CN216862659U - High compatible adjustable link joint structure - Google Patents

Abstract

The utility model discloses a highly-compatible and adjustable chain plate structure which comprises a chain plate, wherein a plurality of accommodating stations are arranged on the top surface and the bottom surface of the chain plate, a plurality of side limiting clamping blocks and a plurality of end fixing pieces are arranged on the accommodating stations, the side limiting clamping blocks and the end fixing pieces slide in the accommodating stations, and batteries are fixed in the accommodating stations by the side limiting clamping blocks and the end fixing pieces. The utility model designs that the slidable end fixing piece and the side limiting clamping block are arranged at the accommodating station of the chain plate, the battery is clamped at the accommodating station through the end fixing piece and the side limiting clamping block, and the sliding end fixing piece and the side limiting clamping block can automatically adjust the surrounding structure between the end fixing piece and the side limiting clamping block, so that the chain plate is suitable for batteries with different specifications and sizes, the universality of the chain plate is increased, the production efficiency is improved, and the equipment cost is reduced.

Description

High compatible adjustable link joint structure

Technical Field

The utility model relates to the technical field of battery production, in particular to a highly-compatible and adjustable chain plate structure.

Background

The chain plate conveyor fixes the workpiece through the chain plate and then is driven by the conveying mechanism at the bottom, so that the workpiece performs plane conveying motion along with the chain plate to achieve the purpose of material conveying, and the chain plate conveyor is widely applied to the production and manufacturing industries of machinery manufacturing, metallurgy, electric power, food and the like. In the manufacturing enterprises for manufacturing or recycling lithium batteries, a chain plate conveyor is also commonly used for moving the battery materials, and the batteries are placed in the chain plate and move along with the movement of the chain plate. However, the fixing structure of the chain plate to the battery in the prior art cannot be changed, and cannot be changed along with the size of the battery, so that the chain plate needs to be integrally replaced when batteries with different specifications need to be produced in the production process, the universality is low, and the production efficiency is also influenced.

The above disadvantages need to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a highly-compatible and adjustable chain plate structure.

The technical scheme of the utility model is as follows:

the utility model provides a high compatible adjustable link joint structure, includes the link joint, top surface and the bottom surface on the link joint all set up a plurality of holding station, the holding station sets up a plurality of side spacing fixture block and a plurality of end fixing spare, side spacing fixture block with the end fixing spare is in slide in the holding station, side spacing fixture block with the end fixing spare is fixed the battery in the holding station.

The utility model provides a foretell high compatible adjustable link joint structure, the top surface middle part of link joint sets up a plurality of first thing guide rails of putting, the first thing guide rail of putting runs through all of top surface the holding station, the first thing guide rail of putting sets up the spacing fixture block of side is every all be provided with the perpendicular to on the holding station the first second of putting the thing guide rail is put the thing guide rail, the second is put and is set up on the thing guide rail the end fixing spare.

Furthermore, a slender partition plate is arranged between the adjacent accommodating stations in the top surface of the chain plate, and a round hole is formed in the joint of the partition plate and the first article placing guide rail.

Further, empty grooves are formed between the first object placing guide rails, between the first object placing guide rails and the end portions of the chain plates, and between the second object placing guide rails and the end portions of the chain plates.

Furthermore, supporting bosses are arranged between the first object placing guide rails and the end parts of the chain plates, and the top parts of the supporting bosses, the first object placing guide rails, the second object placing guide rails and the end parts of the chain plates are equal in height.

Foretell high compatible adjustable link joint structure, the bottom surface both ends of link joint set up puts the thing board, the middle part of link joint sets up the third and puts the thing guide rail, the third put the thing guide rail with put all that the thing board all runs through the bottom surface the holding station, the third is put and is set up on the thing guide rail the spacing fixture block of side, put and set up on the thing board the tip mounting.

Further, put the thing board with all set up a plurality of round holes on the third puts the thing guide rail.

The high-compatibility adjustable chain plate structure is characterized in that each accommodating station is provided with a plurality of horizontal sliding grooves and a plurality of vertical sliding grooves, the side limiting clamping blocks are connected with the horizontal sliding grooves, and the end fixing pieces are connected with the vertical sliding grooves.

In the highly compatible and adjustable chain plate structure, the side limiting fixture block has the same structure as the end fixing piece, and the side limiting fixture block and the end fixing piece are fixedly connected with the top surface or the bottom surface of the chain plate through the connecting bolt.

Furthermore, the surfaces of the side limiting clamping blocks or the end fixing pieces, which are close to the battery, are planes, the surfaces of the side limiting clamping blocks or the end fixing pieces, which are far away from the battery, are provided with cambered grooves and connecting bosses, and the connecting bolts penetrate through the chain plates and the connecting bosses from bottom to top, so that the chain plates are connected with the side limiting clamping blocks or the end fixing pieces.

According to the scheme, the chain plate has the advantages that the slidable end fixing piece and the side limiting clamping block are arranged at the accommodating station of the chain plate, the battery is clamped at the accommodating station through the end fixing piece and the side limiting clamping block, and the sliding end fixing piece and the side limiting clamping block can automatically adjust the surrounding structure between the end fixing piece and the side limiting clamping block, so that the chain plate is suitable for batteries with different specifications and sizes, the universality of the chain plate is improved, the production efficiency is improved, and the equipment cost is reduced.

Drawings

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

FIG. 1 is a schematic view of the present invention.

Fig. 2 is a schematic diagram of a comparison structure between the accommodating station with a battery installed and the accommodating station without a battery installed.

Fig. 3 is a schematic structural diagram of the top of the chain plate.

Fig. 4 is a structural schematic diagram of the bottom of the chain plate.

Wherein, in the figures, the respective reference numerals:

1. a chain plate; 11. an accommodating station; 12. a horizontal chute; 13. a vertical chute; 14. a first storage rail; 15. a second storage rail; 16. a third article-holding guide rail; 17. a storage plate; 18. a support boss;

2. a side limiting clamping block; 21. connecting the bosses; 22. a cambered surface groove;

3. an end fixture;

4. a battery.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood that when an element is referred to as being "fixed" or "disposed" or "connected" to another element, it can be directly or indirectly located on the other element. The terms "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and should not be construed as limiting the technical solution. The terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. "Multi" means two or more unless specifically limited otherwise. The meaning of "a number" is one or more unless specifically limited otherwise.

The utility model provides a high compatible adjustable link joint structure, as shown in fig. 1, 2, includes link joint 1, and top surface and the bottom surface on the link joint 1 all set up a plurality of holding station 11, and holding station 11 sets up a plurality of side spacing fixture block 2 and a plurality of end fixing piece 3, and side spacing fixture block 2 slides in holding station 11 with end fixing piece 3, and side spacing fixture block 2 fixes battery 4 in holding station 11 with end fixing piece 3.

According to the utility model, the side limiting fixture block 2 and the end fixing part 3 are arranged at each accommodating station 11 of the chain plate 1, and are used for fixing the battery 4 on the accommodating station 11, and are designed to slide in the accommodating station 11, so that the surrounding structure between the two can be automatically adjusted, and the design of the batteries 4 with different specifications and sizes is met, thereby improving the universality of the chain plate 1, avoiding the need of replacing the basic structure of the chain plate 1, reducing the equipment cost and improving the production efficiency. Just link joint 1 in this application is for further improve equipment commonality, makes the structure homoenergetic at the bottom of link joint 1 and top can satisfy the setting of holding station 11, side spacing fixture block 2 and end fixing piece 3, makes the two sides of link joint 1 all can be used to fixed battery 4. Although batteries 4 with different sizes can be satisfied, the space of the fixed accommodating stations 11 causes the transmission efficiency of the chain plate 1 to be the same, so that the design is available on two sides, and the sizes of the accommodating stations 11 on the top surface and the bottom surface can be designed to be different, so that the transmission efficiency of the two sides can be changed and the two sides can be respectively used for transmitting the two types of batteries 4 with larger size difference, and the transmission efficiency can be improved.

In an embodiment, as shown in fig. 2, each accommodating station 11 is provided with a plurality of horizontal sliding grooves 12 and a plurality of vertical sliding grooves 13, the side limiting fixture block 2 is connected with the horizontal sliding groove 12, and the end fixing piece 3 is connected with the vertical sliding groove 13, and since the side limiting fixture block 2 or the end fixing piece 3 can slide in the horizontal sliding groove 12 or the vertical sliding groove 13 to be fixed at any position, the size of the internal surrounding structure thereof can be adjusted to adapt to batteries 4 with different sizes.

In an embodiment, as shown in fig. 2, the side limiting clamping block 2 and the end fixing block 3 have the same structure, the side limiting clamping block 2 and the end fixing block 3 are both fixedly connected to the top surface or the bottom surface of the link plate 1 through a connecting bolt, and after the side limiting clamping block 2 and the end fixing block 3 slide along the horizontal sliding groove 12 or the vertical sliding groove 13, the bolt is tightened, so that the side limiting clamping block 2 and the end fixing block 3 are fixed at the accommodating station 11.

In an embodiment, as shown in fig. 2, one surface of the side limiting clamping block 2 or the end fixing block 3 close to the battery 4 is a plane, the top of the side limiting clamping block is provided with a smooth curved surface, one surface far away from the battery 4 is provided with an arc groove 22 and a connecting boss 21, the connecting convex strip is provided with a threaded hole, the connecting bolt passes through the chain plate 1 and the threaded hole of the connecting boss 21 from bottom to top, and is fixed by a nut after passing through the connecting boss 21, so that the chain plate 1 is connected with the side limiting clamping block 2 or the end fixing block 3, and the side limiting clamping block 2 or the end fixing block 3 is fixed on the horizontal sliding groove 12 or the vertical sliding groove 13.

In one embodiment, the link plate 1 is a housing formed of a plate-like structure.

As shown in fig. 3, a plurality of first article-placing guide rails 14 are arranged in the middle of the top surface of the chain plate 1, the number of the first article-placing guide rails 14 is two in this embodiment, and the first article-placing guide rails 14 penetrate through all the accommodating stations 11 arranged on the top surface of the chain plate 1. On every first thing guide rail 14 of putting, both ends all are provided with horizontal spout 12 about every holding station 11, set up side spacing fixture block 2 on horizontal spout 12. In addition, all be provided with the second of perpendicular to first thing guide rail 14 on every holding station 11 and put thing guide rail 15, the quantity of the second thing guide rail 15 is one in this embodiment, and the upper and lower both ends on the second thing guide rail 15 all are provided with vertical spout 13, set up end fixing piece 3 on the second thing guide rail 15. And a slender partition plate is arranged between the adjacent accommodating stations 11, and a round hole is formed at the joint of the partition plate and the first article placing guide rail 14. Empty grooves are formed between the first article placing guide rails 14, between the first article placing guide rails 14 and the end parts of the chain plates 1, and between the second article placing guide rails 15 and the end parts of the chain plates 1. In order to ensure the placing stability of the battery 4, on each accommodating station 11, supporting bosses 18 are arranged between the first accommodating guide rails 14 and the end portions of the chain plates 1, the supporting bosses 18 are symmetrically distributed on each accommodating station 11, the supporting bosses are respectively arranged at the left end and the right end of the accommodating station 11, and the top of each supporting boss 18, the first accommodating guide rail 14, the second accommodating guide rail 15 and the end portions of the chain plates 1 are equal in height.

As shown in fig. 4, at the bottom surface of the chain plate 1, the upper and lower both ends are provided with the object placing plates 17, the middle part is provided with the third object placing guide rail 16, in this embodiment, the number of the third object placing guide rail 16 is one, the third object placing guide rail 16 and the object placing plates 17 all run through all the accommodating stations 11 of the bottom surface, on each accommodating station 11, the left and right both ends of the third object placing guide rail 16 are provided with the horizontal sliding grooves 12, the horizontal sliding grooves 12 are provided with the side limiting fixture blocks 2, the object placing plates 17 at both ends are provided with the vertical sliding grooves 13, and the vertical sliding grooves 13 are provided with the end fixing parts 3. The object placing plate 17 and the third object placing guide rail 16 are both provided with a plurality of round holes.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a high compatible adjustable link joint structure, its characterized in that includes the link joint, top surface and bottom surface on the link joint all set up a plurality of holding stations, the holding station sets up a plurality of side spacing fixture block and a plurality of end fixing piece, side spacing fixture block with the end fixing piece is in slide in the holding station, side spacing fixture block with the end fixing piece is fixed the battery in the holding station.

2. The link plate structure of claim 1, wherein the link plate has a plurality of first article-placing rails disposed in the middle of the top surface thereof, the first article-placing rails penetrate all the accommodating stations on the top surface, the first article-placing rails are provided with the side limiting fixture blocks, each accommodating station is provided with a second article-placing rail perpendicular to the first article-placing rails, and the second article-placing rails are provided with the end fixing members.

3. A highly compatible adjustable link plate structure as claimed in claim 2, wherein an elongated partition plate is provided between adjacent receiving stations in the top face of the link plate, and a circular hole is provided at the junction of the partition plate and the first article holding guide rail.

4. The link plate structure of claim 2, wherein empty slots are provided between the first article-holding guide rails, between the first article-holding guide rails and the end portions of the link plate, and between the second article-holding guide rails and the end portions of the link plate.

5. The link plate structure of claim 2, wherein supporting bosses are disposed between the first article-holding guide rails and the end portions of the link plate, and the top portions of the supporting bosses, the first article-holding guide rails, the second article-holding guide rails and the end portions of the link plate are at the same height.

6. The chain plate structure of claim 1, wherein the two ends of the bottom surface of the chain plate are provided with a third object placing guide rail, the third object placing guide rail and the object placing plate penetrate all the accommodating stations on the bottom surface, the third object placing guide rail is provided with the side limiting fixture block, and the object placing plate is provided with the end fixing member.

7. The link plate structure of claim 6, wherein the article placing plate and the third article placing guide rail are both provided with a plurality of round holes.

8. The highly compatible and adjustable chain plate structure as claimed in claim 1, wherein each of the accommodating stations is provided with a plurality of horizontal sliding grooves and a plurality of vertical sliding grooves, the side limiting fixture blocks are connected with the horizontal sliding grooves, and the end fixing members are connected with the vertical sliding grooves.

9. The chain plate structure as claimed in claim 1, wherein the side limiting fixture block has the same structure as the end fixing element, and the side limiting fixture block and the end fixing element are both fixedly connected to the top surface or the bottom surface of the chain plate through a connecting bolt.

10. The structure of claim 9, wherein the side surfaces of the side limiting clamping blocks or the end fixing members close to the battery are both flat surfaces, the surfaces of the side limiting clamping blocks or the end fixing members far away from the battery are both provided with arc grooves and connecting bosses, and the connecting bolts pass through the chain plates and the connecting bosses from bottom to top, so that the chain plates are connected with the side limiting clamping blocks or the end fixing members.

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