CN-224226098-U - Transfer device for energy storage module

Abstract

The application relates to a transfer device of energy storage modules, which comprises a bearing mechanism, a conveying mechanism and a lifting mechanism, wherein the bearing mechanism is used for bearing the energy storage modules and is provided with an input part and an output part, the conveying mechanism is arranged on the bearing mechanism and is used for conveying the energy storage modules positioned at the input part to the output part, the lifting mechanism is connected with the bearing mechanism and can drive the bearing mechanism to lift, compared with the prior art, the transfer device for the energy storage modules is used for stacking at least two energy storage modules, the energy storage modules are not required to be hoisted, and the safety in the stacking process is improved.

Inventors

• LAI XINHUA
• GUO DEHUA
• YAO XIAOBING
• Qu Junpeng
• LAI XUEMING
• WU TAO
• SHI YUE
• ZHANG SIYI

Assignees

• 北京聚观新能科技有限公司

Dates

Publication Date

20260512

Application Date

20250617

Claims (10)

1. 1. A transfer device for an energy storage module, comprising: the bearing mechanism is used for bearing the energy storage module and is provided with an input part and an output part; The conveying mechanism is arranged on the bearing mechanism and is used for conveying the energy storage module from the input part to the output part, and The lifting mechanism is connected with the bearing mechanism and can drive the bearing mechanism to lift.
2. 2. The transfer device for an energy storage module according to claim 1, wherein the conveying mechanism comprises a guide module and a conveying module, the guide module extends from the input portion to the output portion, the guide module is used for being in guide fit with the energy storage module, and the conveying module is used for driving the energy storage module to move along the extending direction of the guide module.
3. 3. The transfer device for an energy storage module according to claim 2, wherein the guide module comprises a guide seat and rollers, the guide seat is arranged on the bearing mechanism and extends from the input part to the output part, the rollers are provided with at least two rollers, and the at least two rollers are arranged on the guide seat at intervals along the direction from the input part to the output part.
4. 4. A transfer device for energy storage modules as in claim 3 further comprising a loading mechanism provided with a docking track, one end of which is capable of docking with an end of the guide holder adjacent the output.
5. 5. The transfer device for energy storage modules according to claim 2, wherein at least two guide modules are provided, the at least two guide modules are arranged at intervals along a first direction of the carrying mechanism, the first direction forms an included angle with a direction of the input part towards the output part, and the conveying module is arranged between any two adjacent guide modules.
6. 6. The transfer device for an energy storage module according to claim 2, wherein the conveying module includes a pushing member provided to the carrying mechanism and capable of reciprocating along an extending direction of the guide module, the pushing member being adapted to abut against the energy storage module.
7. 7. The transfer device for an energy storage module according to claim 6, wherein the carrying mechanism is provided with a mounting groove extending along the extending direction of the guide module, the pushing member includes a moving portion and a pushing portion, the moving portion is disposed in the mounting groove and is capable of reciprocating along the extending direction of the mounting groove, the pushing portion is connected with the moving portion, and the pushing portion is disposed in a notch of the mounting groove in a protruding manner.
8. 8. The transfer device for an energy storage module according to claim 7, wherein the conveying mechanism further comprises a first driving member, the first driving member is disposed in the mounting groove and is in driving connection with the moving portion, and the first driving member is capable of driving the moving portion to reciprocate along an extending direction of the mounting groove.
9. 9. The transfer device for an energy storage module according to claim 1, further comprising a base, wherein the lifting mechanism comprises a screw, a second driving member and a nut, the screw is rotatably disposed on the base, the nut is connected with the bearing mechanism and is in threaded engagement with the screw, and the second driving member is used for driving the screw to rotate.
10. 10. The transfer device for an energy storage module according to claim 9, wherein the carrying mechanism comprises a carrying seat, a first connecting piece and a second connecting piece, the first connecting piece is arranged on one side of the carrying seat, the second connecting piece is arranged on the other side of the carrying seat, at least two nuts are arranged, at least one nut is connected with the first connecting piece, at least one nut is connected with the second connecting piece, and the screw and the second driving piece are respectively provided with at least two nuts and are arranged in one-to-one correspondence with the nuts.

Description

Transfer device for energy storage module Technical Field The application relates to the technical field of energy storage module production, in particular to a transfer device for an energy storage module. Background The energy storage module is a core component of the energy storage system, and in the production process, the assembled energy storage module is required to be stored for later use for the production of the follow-up energy storage system. In order to save space, it is generally necessary to stack at least two energy storage modules in the height direction in order to achieve a space-saving effect. In the conventional technology, at least two energy storage modules are hoisted and stacked by a hoisting truck, however, due to the heavy weight of the energy storage modules, potential safety hazards exist in a hoisting mode. Disclosure of utility model Based on the above, it is necessary to provide a transfer device for energy storage modules, aiming at the problem that the prior art has potential safety hazard in a mode of stacking at least two energy storage modules in the height direction by adopting a hoisting mode. The technical scheme is as follows: one embodiment provides a transfer device for an energy storage module, comprising: the bearing mechanism is used for bearing the energy storage module and is provided with an input part and an output part; The conveying mechanism is arranged on the bearing mechanism and is used for conveying the energy storage module positioned at the input part to the output part, and The lifting mechanism is connected with the bearing mechanism and can drive the bearing mechanism to lift. When the transfer device for the energy storage modules is used, one energy storage module (hereinafter referred to as a first energy storage module) is firstly arranged at an input part of a bearing mechanism, a lifting mechanism drives the bearing mechanism to lift and adjust the position, so that an output part of the bearing mechanism is aligned with a loading area for loading the energy storage modules, then the conveying mechanism conveys the first energy storage module from the input part to the output part and finally conveys the first energy storage module from the output part to the loading area for storage, after the conveying of the first energy storage module is completed, the lifting mechanism drives the bearing mechanism to lift to an initial position, then the other energy storage module (hereinafter referred to as a second energy storage module) is arranged at the input part of the bearing mechanism, the lifting mechanism drives the bearing mechanism to lift, so that the output part of the bearing mechanism is aligned with the upper part of the first energy storage module, and then the conveying mechanism conveys the second energy storage module from the input part to the output part, so that the second energy storage module is not required to be stacked, and compared with the conventional technology, the transfer device for the energy storage modules is adopted to stack and place at least two energy storage modules, the safety in the stacking process is improved. In one embodiment, the conveying mechanism comprises a guiding module and a conveying module, the guiding module extends from the input part to the output part, the guiding module is used for guiding and matching with the energy storage module, and the conveying module is used for driving the energy storage module to move along the extending direction of the guiding module. In one embodiment, the guiding module comprises a guiding seat and rollers, the guiding seat is arranged on the bearing mechanism and extends from the input part to the output part, the rollers are provided with at least two rollers, and the at least two rollers are arranged on the guiding seat at intervals along the direction from the input part to the output part. In one embodiment, the transfer device for the energy storage module further comprises a loading mechanism, wherein the loading mechanism is provided with a docking track, and one end of the docking track can dock with one end of the guide seat, which is close to the output part. In one embodiment, the number of the guide modules is at least two, at least two of the guide modules are disposed at intervals along a first direction of the bearing mechanism, the first direction and a direction of the input portion toward the output portion form an included angle, and the conveying module 220 is disposed between any two adjacent guide modules 210. In one embodiment, the conveying module includes a pushing member, where the pushing member is disposed on the bearing mechanism and can reciprocate along the extending direction of the guiding module, and the pushing member is used to abut against the energy storage module. In one embodiment, the bearing mechanism is provided with a mounting groove, the mounting groove extends along the extending direction of the guide module,