is used, an operator firstly controls the hydraulic rod 1003 and adjusts the height position of the upper lifting table 1005 so that the electric core stacking device can stack the electric cores, the operator can also place a packaging box body or other objects at the position, stack the electric cores, after the electric core stacking device is adjusted, the rubber pad 904 is installed at the bottom position of the sucker 8 through the matching between the butt joint 902 and the butt joint groove 901 at the bottom of the sucker 8, at the moment, the electric cores are conveyed through the conveying frame 2, the electric core can be adsorbed through the matching between the electric telescopic rod 6 and the sucker 8, the electric core can be rotated under the action of the servo motor 402, so that the electric core can be adsorbed, when the electric cores are adsorbed, the rubber pad 904 is arranged between the electric core and the sucker 8, the electric cores can be protected, the electric cores are prevented from being damaged when the electric cores are adsorbed, and the quality of the electric cores is further influenced.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a electricity core piles up device, includes rack (1), carriage (2) and sucking disc (8), its characterized in that: the utility model provides a rack, including rack (1), rack (2), rack (3) are installed to the one end on rack (1) top, rack (3) are inside top is provided with slewing mechanism (4), the bottom of slewing mechanism (4) is provided with mounting disc (5), electric telescopic handle (6) are installed to the bottom of mounting disc (5), mounting bracket (7) are installed to the bottom of electric telescopic handle (6), sucking disc (8) are installed to the bottom of mounting bracket (7), the bottom of sucking disc (8) is provided with protection architecture (9), protection architecture (9) include butt joint groove (901), butt joint head (902), anti-skidding bulge loop (903) and rubber pad (904), butt joint groove (901) set up in the bottom of sucking disc (8), the inside of butt joint groove (901) is provided with butt joint head (902), the fixed surface of butt joint head (902) has anti-skidding bulge loop (903), rubber pad (904) are installed to the bottom of butt joint head (902), the one end of rack (1) is provided with elevating system (10).

2. The cell stacking device of claim 1, wherein: the rotating mechanism (4) comprises a motor box (401), a servo motor (402), a protection groove (403), a protection ring (404) and a rotating disc (405), wherein the motor box (401) is installed at the top end of the inside of the frame (3), the servo motor (402) is installed in the motor box (401), the bottom end of the servo motor (402) extends to the bottom end of the motor box (401), the rotating disc (405) is installed at the bottom end of the servo motor (402), the protection groove (403) is arranged at the bottom end of the motor box (401), and the protection ring (404) is arranged in the protection groove (403).

3. A cell stacking device according to claim 2, wherein: the cross section of the protection groove (403) is larger than that of the protection ring (404), and the protection groove (403) and the protection ring (404) form a rotating structure.

4. The cell stacking device of claim 1, wherein: the cross section of the butt joint groove (901) is larger than that of the butt joint head (902), and the butt joint groove (901) and the butt joint head (902) form a clamping structure.

5. The cell stacking device of claim 1, wherein: the anti-slip convex rings (903) are fixed on the surface of the butt joint (902), and the anti-slip convex rings (903) are distributed at equal intervals.

6. The cell stacking device of claim 1, wherein: elevating system (10) are including lifting seat (1001), mounting groove (1002), hydraulic stem (1003), guide frame (1004) and elevating platform (1005), lifting seat (1001) are installed in the one end of rack (1), the top of lifting seat (1001) is provided with mounting groove (1002), internally mounted of mounting groove (1002) has hydraulic stem (1003), elevating platform (1005) are installed on the top of hydraulic stem (1003), guide frame (1004) are installed to the bottom of elevating platform (1005).

7. The cell stacking device of claim 6, wherein: the cross section of the mounting groove (1002) is larger than that of the guide frame (1004), and the mounting groove (1002) and the guide frame (1004) form a telescopic structure.

Images