CN212290791U - A receiving mechanism for electrode slice - Google Patents

Abstract

The utility model discloses a bearing mechanism for an electrode plate, which comprises a mounting component and a guide component, wherein the mounting component comprises a mounting plate; the guide assembly comprises a first guide part and a second guide part, and a gap between the first guide part and the second guide part forms a cavity for accommodating the electrode plate; the first guide piece comprises a first support frame and a plurality of first guide plates, and a first guide channel is formed by two adjacent first guide plates; the second guide piece comprises a second support frame and a plurality of second guide plates, and a second guide channel is formed by two adjacent second guide plates; the second guide plate and the first guide plate are arranged in a V shape; the first guide channel and the second guide channel are arranged in a staggered mode in the vertical direction. The utility model discloses at least, include following advantage: the guide assembly in the shape of a louver is matched with the containing cavity, so that the electrode plates can be stacked in sequence from multiple directions by time dislocation, and the method is quick and effective.

Description

A receiving mechanism for electrode slice

Technical Field

The utility model relates to an accomodate technical field, specific be a supporting mechanism for electrode slice.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

The electrode sheet is a commonly used element in industrial production, and is usually a sheet-shaped body. In the forming process, a plurality of electrode plates are generally collected and then uniformly transferred, and the collection is generally carried out in a stacking manner. To above-mentioned collection action, the auxiliary fixtures that correspond include clamping jaw subassembly or sucking disc subassembly etc. foretell two kinds of modes are all stacked the electrode slice in proper order from a direction, and foretell auxiliary fixtures need stretch into in the holding chamber just can place the preset position with the electrode slice, and foretell action causes the clearance time that stacks between two adjacent electrode slices longer to it is poor to cause the stacking efficiency.

It should be noted that the above background description is only for the sake of clarity and complete description of the technical solutions of the present invention, and is set forth for facilitating understanding of those skilled in the art. These solutions are not considered to be known to the person skilled in the art merely because they have been set forth in the background section of the present invention.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect among the prior art, the embodiment of the utility model provides a supporting mechanism for electrode slice utilizes the direction subassembly cooperation of louver form to hold the chamber, can stack the electrode slice in proper order from the multi-direction and utilize the time dislocation, and is quick effective.

The embodiment of the application discloses: a bearing mechanism for an electrode plate comprises a mounting component and a guide component,

the mounting assembly comprises a mounting plate arranged in a horizontal plane;

the guide assembly comprises a first guide piece and a second guide piece which are arranged on the mounting plate at intervals along a first direction, and a gap between the first guide piece and the second guide piece forms a cavity for containing the electrode plate;

the first guide piece comprises a first support frame and a plurality of first guide plates arranged on the first support frame at intervals in the vertical direction, and a first guide channel is formed in a gap between every two adjacent first guide plates in the vertical direction;

the second guide piece comprises a second support frame and a plurality of second guide plates arranged on the second support frame at intervals in the vertical direction, and a second guide channel is formed in a gap between every two adjacent second guide plates in the vertical direction;

the first guide plate and the second guide plate are obliquely arranged in a vertical plane, and the second guide plate and the first guide plate are arranged in a V shape;

the first guide channel and the second guide channel are arranged in a staggered mode in the vertical direction, wherein the height of the outlet end of the first guide channel in the vertical direction is lower than the thickness of at least one electrode plate at the outlet end of the second guide channel corresponding to the outlet end of the first guide channel.

Further, the end part of the first guide plate is abutted against the side wall of the electrode plate when the electrode plate slides into the containing cavity through the second guide channel; and the end part of the second guide plate is abutted against the side wall of the electrode plate when the electrode plate slides into the containing cavity through the first guide channel.

Further, the included angle formed between the first guide plate and the second guide plate is 120-150 degrees.

Furthermore, the first support frame and the second support frame are provided with two, and the first support frame and the second support frame are arranged at intervals along the direction perpendicular to the conveying direction of the electrode plate.

Furthermore, the electrode plate conveying device comprises material blocking parts which are arranged at intervals in the direction perpendicular to the electrode plate conveying direction, and the material blocking parts are detachably connected with the first supporting frame and the second supporting frame which are positioned on the same side respectively.

Furthermore, the material blocking part is made of an anti-static sponge material.

Further, the position of each of the first guide plate and the second guide plate in the vertical direction is adjustable.

Borrow by above technical scheme, the beneficial effects of the utility model are as follows: by the aid of the arrangement mode of the first guide channel and the second guide channel at intervals, the feeding gap between two adjacent electrode plates can be shortened, the stacking time of the two adjacent electrode plates is shortened, and bearing efficiency is effectively improved; and the first guide plate and the second guide plate are arranged in an inclined mode, so that the electrode plate can automatically slide into the accommodating groove through the self gravity, the investment of a driving piece is reduced, and the installation space is reduced.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an overall device in an embodiment of the present invention;

fig. 2 is a schematic structural view of a second guide in an embodiment of the present invention.

Reference numerals of the above figures: 1. mounting a plate; 2. a first support frame; 3. a first guide plate; 4. a second support frame; 5. a second guide plate; 6. keep off the material piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that, in the description of the present invention, the terms "first", "second", and the like are used for descriptive purposes only and for distinguishing similar objects, and no order is shown between the two, and no indication or suggestion of relative importance is understood. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

With reference to fig. 1 and 2, the embodiment discloses a receiving mechanism for electrode plates, which includes a mounting component and a guiding component, wherein a cavity is formed by the aid of the louver-shaped guiding component and the mounting component, so that the electrode plates can be stacked in sequence from multiple directions by time dislocation, and the receiving mechanism is rapid and effective.

In the present embodiment, the mounting assembly includes a mounting plate 1 disposed in a horizontal plane, and the mounting plate 1 is preferably rectangular as a whole. The mounting plate 1 can be made of common alloy, stainless steel and the like on the market, and the upper surface in contact with the electrode plate is guaranteed to have preset smoothness.

In this embodiment, the guide assembly includes a first guide and a second guide that are disposed on the upper surface of the mounting plate 1 at an interval along a left-right direction (a first direction), wherein a gap between the first guide and the second guide opposite to each other forms a cavity for accommodating the electrode sheet.

In the above manner, the first guide member includes two first support frames 2 and a plurality of first guide plates 3, and each of the first guide plates 3 is transversely disposed on two of the first support frames 2. Specifically, the two first support frames 2 are arranged at intervals in the front-back direction and extend in the vertical direction, and the two first support frames 2 are cylindrical. Each first guide plate 3 is a sheet-shaped body, and a plurality of first guide plates 3 are uniformly distributed on the two first support frames 2 in the vertical direction. The first guide plate 3 can be made of a molybdenum disulfide material, and the molybdenum disulfide material has a self-lubricating property, so that the electrode plate can well slide into the accommodating cavity in the contact process of the electrode plate.

Taking two adjacent first guide plates 3 as an example, a gap in the vertical direction between a lower side wall of the first guide plate 3 located above and an upper side wall of the first guide plate 3 located below forms a first guide channel. The electrode sheet contacts with the upper side wall of the first guide plate 3 positioned below in the process of sliding down.

In the above manner, the second guiding element includes two second supporting frames 4 and a plurality of second guiding plates 5, and each of the second guiding plates 5 is transversely disposed on two of the second supporting frames 4. Specifically, the two second support frames 4 are arranged at intervals in the front-rear direction and extend in the vertical direction, and the two second support frames 4 are cylindrical. Every second deflector 5 is the platelike body, and is a plurality of second deflector 5 is along vertical direction equipartition horizontal establishing two on second support frame 4. The second guide plate 5 can be made of a molybdenum disulfide material, and the molybdenum disulfide material has a self-lubricating property, so that the electrode plate can well slide into the accommodating cavity in the contact process of the electrode plate.

Taking two adjacent second guide plates 5 as an example, a gap in the vertical direction between the lower side wall of the second guide plate 5 located above and the upper side wall of the second guide plate 5 located below forms a second guide channel. The electrode sheet contacts with the upper side wall of the second guide plate 5 positioned below in the process of sliding down.

It is worth noting that: the first guide plate 3 and the second guide plate 5 are obliquely arranged in a vertical plane, and the second guide plate 5 and the first guide plate 3 are arranged in a V shape. Preferably, the included angle formed between the first guide plate 3 and the second guide plate 5 is 120-. By the arrangement mode, the electrode plate can fall into the containing groove according to the gravity of the electrode plate in the sliding process, and the structure is optimized.

The first guide channel and the second guide channel are arranged in a staggered mode in the vertical direction. Specifically, the height of the outlet end of the first guide channel in the vertical direction is lower than the thickness of one electrode plate at the outlet end of the corresponding second guide channel.

Through the arrangement mode, an external feeding mechanism firstly conveys an electrode plate into the first guide channel at the lowest end, and the electrode plate effectively slides into the accommodating cavity according to the self gravity and the inclined arrangement of the first guide plate 3 and is abutted against the mounting plate 1; a limiting part protrudes upwards from the upper surface of the mounting plate 1, and the limiting part can be abutted against the side wall of the electrode plate on the side far away from the first guide plate 3; when the electrode plate slides in the first guide channel at the lowest end, another electrode plate can be conveyed into the second guide channel at the lowest end, the electrode plate can still be matched with the inclined arrangement of the second guide plate 5 according to the gravity of the electrode plate, the electrode plate slides to the accommodating cavity after sliding to the accommodating cavity at the last electrode plate, the electrode plate is abutted against the electrode plate and analogized in sequence until the electrode plate slides in each of the first guide channel and the second guide channel, and the accommodating groove is filled with the stacked electrode plates.

In the operation mode, two feeding mechanisms are required to be matched for use, and the feeding gap between two adjacent electrode plates can be shortened through the interval arrangement mode of the first guide channel and the second guide channel, so that the stacking time of the two adjacent electrode plates is shortened, and the bearing efficiency is effectively improved; and the first guide plate 3 and the second guide plate 5 adopt an inclined arrangement mode, so that the electrode plate can automatically slide into the accommodating groove through self gravity, the investment of a driving piece is reduced, and the installation space is reduced.

In this embodiment, the receiving mechanism further comprises material blocking members 6 arranged at intervals in the front-back direction, and the material blocking members 6 are detachably connected with the first support frame 2 and the second support frame 4 which are located on the same side respectively. Specifically, the material blocking part 6 is made of an anti-static sponge material. Because the action of electrode slice butt behind landing to holding chamber can cause the skew of electrode slice position in the front and back direction, and through the setting of foretell antistatic sponge, can protect the electrode slice betterly, and can not cause static phenomenon in order to cause the influence to the electrode slice.

In this embodiment, since the electrode sheets of different specifications have different thicknesses, the positions of the first guide plate 3 and the second guide plate 5 in the vertical direction can be adjusted, so that the electrode sheets of different specifications can be stacked, and the adaptability is high.

The present invention has been explained by using specific embodiments, and the explanation of the above embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (7)

1. A bearing mechanism for an electrode plate is characterized by comprising a mounting assembly and a guide assembly,

the mounting assembly comprises a mounting plate arranged in a horizontal plane;

the guide assembly comprises a first guide piece and a second guide piece which are arranged on the mounting plate at intervals along a first direction, and a gap between the first guide piece and the second guide piece forms a cavity for containing the electrode plate;

the first guide piece comprises a first support frame and a plurality of first guide plates arranged on the first support frame at intervals in the vertical direction, and a first guide channel is formed in a gap between every two adjacent first guide plates in the vertical direction;

the second guide piece comprises a second support frame and a plurality of second guide plates arranged on the second support frame at intervals in the vertical direction, and a second guide channel is formed in a gap between every two adjacent second guide plates in the vertical direction;

the first guide plate and the second guide plate are obliquely arranged in a vertical plane, and the second guide plate and the first guide plate are arranged in a V shape;

the first guide channel and the second guide channel are arranged in a staggered mode in the vertical direction, wherein the height of the outlet end of the first guide channel in the vertical direction is lower than the thickness of at least one electrode plate at the outlet end of the second guide channel corresponding to the outlet end of the first guide channel.

2. The receiving mechanism for the electrode sheet according to claim 1, wherein an end portion of the first guide plate abuts against a side wall of the electrode sheet when the electrode sheet slides down into the containing cavity through the second guide channel; and the end part of the second guide plate is abutted against the side wall of the electrode plate when the electrode plate slides into the containing cavity through the first guide channel.

3. The receiving mechanism for electrode sheets as claimed in claim 1, wherein the included angle formed between the first guide plate and the second guide plate is 120-150 °.

4. The receiving mechanism for electrode sheets as claimed in claim 1, wherein there are two first support frames and two second support frames, and two first support frames and two second support frames are spaced apart from each other in a direction perpendicular to a conveying direction of the electrode sheets.

5. The electrode sheet receiving mechanism as defined in claim 1, comprising blocking members spaced apart in a direction perpendicular to a conveying direction of the electrode sheet, the blocking members being detachably connected to the first support frame and the second support frame on the same side, respectively.

6. The electrode sheet receiving mechanism as defined in claim 5, wherein the material blocking member is made of an antistatic sponge material.

7. The receiving mechanism for an electrode sheet as set forth in claim 1, wherein a position of each of said first guide plate and said second guide plate in a vertical direction is adjustable.

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