阅读说明：本技术 一种极板连续自动叠片机构 (Continuous automatic lamination mechanism of polar plate ) 是由 吕吉传 王浩浩 于 2020-12-14 设计创作，主要内容包括：本发明公开了一种极板连续自动叠片机构,包含叠片升降组件、叠片挡料组件和叠片叉料组件,叠片升降组件包含叠片升降滑台、立板托架和多个叠片立板；叠片挡料组件包含叠片挡料架和叠片挡料板；叠片叉料组件包含叉料连接架、叉料升降架和叉料升降板,叉料连接架上设置有长行程升降驱动机构,长行程升降驱动机构带动叉料升降架升降,叉料升降架上设置有快速升降驱动机构,快速升降驱动机构带动叉料升降板升降,叉料升降板上设置有料叉前移缸,料叉前移缸的工作端设置有接料叉；本方案通过叠片升降组件、叠片挡料组件和叠片叉料组件相互配合,可以进行连续的极板片料堆叠和输送,整个过程自动进行,不需要人工干预,提高了收板堆叠的效率和效果。(The invention discloses a continuous automatic pole plate laminating mechanism which comprises a laminating lifting assembly, a laminating material blocking assembly and a laminating material forking assembly, wherein the laminating lifting assembly comprises a laminating lifting sliding table, a vertical plate bracket and a plurality of laminating vertical plates; the lamination material blocking assembly comprises a lamination material blocking frame and a lamination material blocking plate; the laminated material forking assembly comprises a forking connecting frame, a forking lifting frame and a forking lifting plate, wherein a long-stroke lifting driving mechanism is arranged on the forking connecting frame and drives the forking lifting frame to lift; this scheme is mutually supported through lamination lifting unit, lamination material stopping component and lamination fork material subassembly, can carry out continuous pole plate material stack and transport, and whole process is automatic goes on, does not need artificial intervention, has improved the efficiency and the effect that receipts board was piled up.)

1. The utility model provides a continuous automatic lamination mechanism of polar plate which characterized in that: the stacking device comprises a stacking lifting assembly, a stacking material stopping assembly and a stacking material forking assembly, wherein the stacking lifting assembly comprises a stacking lifting sliding table (41), a vertical plate bracket (42) and a plurality of stacking vertical plates (43), the stacking lifting sliding table (41) drives the vertical plate bracket (42) to lift, the stacking vertical plates (43) are arranged on the vertical plate bracket (42), and avoidance gaps are reserved between the adjacent stacking vertical plates (43); the lamination material blocking assembly comprises a lamination material blocking frame (44) and a lamination material blocking plate (45), the lamination material blocking plate (45) is installed on the lamination material blocking frame (44), the lamination material blocking plate (45) is used for blocking the polar plate material thrown from an upstream station, and the polar plate material blocked down falls on a lamination vertical plate (43); the laminated material forking assembly comprises a material forking connecting frame (46), a material forking lifting frame (47) and a material forking lifting plate (48), wherein a long-stroke lifting driving mechanism (49) is arranged on the material forking connecting frame (46), the long-stroke lifting driving mechanism (49) drives the material forking lifting frame (47) to lift, a quick lifting driving mechanism (50) is arranged on the material forking lifting frame (47), the quick lifting driving mechanism (50) drives the material forking lifting plate (48) to lift, a material forking forward cylinder (51) is arranged on the material forking lifting plate (48), and a material receiving fork (52) is arranged at the working end of the material forking forward cylinder (51); gaps between the adjacent laminated vertical plates (43) are used for avoiding the conveying chain and the material receiving forks (52), and vertical groove structures used for avoiding the material receiving forks (52) are also arranged on the laminated material baffle plates (45).

2. The continuous automatic plate stacking mechanism according to claim 1, wherein: the lamination material blocking assembly further comprises a heat radiation fan (53), a counting sensor (54), a blanking guide plate (55) and a material blocking front-back adjusting mechanism (56); the stacking device is characterized in that the heat radiating fan (53) is used for cooling and radiating the stacking material baffle plate (45), the counting sensor (54) is used for calculating the number of the current stacked material, the blanking guide plate (55) is located on the side portion of the stacking material baffle plate (45), and the material baffle front-back adjusting mechanism (56) is used for adjusting the front-back position of the stacking material baffle frame (44).

Technical Field

The invention relates to a continuous automatic pole plate laminating mechanism.

Background

The polar plates need to be fed one by one in the machining process and stacked, the existing machine equipment needs to pause conveying after one pile of polar plates is stacked, the stacked polar plates can be continuously stacked after being conveyed to the next station, and the production efficiency is low.

The applicant has also filed several devices and mechanisms for stacking plates in the day, but all have some disadvantages and need to be optimized.

Disclosure of Invention

In view of the above technical problems, the present invention aims to: a continuous automatic pole plate laminating mechanism is provided.

The technical solution of the invention is realized as follows: a continuous automatic pole plate laminating mechanism comprises a laminating lifting assembly, a laminating material blocking assembly and a laminating material forking assembly, wherein the laminating lifting assembly comprises a laminating lifting sliding table, a vertical plate bracket and a plurality of laminating vertical plates, the laminating lifting sliding table drives the vertical plate bracket to lift, the plurality of laminating vertical plates are arranged on the vertical plate bracket, and avoidance gaps are reserved between the adjacent laminating vertical plates; the lamination material blocking assembly comprises a lamination material blocking frame and a lamination material blocking plate, the lamination material blocking plate is arranged on the lamination material blocking frame and used for blocking polar plate materials thrown from an upstream station, and the blocked polar plate materials fall on the lamination vertical plate; the laminated material forking assembly comprises a forking connecting frame, a forking lifting frame and a forking lifting plate, wherein a long-stroke lifting driving mechanism is arranged on the forking connecting frame and drives the forking lifting frame to lift; the space between adjacent lamination risers is used for dodging conveying chain and connects the material fork, also is provided with the vertical groove structure who is used for dodging to connect the material fork on the lamination striker plate.

Preferably, the laminated material blocking assembly further comprises a cooling fan, a counting sensor, a blanking guide plate and a material blocking front-rear adjusting mechanism; the cooling fan cools and dissipates heat of the laminated material baffle plate, the counting sensor is used for calculating the number of the sheet materials stacked at present, the blanking guide plate is located on the side portion of the laminated material baffle plate, and the material blocking front-back adjusting mechanism is used for adjusting the front-back position of the laminated material baffle frame.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the continuous automatic lamination mechanism of polar plate of this scheme, through lamination lifting unit, lamination fender material subassembly and lamination fork material subassembly mutually support, can carry out continuous polar plate material pile and transport, whole process is automatic goes on, does not need artificial intervention, has improved the efficiency and the effect that the receipts board was piled up.

Drawings

The technical scheme of the invention is further explained by combining the accompanying drawings as follows:

FIG. 1 is a schematic diagram of a continuous automatic lamination mechanism for polar plates according to the present invention;

fig. 2 is a schematic structural diagram of a laminated forking assembly according to the present invention.

Detailed Description

The invention is described below with reference to the accompanying drawings.

As shown in fig. 1-2, the continuous automatic pole plate stacking mechanism of the present invention comprises a stacking lifting assembly, a stacking stop assembly and a stacking fork assembly, wherein the stacking lifting assembly comprises a stacking lifting sliding table 41, a vertical plate bracket 42 and a plurality of stacking vertical plates 43, the stacking lifting sliding table 41 is a vertical linear motor screw mechanism, the stacking lifting sliding table 41 drives the vertical plate bracket 42 to lift, the stacking vertical plates 43 are arranged on the vertical plate bracket 42 at equal intervals, and an avoidance gap is left between adjacent stacking vertical plates 43.

The lamination material blocking assembly comprises a lamination material blocking frame 44, a lamination material blocking plate 45, a cooling fan 53, a counting sensor 54, a blanking guide plate 55 and a material blocking front-back adjusting mechanism 56, wherein the lamination material blocking plate 45 is arranged on the lamination material blocking frame 44, the lamination material blocking plate 45 is used for blocking pole plate materials thrown from an upstream station, and the blocked pole plate materials fall on a lamination vertical plate 43; the heat dissipation fan 53 cools and dissipates heat of the laminated material baffle plate 45, heat generated by high-frequency impact of the pole plates on the material baffle plate 45 is reduced, the counting sensor 54 is used for calculating the number of the current stacked material plates, the blanking guide plate 55 is located on the side portion of the laminated material baffle plate 45, and the material baffle front-back adjusting mechanism 56 is used for manually adjusting the front-back position of the laminated material baffle frame 44.

The laminated material forking assembly comprises a material forking connecting frame 46, a material forking lifting frame 47 and a material forking lifting plate 48, and a long-stroke lifting driving mechanism 49 is arranged on the material forking connecting frame 46; the long-stroke lifting driving mechanism 49 is a vertical linear motor screw rod mechanism, the long-stroke lifting driving mechanism 49 drives the fork material lifting frame 47 to lift, a quick lifting driving mechanism 50 is arranged on the fork material lifting frame 47, the quick lifting driving mechanism 50 is a high-speed cylinder, the quick lifting driving mechanism 50 drives the fork material lifting plate 48 to lift, a material fork forward moving cylinder 51 is arranged on the fork material lifting plate 48, and a material receiving fork 52 is arranged at the working end of the material fork forward moving cylinder 51.

The space between the adjacent laminated vertical plates 43 is used for avoiding the conveying chain and the receiving fork 52, and the laminated material baffle plate 45 is also provided with a vertical groove structure for avoiding the receiving fork 52.

When polar plates are thrown and stacked, the front end of the material receiving fork 52 firstly penetrates through the laminated material baffle plate 45 and extends to the front side of the laminated material baffle plate 45, polar plate sheets thrown from an upstream station impact the laminated material baffle plate 45 and then fall on the material receiving fork 52, the material receiving fork 52 continuously falls into a gap of the laminated vertical plate 43 while throwing, so that the stacked polar plate sheets fall on the laminated vertical plate 43, then the material receiving fork 52 quickly returns but does not extend to the front side of the laminated material baffle plate 45, the laminated vertical plate 43 continuously descends until the stacked polar plate sheets fall on the conveying chain, the conveying chain drives the stacked polar plate sheets to move to a downstream station, and then the laminated vertical plate 43 ascends and returns; in this process, if the number of sheets is one set, the receiving fork 52 is extended immediately to the front side of the lamination striker plate 45, and sheets to be thrown next are stacked on the receiving fork 52, and then the above process is repeated.

The above-mentioned embodiments are merely illustrative of the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.