A storage device for end cap production
By designing components such as the adjustment device and adjustment block in the storage equipment, the problem of messy end cap storage was solved, and orderly storage of end caps was achieved, reducing labor and time costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUXI LANBAO TECH CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-06-26
AI Technical Summary
Existing storage devices for end cap production cannot achieve neat and orderly storage of end caps, leading to difficulties in inventory counting and increased labor and time costs.
A storage device is designed that includes a storage rack, a pressure frame, a pressure plate, an adjustment shell, and an adjustment device. Through the coordinated use of adjustment blocks, adjustment holes, springs, and adjustment grooves, the end caps can be stored in an orderly manner.
This allows for the neat and orderly storage of end caps, reducing the time spent searching for and counting them, and lowering labor and time costs.
Smart Images

Figure CN224407588U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of storage devices for end cap production, and particularly relates to a storage device for end cap production. Background Technology
[0002] End caps are mechanical parts typically used to fix and protect components such as bearings and motors. In modern crane systems, end caps form the ends of crane beams and running tracks, primarily serving as protective devices to prevent debris from entering the tracks or other components. In some equipment, end caps can also transmit torque and absorb shocks, making the equipment run more smoothly. In summary, the existing technology has the following problems: End cap production involves manufacturing end caps, and storage devices for end cap production refer to equipment used to store the finished end caps, including storage racks, containers, and boxes. When storing end caps, they need to be stacked on the rack shelves. Typically, end cap storage is messy and disorderly. When end caps are not stored neatly and orderly, accurately counting the number of end caps is almost impossible. Workers may need to spend a lot of time searching and counting the scattered end caps, increasing labor and time costs. However, existing storage racks used in end cap production lack components for neatly and orderly storing end caps. Therefore, this paper proposes a storage device for end cap production to solve the above problems. Utility Model Content
[0003] To address the problems existing in the prior art, this utility model provides a storage device for end cap production, which has the advantage of enabling the storage device used in end cap production to store end caps neatly and orderly. This solves the problem that existing end cap production is the process of manufacturing end caps, and the storage device for end cap production refers to the equipment used to store the finished end caps, including storage racks, cabinets, and storage boxes. When storing end caps, the end caps need to be stacked on the rack shelves. Usually, the storage of end caps is messy and disorderly. When end caps are not stored neatly and orderly, it is almost impossible to accurately count the number of end caps. Workers may need to spend a lot of time searching for and counting the end caps scattered in various places, which increases labor and time costs. However, existing storage racks used in end cap production lack components for neatly and orderly storing end caps.
[0004] This utility model is implemented as follows: a storage device for end cap production includes a storage rack and a pressure frame. The pressure frame is movably connected to the inner cavity of the storage rack. Several pressure plates are fixedly connected to the surface of the pressure frame. Several storage rods are fixedly connected to the bottom of the inner cavity of the storage rack. Several end caps are sleeved on the surface of the storage rods. The bottom of the pressure plate contacts the top of the end cap. Adjustment shells are fixedly connected to both the left and right sides of the pressure frame. An adjustment device is provided in the inner cavity of the adjustment shell.
[0005] As a preferred embodiment of this utility model, the adjusting device includes two adjusting blocks. The opposite sides of the two adjusting blocks penetrate the adjusting shell and extend to the outer side of the inner cavity of the adjusting shell. Two adjusting holes are opened on the surface of the adjusting blocks. A spring is fixedly connected to the opposite side of the two adjusting blocks. By setting the adjusting device, when the pressure frame and pressure plate need to be moved to the surface of the end cover, the adjusting device has the function of adjusting the position of the pressure frame and pressure plate.
[0006] As a preferred embodiment of this utility model, the inner cavity of the adjusting shell is fixedly connected to an H-shaped adjusting rod that cooperates with the adjusting hole. The surface of the H-shaped adjusting rod is movably connected to the inner cavity of the adjusting hole, and the surface of the spring is fixedly connected to the surface of the H-shaped adjusting rod. By setting the H-shaped adjusting rod, when the adjusting block () moves, it will drive the adjusting hole to move along the surface of the H-shaped adjusting rod. The cooperation between the adjusting hole and the H-shaped adjusting rod has a limiting effect on the movement position of the adjusting block ().
[0007] As a preferred embodiment of this utility model, a V-shaped extrusion shell is fixedly connected to the side of the adjustment block away from the storage rack. Two control rods that cooperate with the V-shaped extrusion shell are movably connected to the inner cavity of the adjustment shell. The surfaces of the control rods are in contact with the inner cavity of the V-shaped extrusion shell. By setting the V-shaped extrusion shell and the control rods, when the control rods move, they can generate extrusion force on the V-shaped extrusion shell. The V-shaped extrusion shell subjected to extrusion force can drive the adjustment block to move.
[0008] As a preferred embodiment of this utility model, the surface of the control rods is provided with a movable hole, and the top of the adjustment shell is fixedly connected with a movable rod that cooperates with the movable hole. The surface of the movable rod is movably connected to the inner cavity of the movable hole. By setting the movable hole and the movable rod, when the control rods move, the movable hole will move along the surface of the movable rod. The cooperation of the movable hole and the movable rod has a limiting effect on the movement position of the control rods.
[0009] As a preferred embodiment of this utility model, the storage rack is fixedly connected to two sides near the adjustment block with adjustment frames that cooperate with the adjustment shell. The inner cavity of the adjustment frame is movably connected to the surface of the adjustment shell. By setting the adjustment frame, when the pressure frame moves, it will drive the adjustment shell to move along the inner cavity of the adjustment frame. The cooperation between the adjustment shell and the adjustment frame has a limiting effect on the movement position of the pressure frame.
[0010] As a preferred embodiment of this utility model, the inner cavity of the adjusting frame is provided with a plurality of adjusting grooves that cooperate with the adjusting blocks. The surface of the adjusting blocks contacts the inner cavity of the adjusting grooves. By setting the adjusting grooves, when the adjusting shell moves to the appropriate position, the control rod is released, and the restoring force generated by the spring returning to its shape will drive the adjusting blocks to be inserted into the inner cavity of the adjusting grooves. The cooperation between the adjusting blocks and the adjusting grooves has a limiting effect on the position of the adjusting shell.
[0011] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0012] 1. This utility model solves the problem of existing end cap production methods by using a combination of an adjustment device, an adjustment block, an adjustment hole, a spring, and an adjustment groove. End cap production is the process of manufacturing end caps. Storage devices for end cap production refer to equipment used to store completed end caps, including storage racks, cabinets, and storage boxes. When storing end caps, they need to be stacked on the rack's shelves. Usually, end caps are stored haphazardly. When end caps are not stored neatly and orderly, accurately counting the number of end caps is almost impossible. Workers may need to spend a lot of time searching for and counting end caps scattered in various places, which increases labor and time costs. However, existing storage racks used in end cap production lack components for neatly and orderly storing end caps.
[0013] 2. By setting up an adjustment device, the V-shaped extrusion shell subjected to extrusion pressure will drive the two adjustment blocks to move closer to each other. When the adjustment blocks move, they will drive the adjustment hole to move along the surface of the H-shaped adjustment rod. At the same time, the force generated when the adjustment blocks move causes the spring to undergo elastic deformation. The restoring force generated by the spring returning to its shape will drive the adjustment blocks to be inserted into the inner cavity of the adjustment groove. The adjustment device has the function of adjusting the position of the pressure frame and the pressure plate. Attached Figure Description
[0014] Figure 1 This is a three-dimensional structural schematic diagram provided in an embodiment of the present utility model;
[0015] Figure 2 This is a three-dimensional schematic diagram showing the connection of the storage rack, pressure frame, pressure plate, and adjustment shell provided in this embodiment of the utility model;
[0016] Figure 3 This is a three-dimensional schematic diagram showing the connection between the extrusion double rods, the moving hole, and the moving rod in an embodiment of the present invention;
[0017] Figure 4 This is a three-dimensional sectional view of the positioning shell provided in this embodiment of the utility model.
[0018] In the diagram: 1. Storage rack; 2. Pressure frame; 3. Pressure plate; 4. Storage rod; 5. End cap; 6. Adjustment shell; 7. Adjustment device; 701. Adjustment block; 702. Adjustment hole; 703. Spring; 8. H-type adjustment rod; 9. V-type extrusion shell; 10. Control double rod; 11. Moving hole; 12. Moving rod; 13. Adjustment frame; 14. Adjustment groove. Detailed Implementation
[0019] To further understand the invention content, features and effects of this utility model, the following embodiments are provided, and detailed descriptions are given in conjunction with the accompanying drawings.
[0020] The structure of this utility model will now be described in detail with reference to the accompanying drawings.
[0021] like Figures 1 to 4 As shown in the figure, an embodiment of the present invention provides a storage device for end cap production, including a storage rack 1 and a pressure frame 2. The pressure frame 2 is movably connected to the inner cavity of the storage rack 1. A plurality of pressure plates 3 are fixedly connected to the surface of the pressure frame 2. A plurality of storage rods 4 are fixedly connected to the bottom of the inner cavity of the storage rack 1. A plurality of end caps 5 are sleeved on the surface of the storage rods 4. The bottom of the pressure plate 3 contacts the top of the end cap 5. Adjustment shells 6 are fixedly connected to both the left and right sides of the pressure frame 2. Adjustment devices 7 are provided in the inner cavity of the adjustment shells 6.
[0022] refer to Figure 4 The adjustment device 7 includes two adjustment blocks 701. The opposite sides of the two adjustment blocks 701 penetrate the adjustment shell 6 and extend to the outer side of the inner cavity of the adjustment shell 6. Two adjustment holes 702 are opened on the surface of the adjustment blocks 701. A spring 703 is fixedly connected to the opposite side of the two adjustment blocks 701.
[0023] The above solution is adopted: by setting the adjustment device 7, when the pressure frame 2 and the pressure plate 3 need to be moved to the surface of the end cover 5, the adjustment device 7 has the function of adjusting the position of the pressure frame 2 and the pressure plate 3.
[0024] refer to Figure 4 The inner cavity of the adjusting shell 6 is fixedly connected to an H-shaped adjusting rod 8 that mates with the adjusting hole 702. The surface of the H-shaped adjusting rod 8 is movably connected to the inner cavity of the adjusting hole 702, and the surface of the spring 703 is fixedly connected to the surface of the H-shaped adjusting rod 8.
[0025] The above scheme is adopted: by setting the H-shaped adjusting rod 8, when the adjusting block 701 moves, it will drive the adjusting hole 702 to move along the surface of the H-shaped adjusting rod 8. The cooperation between the adjusting hole 702 and the H-shaped adjusting rod 8 has a limiting effect on the movement position of the adjusting block (701).
[0026] refer to Figure 4 The adjustment block 701 is fixedly connected to a V-shaped extrusion shell 9 on the side away from the storage rack 1. The inner cavity of the adjustment shell 6 is movably connected to two control rods 10 that cooperate with the V-shaped extrusion shell 9. The surface of the control rods 10 is in contact with the inner cavity of the V-shaped extrusion shell 9.
[0027] The above scheme is adopted: by setting a V-shaped extrusion shell 9 and a control double rod 10, when the control double rod 10 moves, it can generate extrusion force on the V-shaped extrusion shell 9, and the V-shaped extrusion shell 9 subjected to extrusion force can drive the adjustment block 701 to move.
[0028] refer to Figure 3The control rod 10 has a moving hole 11 on its surface. The top of the adjustment shell 6 is fixedly connected to a moving rod 12 that works with the moving hole 11. The surface of the moving rod 12 is movably connected to the inner cavity of the moving hole 11.
[0029] The above solution is adopted: by setting the movable hole 11 and the movable rod 12, when the control double rod 10 moves, the movable hole 11 will move along the surface of the movable rod 12. The cooperation of the movable hole 11 and the movable rod 12 has a limiting effect on the movement position of the control double rod 10.
[0030] refer to Figure 2 The storage rack 1 has a fixedly connected adjustment frame 13 on both sides near the adjustment block 701, which is used in conjunction with the adjustment shell 6. The inner cavity of the adjustment frame 13 is movably connected to the surface of the adjustment shell 6.
[0031] The above scheme is adopted: by setting the adjustment frame 13, when the pressure frame 2 moves, it will drive the adjustment shell 6 to move along the inner cavity of the adjustment frame 13. The cooperation between the adjustment shell 6 and the adjustment frame 13 has a limiting effect on the movement position of the pressure frame 2.
[0032] refer to Figure 2 The inner cavity of the adjustment frame 13 is provided with several adjustment grooves 14 that cooperate with the adjustment block 701, and the surface of the adjustment block 701 contacts the inner cavity of the adjustment groove 14.
[0033] The above solution is adopted: by setting the adjustment groove 14, when the adjustment shell 6 moves to the appropriate position, the control double rod 10 is released, and the restoring force generated by the spring 703 returning to its shape will drive the adjustment block 701 to be inserted into the inner cavity of the adjustment groove 14. The cooperation between the adjustment block 701 and the adjustment groove 14 has a limiting effect on the position of the adjustment shell 6.
[0034] The working principle of this utility model:
[0035] In use, when the storage device used for the production of end caps 5 needs to store the end caps 5 neatly and orderly, the user first places the end cap 5 on the surface of the storage rod 4, and then pulls the two control rods 10 toward opposite sides. When the control rods 10 move, they will cause the moving hole 11 to move along the surface of the moving rod 12. When the control rods 10 move, they will generate a compressive force on the V-shaped extrusion shell 9. The V-shaped extrusion shell 9, subjected to the compressive force, will cause the two adjusting blocks 701 to move toward each other. When the adjusting blocks 701 move, they will cause the adjusting hole 702 to move along the surface of the H-shaped adjusting rod 8. At the same time, the force generated when the adjusting blocks 701 move causes the spring 703 to undergo elastic deformation. When the adjusting block 701 moves completely into the inner cavity of the adjusting shell 6, the pressure frame 2 is pulled towards the side closer to the end cover 5. When the pressure frame 2 moves, it will drive the pressure plate 3 to move. At the same time, the pressure frame 2 will drive the adjusting shell 6 to move along the inner cavity of the adjusting frame 13. When the bottom of the pressure plate 3 contacts the top of the end cover 5, the control double rod 10 is released. The restoring force generated by the spring 703 returning to its shape will drive the adjusting block 701 to be inserted into the inner cavity of the adjusting groove 14. The cooperation of the adjusting block 701 and the adjusting groove 14 has a limiting effect on the position of the adjusting shell 6, the pressure frame 2 and the pressure plate 3. The setting of the pressure plate 3 has a limiting effect on the position of the end cover 5. At this time, the storage device used for the production of the end cover 5 completes the neat and orderly storage of the end cover 5.
[0036] In summary, this storage equipment for end cap production, through the coordinated use of the adjusting device 7, adjusting block 701, adjusting hole 702, spring 703, and adjusting groove 14, solves the problem of existing storage devices for end caps. End cap production is the process of manufacturing end caps, and storage devices for end cap production refer to equipment for storing completed end caps, including storage racks, cabinets, and storage boxes. When storing end caps, they need to be stacked on the rack shelves. Typically, end caps are stored haphazardly. When end caps are not stored neatly and orderly, accurately counting the number of end caps is almost impossible. Workers may need to spend a lot of time searching and counting the end caps scattered in various places, which increases labor and time costs. However, existing storage racks used in end cap production lack components for neatly and orderly storing end caps.
[0037] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.
[0038] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A storage device for end cap production, comprising a storage rack (1) and a pressing frame (2), characterized in that: The pressure frame (2) is movably connected to the inner cavity of the storage rack (1). Several pressure plates (3) are fixedly connected to the surface of the pressure frame (2). Several storage rods (4) are fixedly connected to the bottom of the inner cavity of the storage rack (1). Several end caps (5) are sleeved on the surface of the storage rods (4). The bottom of the pressure plate (3) contacts the top of the end cap (5). Adjustment shells (6) are fixedly connected to both the left and right sides of the pressure frame (2). An adjustment device (7) is provided in the inner cavity of the adjustment shell (6).
2. The storage device for end cap production as described in claim 1, characterized in that: The adjusting device (7) includes two adjusting blocks (701). The two adjusting blocks (701) have opposite sides that penetrate the adjusting shell (6) and extend to the outside of the inner cavity of the adjusting shell (6). Two adjusting holes (702) are opened on the surface of the adjusting blocks (701). A spring (703) is fixedly connected to the opposite side of the two adjusting blocks (701).
3. The storage device for end cap production as described in claim 2, characterized in that: The inner cavity of the adjusting shell (6) is fixedly connected to an H-shaped adjusting rod (8) that works with the adjusting hole (702). The surface of the H-shaped adjusting rod (8) is movably connected to the inner cavity of the adjusting hole (702), and the surface of the spring (703) is fixedly connected to the surface of the H-shaped adjusting rod (8).
4. The storage device for end cap production as described in claim 2, characterized in that: The adjustment block (701) is fixedly connected to a V-shaped extrusion shell (9) on the side away from the storage rack (1). The inner cavity of the adjustment shell (6) is movably connected to two control rods (10) that cooperate with the V-shaped extrusion shell (9). The surface of the control rods (10) is in contact with the inner cavity of the V-shaped extrusion shell (9).
5. The storage device for end cap production as described in claim 4, characterized in that: The control rod (10) has a moving hole (11) on its surface. The top of the adjustment shell (6) is fixedly connected to a moving rod (12) that works with the moving hole (11). The surface of the moving rod (12) is movably connected to the inner cavity of the moving hole (11).
6. The storage device for end cap production as described in claim 2, characterized in that: The storage rack (1) is fixedly connected to two sides near the adjustment block (701) with adjustment frames (13) that cooperate with the adjustment shell (6), and the inner cavity of the adjustment frame (13) is movably connected to the surface of the adjustment shell (6).
7. The storage device for end cap production as described in claim 6, characterized in that: The inner cavity of the adjustment frame (13) is provided with a plurality of adjustment grooves (14) that cooperate with the adjustment block (701), and the surface of the adjustment block (701) is in contact with the inner cavity of the adjustment groove (14).