Stainless steel plate material convenient for splicing

By combining the adaptive clamping component and the alignment component, along with guiding anti-deviation and dynamic protection, the problems of low efficiency and poor precision in steel plate splicing are solved, achieving efficient and precise steel plate splicing and avoiding the influence of impurities.

CN224496997UActive Publication Date: 2026-07-14XINGHUA ZHAOTAI METAL MATERIAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINGHUA ZHAOTAI METAL MATERIAL CO LTD
Filing Date
2025-09-25
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing steel plates have low positioning and installation efficiency and poor alignment accuracy during splicing. Furthermore, the connection position is easily affected by external impurities, leading to connection deviations and jamming.

Method used

The use of adaptive clamping components and alignment components, combined with guide anti-deviation and dynamic protection components, ensures the adaptive positioning and splicing of steel plates. The guide anti-deviation components reduce deviations, and the dynamic protection components seal gaps to prevent external impurities from entering.

Benefits of technology

It improves the efficiency of steel plate splicing, ensures precise alignment, reduces structural corrosion or jamming caused by impurity accumulation, and enhances the practicality and durability of splicing.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a convenient to splice's stainless steel sheet, include: steel sheet subassembly, left end steel sheet subassembly inner wall installation is from adaptive clamping subassembly, right end steel sheet subassembly inner wall installation has alignment subassembly, adaptive clamping subassembly, alignment subassembly inner wall installation has the deviation prevention component of guiding, adaptive clamping subassembly both ends slide to have dynamic protection component. The utility model provides a convenient to splice's stainless steel sheet, through the cooperation of adaptive clamping subassembly and alignment subassembly of setting, can realize the adaptive location splicing of steel sheet, reduces the tediousness of subsequent structure alignment. And, through the dynamic protection component of setting, can follow adaptive clamping subassembly's movement and carry out the plugging of gap, effectively blocks dust, moisture, chippings and other external impurities and invades the connecting part, reduces the structural corrosion or jamming caused by the impurity accumulation.
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Description

Technical Field

[0001] This utility model relates to the field of steel plate splicing technology, and in particular to a stainless steel plate that is easy to splice. Background Technology

[0002] In fields such as architectural decoration, industrial equipment manufacturing, and pipeline engineering, the splicing and installation of steel plates is one of the core processes. With the acceleration of industrialization, the requirements for the efficiency, precision, and durability of steel plate splicing are constantly increasing.

[0003] Traditional steel plate splicing requires multiple people to complete the positioning steps. If there are errors in the steel plate dimensions or structural asymmetry, the position of the steel must be repeatedly adjusted. Furthermore, manual alignment is susceptible to visual errors and uneven operating force, which can easily affect the splicing and positioning of the steel. At the same time, the connection points of the steel are prone to connection deviations and jamming due to external impurities, resulting in poor practicality.

[0004] Therefore, it is necessary to provide a stainless steel sheet that is easy to splice to solve the above-mentioned technical problems. Utility Model Content

[0005] This invention provides a stainless steel sheet that is easy to splice, solving the problems of low installation efficiency, poor alignment accuracy, and easy influence of external impurities on the connection position of existing steel materials.

[0006] To solve the above-mentioned technical problems, this utility model provides a stainless steel sheet material that is easy to splice, comprising: a steel plate assembly, an adaptive clamping assembly installed on the inner wall of the left end of the steel plate assembly, and an alignment assembly installed on the inner wall of the right end of the steel plate assembly. The adaptive clamping assembly, in conjunction with the alignment assembly, can be used for adaptive installation of the steel plate assembly. Guide and anti-deviation assemblies are installed on the inner walls of the adaptive clamping assembly and the alignment assembly. Dynamic protection assemblies slide at both ends of the adaptive clamping assembly. The dynamic protection assemblies are used to block the gap of the adaptive clamping assembly. Fastening assemblies are installed at both ends of the steel plate assembly.

[0007] Preferably, the steel plate assembly includes a steel plate workpiece, the inner wall of which has a cavity structure for the installation of the self-adaptive clamping assembly and the alignment assembly, and the inner wall of the steel plate workpiece has a reserved installation groove.

[0008] Preferably, the adaptive clamping assembly includes a positioning structure, a reset plate, and a sliding block. The sliding block is slidably mounted on the inner walls at both ends of the positioning structure. A rotating structure is installed on the inner walls of the reset plate and the sliding block. A bracket structure is rotatably connected to the inner wall of the rotating structure. The bracket structure is used for the rotatable connection of the reset plate and the sliding block. An elastic support member is installed on the side end of the reset plate. The elastic support member is used for the elastic support of the reset plate. A clamping structure is installed on the side end of the sliding block. The clamping structure is used for clamping the alignment assembly.

[0009] Preferably, the alignment component includes an alignment frame, the alignment frame having slot structures at both ends, the slot structures being used to adaptively clamp the position of the clamping component, and the inner walls at both ends of the alignment frame having abutment and limiting structures installed.

[0010] Preferably, the guide anti-deviation component includes a guide groove structure and a guide rod structure. The guide groove structure is formed on the inner walls of both ends of the self-adaptive clamping component, and the guide rod structure is installed on the inner walls of both ends of the alignment component. The guide groove structure, in conjunction with the guide rod structure, can be used for position positioning of the self-adaptive clamping component and the alignment component.

[0011] Preferably, the dynamic protection component includes a groove structure, the inner wall of which is equipped with a flexible protection structure, the flexible protection structure being used to adaptively clamp the gaps between components, and slider structures being installed at both ends of the flexible protection structure.

[0012] Preferably, the fastening assembly includes a fastening baffle and a connecting structure. The fastening baffle is installed on the inner walls at both ends of the steel plate assembly, and the fastening structure is installed on the inner walls at both ends of the connecting structure. The fastening structure is used to fasten the steel plate assembly.

[0013] Compared with related technologies, the stainless steel sheet that is easy to splice provided by this utility model has the following beneficial effects:

[0014] This invention provides a stainless steel sheet material that is easy to splice. To reduce the complexity of subsequent installation procedures during the positioning and splicing of the steel sheets, a self-adaptive clamping component and an alignment component work together to achieve self-adaptive positioning and splicing of the steel sheets, reducing the complexity of subsequent structural alignment and improving splicing efficiency. Simultaneously, the design of the guide anti-deviation component ensures precise alignment of the self-adaptive clamping component and the alignment component during the splicing process, preventing deviations. Furthermore, the dynamic protection component seals gaps as the self-adaptive clamping component moves, effectively preventing external impurities such as dust, moisture, and debris from intruding into the connection area, reducing structural corrosion or jamming caused by impurity accumulation. Attached Figure Description

[0015] Figure 1 A schematic diagram of a preferred embodiment of a stainless steel sheet that is easy to splice, provided by this utility model;

[0016] Figure 2 for Figure 1 The diagram shows the structure of the adaptive clamping assembly.

[0017] Figure 3 for Figure 1 The diagram shows the structural schematic of the cavity structure.

[0018] Figure 4 for Figure 1 The diagram shows the structure of the flexible protective structure.

[0019] Figure 5 for Figure 1 The diagram shows the structure of the adaptive clamping assembly.

[0020] The diagram is labeled as follows: 1. Steel plate assembly, 11. Steel plate workpiece, 12. Cavity structure, 13. Reserved mounting slot, 2. Self-adaptive clamping assembly, 21. Positioning structure, 22. Reset plate, 23. Sliding block, 24. Rotating structure, 25. Bracket structure, 26. Elastic support component, 27. Clamping structure, 3. Alignment assembly, 31. Alignment frame, 32. Slot structure, 33. Abutment and limiting structure, 4. Guide and anti-deviation assembly, 41. Guide groove structure, 42. Guide rod structure, 5. Dynamic protection assembly, 51. Slide groove structure, 52. Flexible protection structure, 53. Sliding block structure, 6. Fastening assembly, 61. Fastening baffle, 62. Connecting structure, 63. Fastening structure. Detailed Implementation

[0021] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0022] Please refer to the following: Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 5 ,in, Figure 1 A schematic diagram of a preferred embodiment of a stainless steel sheet that is easy to splice, provided by this utility model; Figure 2 for Figure 1 The diagram shows the structure of the adaptive clamping assembly. Figure 3 for Figure 1 The diagram shows the structural schematic of the cavity structure. Figure 4 for Figure 1 The diagram shows the structure of the flexible protective structure. Figure 5 for Figure 1 The diagram shows the structure of the adaptive clamping assembly. A type of easily assembled stainless steel sheet includes: a steel plate assembly 1; an adaptive clamping assembly 2 is installed on the inner wall of the steel plate assembly 1 at the left end; an alignment assembly 3 is installed on the inner wall of the steel plate assembly 1 at the right end; the adaptive clamping assembly 2, in conjunction with the alignment assembly 3, can be used for adaptive installation of the steel plate assembly 1; guide and anti-deviation components 4 are installed on the inner walls of the adaptive clamping assembly 2 and the alignment assembly 3; dynamic protection components 5 slide at both ends of the adaptive clamping assembly 2, the dynamic protection components 5 being used for gap blocking of the adaptive clamping assembly 2; and fastening components 6 are installed at both ends of the steel plate assembly 1.

[0023] The steel plate assembly 1 includes a steel plate workpiece 11, the inner wall of which is provided with a cavity structure 12. The cavity structure 12 is used for the installation of the self-adaptive clamping assembly 2 and the alignment assembly 3. The inner wall of the steel plate workpiece 11 is provided with a reserved installation groove 13.

[0024] When steel plate component 1 is assembled, the cavity structure 12 opened in the inner wall facilitates the structural positioning of the component in the later stage, provides convenience for use, and reduces the joints between structures.

[0025] Among them, the steel plate assembly 1 includes, but is not limited to, spliced ​​steel plate assembly and modular steel plate assembly; in this embodiment, the steel plate assembly 1 is preferably a spliced ​​steel plate assembly.

[0026] The adaptive clamping assembly 2 includes a positioning structure 21, a reset plate 22, and a sliding block 23. The sliding block 23 is slidably installed on the inner walls of both ends of the positioning structure 21. A rotating structure 24 is installed on the inner walls of the reset plate 22 and the sliding block 23. A bracket structure 25 is rotatably connected to the inner wall of the rotating structure 24. The bracket structure 25 is used for the rotatable connection of the reset plate 22 and the sliding block 23. An elastic support member 26 is installed on the side end of the reset plate 22. The elastic support member 26 is used for the elastic support of the reset plate 22. A clamping structure 27 is installed on the side end of the sliding block 23. The clamping structure 27 is used for clamping the alignment assembly 3.

[0027] When the steel plate assembly 1 is structurally positioned, the alignment component 3 at the side end will be limited to the inside of the positioning structure 21. When the alignment component 3 is structurally positioned, the reset plates 22 at both ends will automatically retract inward under the structural positioning of the alignment component 3. Then, through the rotational connection of the bracket structure 25, the sliding block 23 can be voluntarily slid. At the same time, the clamping structure 27 at the side end of the sliding block 23 will automatically clamp to the inner walls at both ends of the alignment component 3 to ensure convenient alignment and splicing of the steel plate assembly 1.

[0028] The adaptive clamping component 2 includes, but is not limited to, elastic gripper type and hydraulic tensioning type; in this embodiment, the adaptive clamping component 2 is preferably elastic gripper type.

[0029] The alignment component 3 includes an alignment frame 31, with slot structures 32 at both ends of the alignment frame 31. The slot structures 32 are used to adaptively clamp the position of the clamping component 2. A stop-limiting structure 33 is installed on the inner wall of both ends of the alignment frame 31.

[0030] To facilitate the structural splicing of steel plate assembly 1, the alignment frame 31 at the side end will automatically slide into the self-adaptive clamping assembly 2, and the abutment limiting structure 33 set at both ends can adaptively shrink the structure inside the self-adaptive clamping assembly 2 to ensure a stable connection of the structure.

[0031] The alignment component 3 includes, but is not limited to, laser positioning type and mechanical limiting type; in this embodiment, the alignment component 3 is preferably mechanical limiting type.

[0032] The guide anti-deviation component 4 includes a guide groove structure 41 and a guide rod structure 42. The guide groove structure 41 is formed on the inner walls of both ends of the self-adaptive clamping component 2, and the guide rod structure 42 is installed on the inner walls of both ends of the alignment component 3. The guide groove structure 41, in conjunction with the guide rod structure 42, can be used for the position positioning of the self-adaptive clamping component 2 and the alignment component 3.

[0033] When the adaptive clamping component 2 and the alignment component 3 are structurally positioned, the guide rod structure 42 on the inner wall will automatically be limited to the inside of the guide groove structure 41 to reduce the workpiece deviation caused by the movement of the components.

[0034] Among them, the guide anti-deviation component 4 includes, but is not limited to, roller guide type and guide post and guide groove positioning type; in this embodiment, the guide anti-deviation component 4 is preferably the guide post and guide groove positioning type.

[0035] The dynamic protection component 5 includes a sliding groove structure 51, on the inner wall of which a flexible protection structure 52 slides. The flexible protection structure 52 is used to adaptively block the gap between the clamping components 2, and slider structures 53 are installed at both ends of the flexible protection structure 52.

[0036] When the internal adaptive clamping component 2 slides in position, the flexible protective structure 52 on the inner wall will automatically close and block as the component slides, thereby ensuring the sealing of the connection position and reducing jamming between structures.

[0037] The dynamic protection component 5 includes, but is not limited to, telescopic sealing type and self-healing coating type; in this embodiment, the dynamic protection component 5 is preferably telescopic sealing type.

[0038] The fastening assembly 6 includes a fastening baffle 61 and a connecting structure 62. The fastening baffle 61 is installed on the inner walls of both ends of the steel plate assembly 1. The inner walls of both ends of the connecting structure 62 are equipped with fastening structures 63, which are used to fasten the steel plate assembly 1.

[0039] Once the steel plate assembly 1 is positioned, the fastening structures 63 at both ends can ensure the tight connection of the steel plate assembly 1, thereby reducing the slippage of the steel plate assembly 1.

[0040] Among them, the fastening component 6 includes, but is not limited to, bolt and nut type and welded type; in this embodiment, the fastening component 6 is preferably bolt and nut type.

[0041] The working principle of the easily assembled stainless steel sheet provided by this utility model is as follows:

[0042] When steel plates are positioned and spliced, the steel plate components 1 at both ends are first positioned and spliced. When the steel plate components 1 are positioned, the alignment component 3 on the inner wall will automatically limit itself to the inside of the self-adaptive clamping component 2. As the steel plate components 1 continue to slide, the self-adaptive clamping component 2 will clamp the alignment component 3 to ensure the stability of the position of the steel plate components 1 at both ends. At the same time, when the structure is aligned, the guide anti-deviation component 4 will reduce the workpiece deviation of the components during alignment. Meanwhile, when the self-adaptive clamping component 2 is positioned, the dynamic protection component 5 on the inner wall of the side end will automatically slide and block as the components slide to reduce the deviation and jamming of the connection position caused by external impurities.

[0043] Compared with related technologies, the stainless steel sheet that is easy to splice provided by this utility model has the following beneficial effects:

[0044] To reduce the complexity of subsequent installation procedures during the positioning and splicing of steel plates, the adaptive clamping component 2 and the alignment component 3 work together to achieve adaptive positioning and splicing of the steel plates. This reduces the complexity of subsequent structural alignment and improves splicing efficiency. Simultaneously, the design of the guide anti-deviation component 4 ensures precise alignment of the adaptive clamping component 2 and the alignment component 3 during the splicing process, preventing deviations. Furthermore, the dynamic protection component 5 seals gaps as the adaptive clamping component 2 moves, effectively preventing external impurities such as dust, moisture, and debris from intruding into the connection area, reducing structural corrosion or jamming caused by impurity accumulation.

[0045] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A type of stainless steel sheet that is easy to assemble, characterized in that, include: The steel plate assembly has an adaptive clamping component installed on the inner wall of the left end and an alignment component installed on the inner wall of the right end. The adaptive clamping component, in conjunction with the alignment component, can be used for adaptive installation of the steel plate assembly. The inner walls of the adaptive clamping component and the alignment component are equipped with guide and anti-deviation components. Dynamic protection components slide at both ends of the adaptive clamping component, and the dynamic protection components are used to block the gap of the adaptive clamping component. Fastening components are installed at both ends of the steel plate assembly.

2. The easily assembled stainless steel sheet according to claim 1, characterized in that, The steel plate assembly includes a steel plate workpiece, the inner wall of which has a cavity structure for the installation of the self-adaptive clamping assembly and the alignment assembly, and the inner wall of the steel plate workpiece has a reserved installation groove.

3. The easily assembled stainless steel sheet according to claim 1, characterized in that, The adaptive clamping assembly includes a positioning structure, a reset plate, and a sliding block. The sliding block is slidably mounted on the inner walls at both ends of the positioning structure. A rotating structure is installed on the inner walls of the reset plate and the sliding block. A bracket structure is rotatably connected to the inner wall of the rotating structure. The bracket structure is used for the rotatable connection of the reset plate and the sliding block. An elastic support is installed on the side end of the reset plate. The elastic support is used for the elastic support of the reset plate. A clamping structure is installed on the side end of the sliding block. The clamping structure is used for clamping the alignment assembly.

4. The easily assembled stainless steel sheet according to claim 1, characterized in that, The alignment component includes an alignment frame, with slot structures at both ends of the alignment frame. The slot structures are used to adaptively clamp the position of the clamping component. A stop-limiting structure is installed on the inner wall of both ends of the alignment frame.

5. The easily assembled stainless steel sheet according to claim 1, characterized in that, The guide anti-deviation component includes a guide groove structure and a guide rod structure. The guide groove structure is formed on the inner walls of both ends of the self-adaptive clamping component, and the guide rod structure is installed on the inner walls of both ends of the alignment component. The guide groove structure, in conjunction with the guide rod structure, can be used for the position positioning of the self-adaptive clamping component and the alignment component.

6. The easily assembled stainless steel sheet according to claim 1, characterized in that, The dynamic protection component includes a sliding groove structure, on the inner wall of which a flexible protection structure slides. The flexible protection structure is used to adaptively clamp the gaps between components, and slider structures are installed at both ends of the flexible protection structure.

7. The easily assembled stainless steel sheet according to claim 1, characterized in that, The fastening assembly includes a fastening baffle and a connecting structure. The fastening baffle is installed on the inner walls at both ends of the steel plate assembly, and the fastening structure is installed on the inner walls at both ends of the connecting structure. The fastening structure is used to fasten the steel plate assembly.