CN221026113U - Loading structure of stacking equipment - Google Patents

Abstract

The utility model belongs to the technical field of battery cell production, and discloses a feeding structure of stacking equipment, which comprises the following components: the feeding device comprises a feeding table, wherein a stacking table is arranged at one end of the feeding table, and conveying belts are arranged on the stacking table and the feeding table; the two limiting assemblies are used for stably abutting the battery cells, each limiting assembly comprises a mounting frame fixedly connected to one side of the feeding table and a mounting seat fixed to the top end of the mounting frame, a movable baffle is mounted on the mounting frame, and the baffle is located right above the conveying belt; according to the utility model, through the arrangement of the limiting component, the battery cells can be blocked, so that an operator can take out a plurality of battery cells, the problem that only one battery cell can be taken out at a time due to the distance between the existing battery cells is solved, time and labor are saved, the feeding efficiency is greatly improved, the stacking efficiency of the battery cells is improved, and the battery cells are convenient to stack and process efficiently.

Description

Loading structure of stacking equipment

Technical Field

The utility model relates to the technical field of battery cell production, in particular to a feeding structure of stacking equipment.

Background

Along with the vigorous development of the new energy industry of the automobile, the application of the battery is more and more extensive, the existing battery generally needs to assemble single battery cells into modules to meet the power requirement of the automobile, and in the battery cell assembling process, the same single battery cells are generally stacked through stacking equipment, so that the battery cells are generally moved and conveyed through a feeding structure in order to improve the processing efficiency of the battery cells, and the automatic feeding of the stacking equipment is completed, so that the high-efficiency processing of the battery cells is realized.

However, when the conventional feeding structure is in actual use, the electric core is generally moved by the conveying belt to finish feeding, however, a distance exists between two adjacent electric cores, so that an operator can only take one electric core each time, time and labor are wasted, the feeding efficiency of the electric core is low, the stacking processing of the electric core is inconvenient, and the stacking processing efficiency of the feeding electric core is affected.

Disclosure of utility model

The utility model provides a feeding structure of stacking equipment, which aims to solve the problems that an operator can only take one cell at a time, time and labor are wasted and the feeding efficiency of the cells is low because a distance exists between two adjacent cells.

In order to achieve the above object, the present utility model provides the following technical solutions: a feeding structure of stacking equipment, comprising:

the feeding device comprises a feeding table, wherein a stacking table is arranged at one end of the feeding table, and conveying belts are arranged on the stacking table and the feeding table;

The battery cell fixing device comprises two limiting assemblies, a conveying belt and a fixing assembly, wherein each limiting assembly is used for stably abutting a battery cell, each limiting assembly comprises a mounting frame fixedly connected to one side of a feeding table and a mounting seat fixed to the top end of the mounting frame, a movable baffle is mounted on the mounting frame and located right above the conveying belt, and one side of the mounting seat is provided with the fixing assembly for connecting the baffle; through the setting of baffle, can block the electric core for electric core is located the mutual conflict on the conveyer belt, so that the operator takes a plurality of at every turn, increases electric core stacking efficiency.

In one possible implementation manner, the fixing component comprises a sliding block fixed at one end of the baffle plate and a sliding groove arranged at one side of the mounting seat for the sliding block to slide, one end of the sliding block is movably connected with a connecting rod, and one side of the mounting seat is provided with a driving component for driving the connecting rod to move; through the setting of slider, can be to the baffle be located the length on the conveyer belt and reciprocate the extension, can prevent to take place the condition of interference between the electric core, the operator of being convenient for takes the electric core, promotes the practicality of feeding structure.

In one possible implementation manner, the driving assembly comprises a lantern ring fixed at one end of the connecting rod and a supporting plate fixed at one side of the mounting seat, wherein one end of the supporting plate is fixed with a driving motor, one end of the driving motor is fixed with an eccentric ring, a connecting column is fixed outside the eccentric ring, and the connecting column is movably connected with the lantern ring; through the setting of drive assembly, can keep normal power to the baffle for connecting rod reciprocating motion, and driving motor rotation speed can adjust, can contradict the battery cell of a set of from top to bottom with the conveyer belt when making the baffle extend and be close to, promote electric core material loading efficiency, make have better human-computer interaction.

In a possible implementation manner, be provided with the adjusting part that drives the mount pad and remove on the mounting bracket, adjusting part is including seting up the spread groove in mounting bracket one side and fixing the supporting shoe in the mount pad bottom, the constant head tank with the inside intercommunication of spread groove has been seted up on the top of mounting bracket, the one end of supporting shoe extends to in the constant head tank and is fixed with spread groove matched with joint piece.

In one possible implementation manner, the adjusting component further comprises a screw hole formed in the supporting block and the clamping block and a plurality of screw holes formed in the connecting groove, the top end of the supporting block is provided with a fixing column in a threaded manner, and the fixing column is screwed into the screw hole corresponding to the screw hole through the screw hole; through the setting of fixed column, reduce the dismouting degree of difficulty of mount pad, be convenient for fix fast the mount pad.

In one possible implementation manner, a movable groove is further formed in one side of the sliding block, a rotatable shaft lever is installed in the movable groove, and one end of the connecting rod is inserted into the movable groove and sleeved outside the shaft lever.

In the technical scheme, the utility model has the technical effects and advantages that:

(1) Through spacing subassembly's setting, can realize blocking the electric core for the operator can take out a plurality of electric cores, thereby has solved the distance between current electric core, leads to at every turn can only take the problem of an electric core, and labour saving and time saving, great improvement material loading efficiency, and then help improving the stacking efficiency of electric core, make things convenient for the high-efficient stack processing of electric core.

(2) Through adjusting the setting of subassembly, can realize freely removing spacing subassembly to can adapt to carrying out check to the electric core of different length and keep off, thereby make things convenient for taking out of a plurality of electric cores, further improve the material loading efficiency of electric core, realize the high-efficient processing of electric core.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the baffle plate of the present utility model when the baffle plate is retracted along the chute;

FIG. 3 is a schematic view of the structure of the adjusting assembly of the present utility model;

In the figure: 1. a feeding table; 11. a stacking table; 12. a conveyor belt; 2. a limit component; 21. a mounting frame; 22. a mounting base; 23. a chute; 24. a slide block; 25. a connecting rod; 26. a baffle; 3. a drive assembly; 31. a support plate; 32. a connecting column; 33. an eccentric ring; 34. a driving motor; 35. a collar; 4. an adjustment assembly; 41. a connecting groove; 42. a positioning groove; 43. a clamping block; 44. a support block; 45. fixing the column; 46. and (3) a threaded hole.

Detailed Description

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 any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a feeding structure of stacking equipment shown in fig. 1, which comprises:

The feeding device comprises a feeding table 1, wherein a stacking table 11 is arranged at one end of the feeding table 1, and conveying belts 12 are arranged on the stacking table 11 and the feeding table 1;

Therefore, when the battery cell stacking device is used, the battery cells are firstly placed on the conveying belt 12 in sequence for stably collecting the battery cells, the battery cells are driven to move towards the stacking table 11 through the movement of the conveying belt 12, and an operator takes the battery cells out of the conveying belt 12 to stack the battery cells through stacking equipment, so that the battery cell stacking processing is completed.

Referring to fig. 1 and 2, two limiting assemblies 2 are used for stably abutting the battery cell, each limiting assembly 2 comprises a mounting frame 21 fixedly connected to one side of the feeding table 1 and a mounting seat 22 fixed to the top end of the mounting frame 21, a movable baffle 26 is mounted on the mounting frame 21, the baffle 26 is located right above the conveying belt 12, and a fixing assembly for connecting the baffle 26 is arranged on one side of the mounting seat 22; the fixing component comprises a sliding block 24 fixed at one end of a baffle 26 and a sliding groove 23 arranged at one side of the mounting seat 22 and used for sliding the sliding block 24, one end of the sliding block 24 is movably connected with a connecting rod 25, and one side of the mounting seat 22 is provided with a driving component 3 used for driving the connecting rod 25 to move; one side of the sliding block 24 is also provided with a movable groove, a rotatable shaft lever is arranged in the movable groove, and one end of the connecting rod 25 is inserted into the movable groove and sleeved outside the shaft lever;

the driving assembly 3 comprises a lantern ring 35 fixed at one end of the connecting rod 25 and a supporting plate 31 fixed at one side of the mounting seat 22, a driving motor 34 is fixed at one end of the supporting plate 31, an eccentric ring 33 is fixed at one end of the driving motor 34, a connecting column 32 is fixed outside the eccentric ring 33, and the connecting column 32 is movably connected with the lantern ring 35.

Through the technical scheme:

During the use, drive rotation through driving motor 34 drives eccentric ring 33 synchronous rotation, make the spliced pole 32 rotate with the lantern ring 35 between the activity, be used for promoting the connecting rod 25 along the spout 23 internal movement, however, the connecting rod 25 moves with the axostylus axostyle between the activity, be used for pushing forward in the slider 24 along the spout 23, along with the removal of slider 24 with baffle 26 along the spout 23 internal outside promotion, along with the length on conveyer belt 12 constantly increasing of baffle 26, then the baffle 26 that extends carries out the check with one of them electric core on the conveyer belt 12, make one of them electric core unable forward movement and contradict with another electric core that is forthcoming, make two electric cores overlap, and eccentric ring 33 continuously rotates and drives spliced pole 32 down and reset, and move and pull connecting rod 25 between spliced pole 32 and the lantern ring 35 and remove, make slider 24 follow spout 23 internal contraction, with baffle 26 follow the spout 23 internal pull back, be used for losing the conflict between baffle 26 and the electric core, thereby superimposed electric core continues to remove, cyclic reciprocation in proper order, make the operator can take out a plurality of electric cores, thereby there is the distance in the electric core that has been left between the electric core to be gone up, the independent electric core has been solved, and the processing efficiency of stacking is greatly saved, the electric core has been stacked at each time has been solved.

In addition, referring to fig. 1 and 3, an adjusting component 4 for driving the mounting seat 22 to move is arranged on the mounting frame 21, the adjusting component 4 comprises a connecting groove 41 formed on one side of the mounting frame 21 and a supporting block 44 fixed at the bottom of the mounting seat 22, a positioning groove 42 communicated with the inside of the connecting groove 41 is formed at the top end of the mounting frame 21, and one end of the supporting block 44 extends into the positioning groove 42 and is fixed with a clamping block 43 matched with the connecting groove 41; the adjusting component 4 further comprises screw holes formed in the supporting block 44 and the clamping block 43 and a plurality of screw holes 46 formed in the connecting groove 41, the top end of the supporting block 44 is provided with a fixing column 45 in a threaded manner, and the fixing column 45 is screwed into the screw hole 46 corresponding to the screw hole through the screw hole.

Through the technical scheme:

When the electric core material loading, through taking out fixed column 45 in the screw for lose fixed effect between joint piece 43 and the spread groove 41, thereby promote mount pad 22 and follow the upward movement of mounting bracket 21 and adjust, however during mount pad 22 moves again, by supporting shoe 44 and joint piece 43 along constant head tank 42 and spread groove 41 in, be used for playing stable effect to mount pad 22, make mount pad 22 stable removal, and through in the screw with fixed column 45 threaded again, last rotation fixed column 45 and screw between the screw transmission, make the spiro union fixed between fixed column 45 and one of them screw hole 46, then position stability after adjusting mount pad 22 is fixed, thereby can adapt to carrying out the check to the electric core of different length, further make things convenient for the takeout of a plurality of electric cores.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a material loading structure of equipment of stacking, its characterized in that includes:

the feeding device comprises a feeding table (1), wherein a stacking table (11) is arranged at one end of the feeding table (1), and conveying belts (12) are arranged on the stacking table (11) and the feeding table (1);

two spacing subassembly (2) for with electric core stability is contradicted, every spacing subassembly (2) all include mounting bracket (21) of fixed connection at last material loading platform (1) one side and fix mount pad (22) on mounting bracket (21) top, install mobilizable baffle (26) on mounting bracket (21), and baffle (26) are located directly over conveyer belt (12), one side of mount pad (22) is provided with the fixed subassembly of connecting baffle (26).

2. The feeding structure of a stacking apparatus according to claim 1, wherein: the fixing assembly comprises a sliding block (24) fixed at one end of the baffle plate (26) and a sliding groove (23) formed in one side of the installation seat (22) and used for enabling the sliding block (24) to slide, one end of the sliding block (24) is movably connected with a connecting rod (25), and one side of the installation seat (22) is provided with a driving assembly (3) for driving the connecting rod (25) to move.

3. The feeding structure of a stacking apparatus according to claim 2, wherein: the driving assembly (3) comprises a lantern ring (35) fixed at one end of the connecting rod (25) and a supporting plate (31) fixed at one side of the mounting seat (22), a driving motor (34) is fixed at one end of the supporting plate (31), an eccentric ring (33) is fixed at one end of the driving motor (34), a connecting column (32) is fixed outside the eccentric ring (33), and the connecting column (32) is movably connected with the lantern ring (35).

4. The feeding structure of a stacking apparatus according to claim 1, wherein: the mounting bracket (21) is provided with an adjusting component (4) for driving the mounting bracket (22) to move, the adjusting component (4) comprises a connecting groove (41) formed in one side of the mounting bracket (21) and a supporting block (44) fixed at the bottom of the mounting bracket (22), the top end of the mounting bracket (21) is provided with a positioning groove (42) communicated with the inside of the connecting groove (41), and one end of the supporting block (44) extends into the positioning groove (42) and is fixed with a clamping block (43) matched with the connecting groove (41).

5. The feeding structure of a stacking apparatus according to claim 4, wherein: the adjusting component (4) further comprises screw holes formed in the supporting block (44) and the clamping block (43) and a plurality of screw holes (46) formed in the connecting groove (41), a fixing column (45) is screwed at the top end of the supporting block (44), and the fixing column (45) is screwed into the screw holes (46) corresponding to the screw holes through the screw holes.

6. The feeding structure of a stacking apparatus according to claim 2, wherein: one side of the sliding block (24) is also provided with a movable groove, a rotatable shaft lever is arranged in the movable groove, and one end of the connecting rod (25) is inserted into the movable groove and sleeved outside the shaft lever.