A corrugated board extrusion forming roller spacing adjustment component
By introducing transverse and longitudinal adjustment components into the corrugated board forming device, the mold spacing can be flexibly adjusted, solving the problem of low production efficiency in the existing technology and realizing the efficient production of corrugated boards of various specifications.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FOSHAN GAOMING JIEFENGYU METAL PROD CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-30
AI Technical Summary
Existing corrugated board forming equipment cannot flexibly adjust the mold spacing during the production process, resulting in low production efficiency. This is especially true when producing three-fold corrugated boards, which requires multiple forming processes, further impacting production efficiency.
Employing lateral and longitudinal adjustment components, the spacing between the forming molds is flexibly adjusted through a slide, lead screw, and locking hook structure, allowing for the production of corrugated sheets of different specifications without disassembly.
It enables the production of corrugated boards of different specifications without disassembling the mold, thereby improving production efficiency and expanding the scope of application.
Smart Images

Figure CN224423984U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of corrugated board forming equipment, and in particular to a corrugated board extrusion forming roller spacing adjustment component. Background Technology
[0002] Existing corrugated sheet (color steel sheet) forming generally uses extrusion molding. If a single-stage forming is required, the die spacing cannot be adjusted, meaning only one type of corrugated sheet can be produced at a time. Another processing method, while still using extrusion molding and allowing for flexible adjustment of the production gap, requires each corrugation to be extruded individually. For three-fold corrugated sheets, three forming processes are needed to produce the finished product. Consequently, its production efficiency is low. Summary of the Invention
[0003] In order to overcome the shortcomings of the prior art, this utility model provides a corrugated board extrusion forming roller spacing adjustment component.
[0004] This utility model is achieved by the following technical solution: a corrugated board extrusion forming roller spacing adjustment component, including a transverse adjustment part and a longitudinal adjustment part, the transverse adjustment part and the longitudinal adjustment part are respectively disposed on the frame, a forming mold is passed through the longitudinal adjustment part, and the transverse adjustment part is placed between the end of the longitudinal adjustment part and the frame for adjusting the spacing of the longitudinal adjustment part;
[0005] The frame has a slide groove, the end of the longitudinal adjustment part is inserted into the slide groove, and the lateral adjustment part is installed in the slide groove to push the longitudinal adjustment parts closer to each other or further apart.
[0006] The longitudinal adjustment part includes a longitudinal adjustment member and longitudinal sliders fixed at both ends of the longitudinal adjustment member. The longitudinal sliders are engaged in the slide groove and slide back and forth in the slide groove. The lateral adjustment part passes through the sliders to drive the sliders to move closer or further apart from each other.
[0007] The longitudinal adjustment component includes a longitudinal lead screw, and the longitudinal sliders are respectively disposed at the ends of the longitudinal lead screw, with one end of the longitudinal lead screw passing through the frame and rotating under the drive of the wrench;
[0008] The molding die is mounted on the longitudinal lead screw, and when the longitudinal lead screw rotates, the molding die reciprocates along the length direction of the longitudinal lead screw.
[0009] The lateral adjustment part includes a lateral adjustment component and a locking component. The lateral adjustment component is disposed on the adjustment slider, and the locking component is disposed on the lateral adjustment component to lock the movement of the lateral adjustment component.
[0010] The lateral adjustment component includes an adjustment roller, on which the forming mold is sleeved. An adjustment groove is formed on the frame, and the end of the adjustment roller is inserted into the adjustment groove and moves up and down along the adjustment groove.
[0011] The end of the adjusting roller is provided with an adjusting slider. The adjusting slider is engaged in the adjusting groove and is driven by the locking member to slide along the length direction of the adjusting groove. When the adjusting roller moves to the upper limit position, the forming mold on the adjusting roller is flush with the forming mold on the longitudinal adjusting part.
[0012] The locking component includes a first locking hook, which is fixed to the frame and forms a channel with the side wall of the adjustment groove. Adjacent adjustment rollers are connected by a connecting rod, and the connecting rod is provided with a second locking hook. The second locking hook is locked with the first locking hook by the channel, and the first locking hook is located at the upper part of the adjustment groove.
[0013] Compared to existing technologies, this invention allows for adjustments to the gap of the extrusion forming mold. By pushing the second locking hook, the second locking hook separates from the first locking hook, causing the adjusting roller to move downwards. In actual use, only the forming mold of the longitudinal adjusting part is used for forming. When it is necessary to reduce the spacing of the longitudinal adjusting parts, the first locking hook can be pushed to separate from the second locking hook, allowing the adjusting roller to fill the gap between the longitudinal adjusting parts. This ensures that the forming mold on the adjusting roller and the forming mold on the longitudinal adjusting part both participate in the corrugated sheet forming. This allows for the production of two different specifications of corrugated sheets without disassembly, making it more convenient and applicable to a wider range of situations. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the structure of the corrugated sheet extrusion forming roller spacing adjustment component in this utility model. Figure 1 ;
[0015] Figure 2 This is a schematic diagram of the structure of the corrugated sheet extrusion forming roller spacing adjustment component in this utility model. Figure 2 ;
[0016] In the diagram: 1. Frame; 2. Lateral adjustment section; 21. Lateral adjustment component; 211. Adjusting roller; 212. Adjusting groove; 213. Adjusting slider; 22. Locking component; 221. First locking hook; 222. Second locking hook; 3. Longitudinal adjustment section; 31. Longitudinal adjustment component; 311. Longitudinal lead screw; 312. Wrench; 32. Longitudinal slider; 33. Slide groove. Detailed Implementation
[0017] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. It should be noted that, without conflict, the various embodiments or technical features described below can be arbitrarily combined to form new embodiments.
[0018] Reference Figure 1-2 A corrugated board extrusion forming roller spacing adjustment assembly includes a transverse adjustment section and a longitudinal adjustment section 3, which are respectively disposed on a frame 1. A forming die passes through the longitudinal adjustment section 3. A transverse adjustment section 2 is placed between the end of the longitudinal adjustment section 3 and the frame 1 to adjust the spacing of the longitudinal adjustment sections 3. There is more than one set of longitudinal adjustment sections 3 on the frame 1, and a gap is formed between adjacent longitudinal adjustment sections 3, the size of which can be adjusted. Specifically, a slide groove 33 is formed on the frame 1. The end of the longitudinal adjustment section 3 is inserted into the slide groove 33, and the transverse adjustment section 2 is installed in the slide groove 33 to push the longitudinal adjustment sections 3 closer together or further apart. This facilitates the adjustment to form an area for the transverse adjustment section 2 to rise. In actual use, the forming die on the longitudinal adjustment section 3 and the transverse adjustment section 2 jointly participates in the forming of the corrugated board. In this way, the production of two different specifications of corrugated boards can be met without disassembly, making it more convenient and applicable to a wider range of situations.
[0019] In this embodiment, the longitudinal adjustment part 3 includes a longitudinal adjustment component 31 and longitudinal sliders 32 fixed at both ends of the longitudinal adjustment component 31. The longitudinal sliders 32 are engaged in a slide groove 33 and slide back and forth within the slide groove 33. The transverse adjustment part 2 passes through the sliders to drive them to move closer or further apart. The longitudinal sliders 32 can be manually adjusted to a suitable spacing for processing the steel plate before actual production. In this embodiment, the longitudinal adjustment component 31 includes a longitudinal lead screw 311. The longitudinal sliders 32 are respectively disposed at the ends of the longitudinal lead screw 311, and one end of the longitudinal lead screw 311 extends out of the frame 1 and rotates under the drive of the wrench 312. The forming mold is mounted on the longitudinal lead screw 311, and when the longitudinal lead screw 311 rotates, the forming mold moves back and forth along the length direction of the longitudinal lead screw 311. The specific position of the forming mold is adjustable, that is, the position can be adjusted by rotating the lead screw.
[0020] In this embodiment, the lateral adjustment part 2 includes a lateral adjustment member 21 and a locking member 22. The lateral adjustment member 21 is disposed on the lateral slider, and the locking member 22 is disposed on the lateral adjustment member 21 to lock the movement of the lateral adjustment member 21. The lateral adjustment member 21 includes an adjustment roller 211, on which a forming mold is sleeved. An adjustment groove 212 is opened on the frame 1. The end of the adjustment roller 211 is inserted into the adjustment groove 212 and moves up and down along the adjustment groove 212. An adjustment slider 213 is provided at the end of the adjustment roller 211. The adjustment slider 213 is engaged in the adjustment groove 212 and is driven by the locking member 22 to slide along the length direction of the adjustment groove 212. When the adjustment roller 211 moves to the upper limit position, the forming mold on the adjustment roller 211 is flush with the forming mold on the longitudinal adjustment part 3.
[0021] In this embodiment, to achieve stability during the adjustment of roller 211, the locking component 22 includes a first locking hook 221, which is fixed to the frame 1 and forms a channel with the side wall of the adjustment groove 212. Adjacent adjustment rollers 211 are connected by a connecting rod, and a second locking hook 222 is provided on the connecting rod. The second locking hook 222 is locked with the first locking hook 221 by the channel, and the first locking hook 221 is located at the upper part of the adjustment groove 212.
[0022] Compared to existing technologies, this invention allows for adjustments to the gap of the extrusion forming die. By pushing the second locking hook 222, it separates from the first locking hook 221, causing the adjusting roller 211 to move downwards. In actual use, only the forming die of the longitudinal adjusting part 3 is used for forming. When the gap of the longitudinal adjusting parts 3 needs to be reduced, the first locking hook 221 is pushed to separate from the second locking hook 222, allowing the adjusting roller 211 to fill the gap between the longitudinal adjusting parts 3. This ensures that the forming die on the adjusting roller 211 and the forming die on the longitudinal adjusting part 3 both participate in the corrugated sheet forming. This allows for the production of two different specifications of corrugated sheets without disassembly, making it more convenient and applicable to a wider range of situations.
[0023] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.
Claims
1. A corrugated board extrusion forming roller spacing adjustment assembly, comprising a transverse adjustment portion and a longitudinal adjustment portion, the transverse adjustment portion and the longitudinal adjustment portion are respectively arranged on a rack, characterized in that: A forming mold is inserted through the longitudinal adjustment part, and the transverse adjustment part is placed between the end of the longitudinal adjustment part and the frame to adjust the spacing of the longitudinal adjustment part; The frame has a slide groove, the end of the longitudinal adjustment part is inserted into the slide groove, and the lateral adjustment part is installed in the slide groove to push the longitudinal adjustment parts closer to each other or further apart.
2. The roll spacing adjustment assembly for corrugator extrusion rolls of claim 1 wherein: The longitudinal adjustment part includes a longitudinal adjustment member and longitudinal sliders fixed at both ends of the longitudinal adjustment member. The longitudinal sliders are engaged in the slide groove and slide back and forth in the slide groove. The lateral adjustment part passes through the longitudinal sliders to drive the sliders to move closer or further apart from each other.
3. The roll spacing adjustment assembly for corrugator extrusion rolls of claim 2 wherein: The longitudinal adjustment component includes a longitudinal lead screw, and the longitudinal sliders are respectively disposed at the ends of the longitudinal lead screw, with one end of the longitudinal lead screw passing through the frame and rotating under the drive of the wrench; The molding die is mounted on the longitudinal lead screw, and when the longitudinal lead screw rotates, the molding die reciprocates along the length direction of the longitudinal lead screw.
4. The roll spacing adjustment assembly for corrugator extrusion rolls of claim 2 wherein: The lateral adjustment part includes a lateral adjustment component and a locking component. The lateral adjustment component is disposed on the adjustment slider, and the locking component is disposed on the lateral adjustment component to lock the movement of the lateral adjustment component.
5. The roll spacing adjustment assembly for corrugator extrusion rolls of claim 4 wherein: The lateral adjustment component includes an adjustment roller, on which the forming mold is sleeved. An adjustment groove is formed on the frame, and the end of the adjustment roller is inserted into the adjustment groove and moves up and down along the adjustment groove. The end of the adjusting roller is provided with an adjusting slider. The adjusting slider is engaged in the adjusting groove and is driven by the locking member to slide along the length direction of the adjusting groove. When the adjusting roller moves to the upper limit position, the forming mold on the adjusting roller is flush with the forming mold on the longitudinal adjusting part.
6. The roll spacing adjustment assembly for corrugator extrusion rolls of claim 5 wherein: The locking component includes a first locking hook, which is fixed to the frame and forms a channel with the side wall of the adjustment groove. Adjacent adjustment rollers are connected by a connecting rod, and the connecting rod is provided with a second locking hook. The second locking hook is locked with the first locking hook by the channel, and the first locking hook is located at the upper part of the adjustment groove.