Automatic winding device for lithium-boron alloy material

By designing a combined structure of sliding groove, slide rail, slide block and moving frame, and combining the connection method of connecting pipe and four-sided plug, the problem of low efficiency of existing lithium boron alloy strip winding device is solved, and the rapid installation and disassembly of multiple sets of winding rollers is realized, thus improving production efficiency.

CN224449642UActive Publication Date: 2026-07-03YICHANG YILONG ELECTRONIC MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YICHANG YILONG ELECTRONIC MATERIALS CO LTD
Filing Date
2025-06-16
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing lithium boron alloy strip winding devices can only wind one set of alloy strips at a time, which is inefficient. Furthermore, the installation and disassembly of the winding rollers are cumbersome, affecting production efficiency.

Method used

An automatic winding device for lithium boron alloy materials was designed. Through the combination of sliding groove, slide rail, slide base, moving frame and fixed frame, multiple sets of winding rollers can be detachably connected. The structure of connecting pipe and four-sided plug makes it convenient to assemble and disassemble the winding rollers. Combined with motor drive and lead screw adjustment, automated winding is achieved.

Benefits of technology

It enables rapid installation and disassembly of multiple sets of winding rollers, improves the production efficiency of lithium boron alloy strips, simplifies the operation process, and enhances the automation level of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a lithium boron alloy material automatic winding device relates to winding device technical field, including base, the upper end one side of base is provided with the sliding slot, the both sides of sliding slot still are provided with slide rail, the upper end sliding connection of sliding slot and slide rail has slide seat, the upper end of slide seat is provided with moving frame, the upper end of base is fixed with fixed frame on the other side, be provided with multiple groups of winding roller between the lateral wall of moving frame and fixed frame, the both ends of each group winding roller are provided with a group of butt -joint pipe and a group of four edge insertion rod respectively, the middle of butt -joint pipe all is provided with four edge interface, and the winding roller between every two groups is detachable connection through butt -joint pipe and four edge insertion rod. The utility model discloses a lithium boron alloy material automatic winding device can be according to the production needs to the quantity of winding roller carries out corresponding adjustment, lets lithium boron alloy tape material production winding process be more convenient.
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Description

Technical Field

[0001] This utility model relates to the field of winding device technology, and in particular to an automatic winding device for lithium boron alloy materials. Background Technology

[0002] The production process of lithium-boron alloy strip typically involves first selecting lithium and boron raw materials in a specific ratio, placing them in a vacuum melting furnace, and heating them under high vacuum until the raw materials are completely melted to avoid the oxidation and volatilization loss of lithium and boron. After the melt is homogeneous, a rapid solidification technology, such as melt spinning, is used to spray the melt through a nozzle and rapidly cool and solidify it on the surface of a high-speed rotating cooling roller to form a thin strip alloy. Finally, the alloy strip undergoes subsequent processes such as surface treatment and performance testing to obtain a lithium-boron alloy strip product that meets the requirements.

[0003] After the lithium boron alloy strip is produced, it needs to be wound up using a winding device. Existing winding devices can usually only wind up one set of alloy strips at a time, resulting in low winding efficiency. Furthermore, the installation and disassembly of the winding rollers are quite cumbersome, affecting the production efficiency of lithium boron alloy strips. To address the shortcomings of existing technologies, we propose an automatic winding device for lithium boron alloy materials. Utility Model Content

[0004] The main objective of this invention is to provide an automatic winding device for lithium boron alloy materials, which can effectively solve the problems in the background art.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] An automatic winding device for lithium boron alloy materials includes a base. A sliding groove is provided on one side of the upper end of the base, and slide rails are provided on both sides of the sliding groove. A slide block is slidably connected to the upper end of the sliding groove and slide rails. A movable frame is provided on the upper end of the slide block. A fixed frame is fixed on the other side of the upper end of the base. Multiple sets of winding rollers are arranged between the side walls of the movable frame and the fixed frame. Each set of winding rollers has a pair of connecting pipes and a set of four-sided inserts at both ends. A four-sided interface is provided in the middle of each pair of connecting pipes. Each pair of winding rollers is detachably connected to each other through the connecting pipes and the four-sided inserts.

[0007] Preferably, the outer wall of the movable frame is provided with a first mounting bracket, the middle of the first mounting bracket is provided with a connecting shaft, the rear end of the connecting shaft is rotatably connected to the inner wall of the first mounting bracket through a rotating interface, the front end of the connecting shaft is provided with a first rotating ring, the middle of the movable frame is provided with a first rotating interface, the first rotating ring is fitted into the middle of the first rotating interface and rotatably connected to the first rotating interface, and the front end of the first rotating ring is provided with a positioning rod, the positioning rod being detachably connected to a set of connecting pipes.

[0008] Preferably, a mounting frame is fixed to the outer side of the first mounting bracket, and a motor is installed in the middle of the mounting frame. The output end of the motor is connected to the rear end of the connecting shaft.

[0009] Preferably, a lead screw is provided in the middle of the lower end of the slide block inside the sliding groove. The lead screw passes through the middle of the slide block and is threadedly connected to the slide block. Both ends of the lead screw are rotatably connected to the inner wall of the sliding groove. A handle is provided at the rear end of the lead screw outside the base.

[0010] Preferably, the outer wall of the fixed frame is provided with a second mounting bracket, the middle of the second mounting bracket is provided with a rotating shaft, the rear end of the rotating shaft is rotatably connected to the inner wall of the second mounting bracket through a rotating interface, the front end of the rotating shaft is provided with a second rotating ring, the middle of the fixed frame is provided with a second rotating interface, the second rotating ring is rotatably connected to the second rotating interface, the front end of the second rotating ring is provided with a positioning tube, the middle of the positioning tube is also provided with a four-sided insertion port, and the positioning tube is detachably connected to a set of four-sided insertion rods.

[0011] Preferably, both the second mounting bracket and the first mounting bracket are provided with bolts in the middle. The bolts are provided with threaded holes between them and the outer walls of the fixed bracket and the movable bracket, respectively. The bolts are threadedly connected to the fixed bracket and the movable bracket through the provided threaded holes. The second mounting bracket and the first mounting bracket are detachably connected to the fixed bracket and the movable bracket through the provided bolts.

[0012] Compared with the prior art, the present invention has the following beneficial effects:

[0013] In this invention, the winding roller, connecting pipe, and four-sided insert rod facilitate the combination and installation of multiple winding rollers. The number of winding rollers can be adjusted according to different production conditions and needs. The combination and installation of winding rollers is convenient and quick, simply by connecting the four-sided insert rod to the connecting pipe. The four-sided structure of the four-sided insert rod will not slip. By rotating the handle, the position of the moving frame at the top of the base can be adjusted via the screw. The position of the moving frame can be adjusted according to the different number of winding rollers, making the installation and operation of the winding rollers more convenient and simple.

[0014] In this utility model, the No. 1 mounting bracket, connecting shaft, positioning rod, No. 2 mounting bracket, rotating shaft, and positioning tube allow for easy disassembly and assembly of the winding roller with the moving frame and fixed frame. The No. 1 mounting bracket and the No. 2 mounting bracket are bolted to the outer wall of the moving frame and the fixed frame. The No. 1 mounting bracket and the No. 2 mounting bracket can be disassembled by removing the bolts, which facilitates the disassembly of the positioning rod and the positioning tube, making the disassembly and assembly operations more convenient. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the winding roller assembly connection structure of this utility model;

[0017] Figure 3 This is a disassembly diagram of the positioning rod installation structure of this utility model;

[0018] Figure 4 This is a disassembly diagram of the positioning tube installation structure of this utility model.

[0019] In the diagram: 1. Base; 2. Sliding groove; 3. Slide rail; 4. Slide seat; 5. Handle; 6. Moving frame; 7. Mounting bracket No. 1; 8. Mounting frame; 9. Motor; 10. Winding roller; 11. Fixed frame; 12. Mounting bracket No. 2; 13. Connecting pipe; 14. Four-sided insert rod; 15. Lead screw; 16. Rotating interface No. 1; 17. Rotating ring No. 1; 18. Connecting shaft; 19. Bolt; 20. Positioning insert rod; 21. Rotating shaft; 22. Rotating ring No. 2; 23. Positioning tube; 24. Rotating interface No. 2. Detailed Implementation

[0020] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0021] like Figures 1-4As shown, an automatic winding device for lithium boron alloy material includes a base 1. A sliding groove 2 is provided on one side of the upper end of the base 1, and slide rails 3 are provided on both sides of the sliding groove 2. A slide block 4 is slidably connected to the upper end of the sliding groove 2 and the slide rails 3. A movable frame 6 is provided on the upper end of the slide block 4. The movable frame 6 can be adjusted in position by sliding the slide block 4 on the upper end of the sliding groove 2 and the slide rails 3. A fixed frame 11 is fixed on the other side of the upper end of the base 1. Multiple sets of winding rollers 10 are arranged between the side walls of the movable frame 6 and the fixed frame 11. The winding rollers 10 are used to wind lithium boron alloy strips. Each set of winding rollers 10 has a set of connecting pipes 13 and a set of connecting pipes 14 at both ends. The four-sided insert rod 14 and the connecting pipe 13 are both provided with four-sided interfaces in the middle. Each pair of winding rollers 10 is detachably connected through the connecting pipe 13 and the four-sided insert rod 14. The outer wall of the movable frame 6 is provided with a first mounting frame 7. The first mounting frame 7 is provided with a connecting shaft 18 in the middle. The first mounting frame 7 is used to install the connecting shaft 18. The connecting shaft 18 can rotate in the middle of the first mounting frame 7. The outer side of the first mounting frame 7 is fixed with a mounting frame 8. The middle of the mounting frame 8 is equipped with a motor 9. The output end of the motor 9 is connected to the rear end of the connecting shaft 18. The motor 9 is used to drive the connecting shaft 18 to rotate. The front end of the connecting shaft 18 is provided with a first rotating ring 1. 7. The connecting shaft 18 can drive the first rotating ring 17 to rotate. The movable frame 6 is provided with a first rotating interface 16 in the middle. The first rotating ring 17 is fitted into the middle of the first rotating interface 16 and rotates in connection with the first rotating interface 16. The front end of the first rotating ring 17 is provided with a positioning rod 20. The positioning rod 20 is detachably connected to a set of connecting pipes 13. The outer wall of the fixed frame 11 is provided with a second mounting frame 12. The second mounting frame 12 is provided with a rotating shaft 21 in the middle. The rotating shaft 21 can rotate in the middle of the second mounting frame 12. The front end of the rotating shaft 21 is provided with a second rotating ring 22. The fixed frame 11 is provided with a second rotating interface 2 in the middle. 4. The second rotating ring 22 is rotatably connected to the second rotating interface 24. The front end of the second rotating ring 22 is provided with a positioning tube 23, and the middle of the positioning tube 23 is also provided with a four-sided insertion port. The positioning tube 23 is detachably connected to a set of four-sided insertion rods 14. The middle of the second mounting bracket 12 and the first mounting bracket 7 are provided with bolts 19. The bolts 19 are respectively provided with threaded holes between the fixed bracket 11 and the outer wall of the movable bracket 6. The bolts 19 are threadedly connected to the fixed bracket 11 and the movable bracket 6 through the provided threaded holes. The second mounting bracket 12 and the first mounting bracket 7 are detachably connected to the fixed bracket 11 and the movable bracket 6 through the provided bolts 19.

[0022] like Figures 1-4As shown, a lead screw 15 is provided in the middle of the lower end of the slide block 4 inside the sliding groove 2. The lead screw 15 passes through the middle of the slide block 4 and is threadedly connected to the slide block 4. The two ends of the lead screw 15 are rotatably connected to the inner wall of the sliding groove 2. A handle 5 is provided on the outer side of the base 1 at the rear end of the lead screw 15. When the handle 5 is turned, the lead screw 15 can be rotated, so that the slide block 4 moves on the outer wall of the lead screw 15 and slides on the upper end of the sliding groove 2 and the slide rail 3, thereby moving the moving frame 6. This facilitates the adjustment of the distance between the moving frame 6 and the second mounting frame 12, adapting to different numbers of winding rollers 10, and also facilitating the installation and disassembly of the winding rollers 10.

[0023] It should be noted that this utility model is an automatic winding device for lithium boron alloy materials. In use, according to the production situation of lithium boron alloy strip materials, select the corresponding number of winding rollers 10, insert the four-sided insert rod 14 into the four-sided interface of the connecting pipe 13 of the adjacent winding roller to complete the roller splicing, rotate the handle 5, adjust the position of the slide 4 so that the distance between the moving frame 6 and the fixed frame 11 is slightly greater than the combined length of the winding rollers, put the connecting pipe of one end of the winding roller on the positioning insert rod 20, and insert the four-sided insert rod of the other end into the four-sided insertion port of the positioning tube 23 to complete the installation, fix the first end of the lithium boron alloy strip on the surface of the winding roller, start the motor 9, the motor 9 drives multiple sets of rotation through the connecting shaft 18 to wind the lithium boron alloy strip material. After the winding is completed, rotate the handle 5 to move the moving frame 6 outward, so that the positioning insert rod 20 is disengaged from the connecting pipe 13 of a set of winding rollers 10, so that people can disassemble the winding rollers 10 and store the wound lithium boron alloy strip.

[0024] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. An automatic winding device for lithium-boron alloy material, comprising a base (1), characterized in that: A sliding groove (2) is provided on one side of the upper end of the base (1), and a slide rail (3) is provided on both sides of the sliding groove (2). A slide seat (4) is slidably connected to the upper end of the sliding groove (2) and the slide rail (3). A movable frame (6) is provided at the upper end of the slide seat (4). A fixed frame (11) is fixed on the other side of the upper end of the base (1). Multiple sets of winding rollers (10) are provided between the side walls of the movable frame (6) and the fixed frame (11). Each set of winding rollers (10) is provided with a set of connecting pipes (13) and a set of four-sided inserts (14) at both ends. A four-sided interface is provided in the middle of each connecting pipe (13). Each two sets of winding rollers (10) are detachably connected through the connecting pipes (13) and the four-sided inserts (14).

2. The automatic winding device for lithium-boron alloy material according to claim 1, characterized in that: The outer wall of the movable frame (6) is provided with a first mounting bracket (7). The first mounting bracket (7) is provided with a connecting shaft (18) in the middle. The rear end of the connecting shaft (18) is rotatably connected to the inner wall of the first mounting bracket (7) through a rotating interface. The front end of the connecting shaft (18) is provided with a first rotating ring (17). The middle of the movable frame (6) is provided with a first rotating interface (16). The first rotating ring (17) is fitted into the middle of the first rotating interface (16) and rotatably connected to the first rotating interface (16). The front end of the first rotating ring (17) is provided with a positioning rod (20). The positioning rod (20) is detachably connected to a set of connecting pipes (13).

3. The automatic winding device for lithium-boron alloy material according to claim 2, characterized in that: The first mounting bracket (7) is fixed with a mounting frame (8) on its outer side. A motor (9) is installed in the middle of the mounting frame (8). The output end of the motor (9) is connected to the rear end of the connecting shaft (18).

4. The automatic winding device for lithium-boron alloy material according to claim 1, characterized in that: A lead screw (15) is provided in the middle of the lower end of the slide (4) inside the sliding groove (2). The lead screw (15) passes through the middle of the slide (4) and is threadedly connected to the slide (4). The two ends of the lead screw (15) are rotatably connected to the inner wall of the sliding groove (2). A handle (5) is provided at the rear end of the lead screw (15) outside the base (1).

5. The automatic winding device for lithium-boron alloy material according to claim 3, characterized in that: The outer wall of the fixed frame (11) is provided with a second mounting frame (12). The second mounting frame (12) is provided with a rotating shaft (21) in the middle. The rear end of the rotating shaft (21) is rotatably connected to the inner wall of the second mounting frame (12) through a rotating interface. The front end of the rotating shaft (21) is provided with a second rotating ring (22). The middle of the fixed frame (11) is provided with a second rotating interface (24). The second rotating ring (22) is rotatably connected to the second rotating interface (24). The front end of the second rotating ring (22) is provided with a positioning tube (23). The middle of the positioning tube (23) is also provided with a four-sided insertion port. The positioning tube (23) is detachably connected to a set of four-sided insertion rods (14).

6. The automatic winding device for lithium-boron alloy material according to claim 5, characterized in that: Bolts (19) are provided in the middle of the second mounting bracket (12) and the first mounting bracket (7). The bolts (19) are respectively provided with threaded holes between the bolts (19) and the outer walls of the fixed bracket (11) and the movable bracket (6). The bolts (19) are threadedly connected to the fixed bracket (11) and the movable bracket (6) through the provided threaded holes. The second mounting bracket (12) and the first mounting bracket (7) are detachably connected to the fixed bracket (11) and the movable bracket (6) through the provided bolts (19).