CN223680263U - Be used for echelon energy storage lithium battery module assembly device - Google Patents

Abstract

The utility model discloses an assembly device for a echelon energy storage lithium battery module, in particular to the technical field of lithium battery module assembly, which comprises an echelon frame, wherein the front end of the echelon frame is provided with a plurality of assembly cavities for placing the lithium battery module, the front end of the echelon frame is provided with a feeding mechanism, the feeding mechanism comprises a feeding table, a pushing plate for pushing the lithium battery module is arranged at the top of the feeding table, the bottom end of the pushing plate is fixed with the feeding table through two electric sliding tables I, and three sliding grooves matched with the lithium battery module are formed in the top of the feeding table. According to the lithium battery module automatic conveying device, the feeding table and the pushing plate are matched to automatically convey the lithium battery module, and meanwhile, the positions of the pushing plate and the feeding table are respectively adjusted by means of the first electric sliding table and the second electric sliding table, so that the time for placing and assembling the lithium battery modules one by one can be saved, the assembling efficiency of the lithium battery module can be improved, frequent bending of workers can be avoided, and the safety is improved.

Description

Be used for echelon energy storage lithium battery module assembly device

Technical Field

The utility model relates to the technical field of lithium battery module assembly, in particular to an assembly device for a echelon energy storage lithium battery module.

Background

The echelon energy storage lithium battery module is a lithium battery which can not meet the use requirement of the original equipment, and can be continuously used in occasions with lower performance requirements through detection, repair and reconfiguration. The gradient utilization can prolong the service life of the battery, reduce the resource waste and have obvious environmental and economic benefits. The echelon energy storage lithium battery module is mainly applied to the field with relatively low requirements on battery performance, such as power backup of a communication base station, an energy storage system and the like. These fields do not require as severe energy density and cycle life requirements as electric vehicles, so lithium batteries that are used in a cascade can still perform their remaining functions.

When lithium batteries are subjected to echelon energy storage, the lithium batteries are mostly arranged on an echelon frame in a concentrated mode for assembly. For example, the utility model can drive the bidirectional screw rod to rotate by starting the stepping motor, and then can drive the moving block on the surface of the bidirectional screw rod to move, and can drive the clamping plate to move by the movement of the moving block, thereby clamping and limiting the lithium battery module structure and avoiding damage to the lithium battery module structure due to external force collision.

However, the prior art has the following problems that the weight of the lithium battery module is heavy, and the echelon frame has a certain height, so that time and labor are wasted when a worker manually carries and places the lithium battery module, the working efficiency is low, meanwhile, the worker is required to climb up to place and frequently bend down to place the lithium battery module by means of tools, accidents such as collision and slipping easily occur in the back and forth carrying and placing process, and safety risks exist.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides the assembling device for the echelon energy storage lithium battery module, which is used for automatically conveying the lithium battery module through the cooperation of the feeding table and the pushing plate, and simultaneously, the positions of the pushing plate and the feeding table are respectively adjusted by means of the first electric sliding table and the second electric sliding table, so that the time for placing and assembling the lithium battery module one by one can be saved, the assembling efficiency of the lithium battery module can be improved, the frequent bending of workers can be avoided, and the safety is improved, so that the problems in the background technology are solved.

The utility model provides a technical scheme that the lithium battery module assembling device comprises a echelon frame, wherein a plurality of assembling cavities for accommodating lithium battery modules are formed in the front end of the echelon frame, a feeding mechanism is arranged at the front end of the echelon frame and comprises a feeding table, a pushing plate for pushing the lithium battery modules is arranged at the top of the feeding table, the bottom end of the pushing plate is fixed with the feeding table through two first electric sliding tables, three sliding grooves matched with the lithium battery modules are formed in the top of the feeding table, second electric sliding tables are fixedly embedded in two sides of the front end of the echelon frame, and the second electric sliding tables are fixed with the rear end of the feeding table.

In a preferred embodiment, the echelon frame is internally provided with a plurality of groups of storage grooves, each group of storage grooves is two in number, and the two storage grooves are communicated with a plurality of assembly cavities distributed in longitudinal columns and are used for installing and fixing the structure of the lithium battery module.

In a preferred embodiment, each storage groove is internally provided with a vertical plate in a sliding manner, the front ends of the vertical plates are fixedly provided with a plurality of clamping plates distributed in longitudinal rows, the front ends of the clamping plates extend into the assembly cavity, and the lithium battery modules are fixed by utilizing the clamping plates corresponding to each other in pairs, so that the safety is prevented from being affected by shaking of the lithium battery modules.

In a preferred embodiment, a plurality of mounting grooves are formed in the rear end of the echelon frame, electric pushing rods for driving the risers to move are fixedly arranged in each storage groove, the risers are driven to move by the electric pushing rods, manual operation is not needed, and time and labor are saved when the ladder is used.

In a preferred embodiment, the detachable rear baffle is fixedly arranged at the rear end of the echelon frame, the front end of the rear baffle is contacted with the rear ends of the plurality of electric push rods, and the rear baffle is detached, so that a worker can conveniently overhaul the electric push rods and the vertical plates.

In a preferred embodiment, the echelon frame rear end has seted up the thermovent with a plurality of equipment chamber intercommunication, and every thermovent is inside all to be fixed to be equipped with radiator fan, and radiator fan establishes at lithium battery module rear, sets up radiator fan and can improve lithium battery module's radiating effect, avoids lithium battery module heat too high and influences the use.

In a preferred embodiment, the rear end of the rear baffle is provided with a vent hole communicated with a plurality of heat dissipation openings, and the heat dissipation fan sucks air behind the rear baffle and blows the air into the assembly cavity through the heat dissipation openings, so that the air circulation speed in the assembly cavity can be increased, and the heat dissipation effect of the lithium battery module is improved.

The utility model has the technical effects and advantages that:

According to the lithium battery module automatic conveying device, the feeding table and the pushing plate are matched to automatically convey the lithium battery module, and meanwhile, the positions of the pushing plate and the feeding table are respectively adjusted by means of the first electric sliding table and the second electric sliding table, so that the time for placing and assembling the lithium battery modules one by one can be saved, the assembling efficiency of the lithium battery module can be improved, frequent bending of workers can be avoided, and the safety is improved.

The electric push rod drives the vertical plate to move, and the clamping plates on the vertical plate can move simultaneously and fix the lithium battery modules in the assembly cavities respectively, so that the number of power equipment can be greatly reduced, and the cost can be saved.

Drawings

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

FIG. 2 is a rear elevational view of the overall structure of the present utility model;

FIG. 3 is a block diagram of a tailgate and ladder frame of the present utility model;

FIG. 4 is a rear view of the feeder floor of the present utility model;

Fig. 5 is a schematic view of a riser, cleat and electric putter of the present utility model.

The reference sign is 1, ladder rack; 2, an assembly cavity, 3, a feeding mechanism, 4, a storage groove, 5, a vertical plate, 6, a clamping plate, 7, a mounting groove, 8, an electric push rod, 9, a rear baffle, 10, a heat dissipation port, 11, a heat dissipation fan, 12 and a ventilation hole;

301. the feeding device comprises a feeding table, a pushing plate, a first electric sliding table, a 304 sliding chute, a 305 electric sliding table and a second electric sliding table.

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

Referring to the accompanying drawings 1-5 of the specification, the utility model provides an assembly device for a echelon energy storage lithium battery module, which comprises a echelon frame 1, wherein a plurality of assembly cavities 2 for placing the lithium battery module are arranged at the front end of the echelon frame 1, a feeding mechanism 3 is arranged at the front end of the echelon frame 1, the feeding mechanism 3 comprises a feeding table 301, a pushing plate 302 for pushing the lithium battery module is arranged at the top of the feeding table 301, the bottom end of the pushing plate 302 is fixed with the feeding table 301 through two first electric sliding tables 303, three sliding grooves 304 matched with the lithium battery module are formed at the top of the feeding table 301, second electric sliding tables 305 are fixedly embedded at two sides of the front end of the echelon frame 1, and the two second electric sliding tables 305 are fixed with the rear end of the feeding table 301;

Specifically, the first electric sliding table 303 and the second electric sliding table 305 are mechanical devices capable of realizing accurate linear motion, and are generally composed of a motor, a guide rail, a lead screw, a synchronous belt or other components, wherein the motor provides power, and the lead screw or the synchronous belt converts rotary motion into linear motion.

When the lithium battery module placement device is used, a worker firstly places three lithium battery modules on the feeding table 301, simultaneously places the three lithium battery modules in the three sliding grooves 304 respectively, then drives the feeding table 301 to move up and down by using the electric sliding table II 305, conveys the lithium battery modules to the front of the assembly cavity 2 corresponding to the high position, then drives the pushing plate 302 to move backwards by using the electric sliding table I303, so that the three lithium battery modules are automatically pushed into the three assembly cavities 2 respectively, the above operation is repeated, and then the placement of the lithium battery modules of all the assembly cavities 2 can be completed.

Referring to fig. 1-5 of the specification, a plurality of groups of storage grooves 4 are arranged in the echelon frame 1, each group of storage grooves 4 is two, and the two storage grooves 4 are communicated with a plurality of assembly cavities 2 distributed in longitudinal columns and are used for installing and fixing a structure of a lithium battery module;

Then, a vertical plate 5 is slidably arranged in each storage groove 4, a plurality of clamping plates 6 distributed in longitudinal rows are fixedly arranged at the front ends of the vertical plates 5, the front ends of the clamping plates 6 extend into the assembly cavity 2, and lithium battery modules are fixed by utilizing the clamping plates 6 corresponding to each other, so that the safety is prevented from being influenced by shaking of the lithium battery modules;

The rear end of the echelon frame 1 is provided with a plurality of mounting grooves 7, each storage groove 4 is internally and fixedly provided with an electric push rod 8 for driving the vertical plate 5 to move, specifically, the electric push rod 8 is an electric driving device for converting the rotation motion of a motor into the linear reciprocating motion of the push rod, a motor on the electric push rod 8 drives a screw rod to rotate through a reduction gear, a nut on the screw rod converts the rotation motion into the linear motion, so that the push rod is pushed to extend or retract, the vertical plate 5 is driven to move by the electric push rod 8, manual operation is not needed, and the electric push rod is more time-saving and labor-saving in use;

The rear end of the echelon frame 1 is provided with a heat dissipation opening 10 communicated with a plurality of assembly cavities 2, a heat dissipation fan 11 is fixedly arranged in each heat dissipation opening 10, the heat dissipation fan 11 is arranged behind the lithium battery module, and the heat dissipation effect of the lithium battery module can be improved by arranging the heat dissipation fan 11;

And, echelon frame 1 rear end is fixed to be equipped with detachable backplate 9, specifically, uses a plurality of bolts to fix between backplate 9 and the echelon frame 1 to this easy to assemble dismantles backplate 9, backplate 9 front end and a plurality of electric putter 8 rear ends contact, dismantles backplate 9, makes things convenient for the staff to overhaul electric putter 8, the ventilation hole 12 that is linked together with a plurality of thermovent 10 has been seted up to backplate 9 rear end for the circulation of air.

The electric push rod 8 drives the vertical plate 5 to move, and the clamping plates 6 on the vertical plate 5 can move simultaneously and fix the lithium battery modules in the assembly cavities 2 respectively, so that the number of power equipment can be greatly reduced, and the cost can be saved.

Finally, the foregoing description of the preferred embodiment of the utility model is provided for the purpose of illustration only, and is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (7)

1. An assembly device for cascaded energy storage lithium battery modules, comprising a cascade rack (1), characterized in that: the front end of the cascade rack (1) is provided with a plurality of assembly cavities (2) for placing lithium battery modules, and the front end of the cascade rack (1) is provided with a feeding mechanism (3); The feeding mechanism (3) includes a feeding platform (301). The top of the feeding platform (301) is provided with a push plate (302) for pushing lithium battery modules. The bottom end of the push plate (302) is fixed to the feeding platform (301) by two electric slides (303). The top of the feeding platform (301) is provided with three slide grooves (304) adapted to the lithium battery modules. Electric slides (305) are fixedly embedded on both sides of the front end of the ladder frame (1). Both electric slides (305) are fixed to the rear end of the feeding platform (301). 2. The assembly device for cascaded energy storage lithium battery modules according to claim 1, characterized in that: the cascade rack (1) is provided with multiple sets of storage slots (4), each set of storage slots (4) has two slots, and the two storage slots (4) are connected to multiple longitudinally distributed assembly cavities (2). 3. The assembly device for cascaded energy storage lithium battery modules according to claim 2, characterized in that: each storage slot (4) is slidably provided with a vertical plate (5), and a plurality of longitudinally arranged clamping plates (6) are fixedly provided at the front end of the vertical plate (5), and the front end of the clamping plates (6) extends into the assembly cavity (2). 4. The assembly device for cascaded energy storage lithium battery modules according to claim 3, characterized in that: the rear end of the cascaded frame (1) is provided with a plurality of mounting slots (7), and each storage slot (4) is provided with an electric push rod (8) for driving the vertical plate (5) to move. 5. The assembly device for cascaded energy storage lithium battery modules according to claim 1, characterized in that: a detachable rear baffle (9) is fixedly provided at the rear end of the cascaded frame (1), and the front end of the rear baffle (9) is in contact with the rear ends of a plurality of electric push rods (8). 6. The assembly device for cascaded energy storage lithium battery modules according to claim 5, characterized in that: the rear end of the cascade rack (1) is provided with a heat dissipation port (10) communicating with multiple assembly cavities (2), each heat dissipation port (10) is fixedly provided with a heat dissipation fan (11), and the heat dissipation fan (11) is located behind the lithium battery module. 7. The assembly device for cascaded energy storage lithium battery modules according to claim 6, characterized in that: the rear end of the rear baffle (9) is provided with ventilation holes (12) that are connected to multiple heat dissipation ports (10).