A wallboard dividing table

By combining a chip collection device and a foldable platform device, the problems of chip collection and insufficient equipment mobility during wall panel cutting are solved, achieving efficient cleaning and convenient operation, and making it suitable for narrow construction sites.

CN224334728UActive Publication Date: 2026-06-09SHANDONG TIANYI HIGH-TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG TIANYI HIGH-TECH CO LTD
Filing Date
2025-07-01
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Traditional wall panel cutting equipment suffers from problems such as difficulty in collecting cutting debris, large space occupation, and insufficient mobility, which affect construction efficiency and environmental cleanliness.

Method used

A wall panel dividing table is designed, which includes a chip collection device and a table device. The chip collection device is used to collect chips, and the table device can be folded for storage. It is easy to move with rollers and casters, and the locking screws and bayonet structure ensure stable support.

Benefits of technology

It enables efficient collection and cleaning of cutting debris, reduces equipment space occupation, facilitates movement and storage, and improves construction efficiency and environmental cleanliness.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a wallboard segmentation platform, including the collection of scrap device, the collection of scrap device is along the ground and shifts, and the particulate matter when dividing wallboard is received to the collection of scrap device, the platform device, the platform device is stored in the collection of scrap device after folding, and the platform device is set up in the top of the collection of scrap device after unfolding, and the wallboard is divided in the top of unfolded platform device, and the particulate matter produced when dividing wallboard pushes into the collection of scrap device, the device can collect the cutting scrap, and is convenient to receive and remove.
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Description

Technical Field

[0001] This utility model relates to the field of auxiliary equipment technology for building decoration, specifically a wall panel cutting table, which is suitable for wall panel cutting operations on-site during interior decoration. Background Technology

[0002] In building decoration construction, wall panels (such as gypsum board, calcium silicate board, and wood fiberboard) usually need to be cut according to the site dimensions. Traditional cutting methods typically use simple supports or are performed directly on the ground, which has the following problems:

[0003] Cutting debris is difficult to collect: The debris generated during the cutting process cannot be effectively collected and is usually swept directly onto the ground, polluting the construction environment and increasing the difficulty of cleaning.

[0004] Inconvenient equipment storage: Traditional cutting tables are mostly fixed structures that take up a lot of space and are difficult to store and move in small construction sites, affecting work efficiency.

[0005] Insufficient mobility: Some cutting tables are not equipped with wheels, requiring multiple people to carry them, increasing labor intensity.

[0006] Based on the above problems, we designed a wall panel partition table that can collect chips and is easy to store and move. Utility Model Content

[0007] The purpose of this invention is to provide a wall panel dividing table that can collect chips and is easy to store and move.

[0008] To achieve the above objectives, this utility model provides the following technical solution:

[0009] A wall panel partition table, comprising,

[0010] A chip collection device that slides along the ground to collect particles generated during wall panel cutting.

[0011] The table device is folded in half and stored in the chip collection device. When unfolded, the table device is placed above the chip collection device. A dividing wall panel is located on the top of the unfolded table device, and the particles generated by the dividing wall panel are pushed into the chip collection device.

[0012] Preferably, the chip collecting device includes a chip collecting groove, the top of which has an opening. The length of the opening is greater than the length of the folded platform device, and the width of the opening is greater than the thickness of the folded platform device, so that the folded platform device can be inserted into the chip collecting groove through the opening.

[0013] Preferably, the chip collection groove has an inclined bottom surface. At the rear end of the chip collection groove, a protruding part is provided at the lower end of the bottom surface. A slot is machined at the upper end of the protruding part. An insert plate is vertically and movably inserted into the slot. The rear end of the protruding part is an open structure. After the insert plate is opened, the chips collected in the chip collection groove are discharged through the rear end of the protruding part.

[0014] Preferably, the platform device includes two platforms, with a pin engaging between them. Grooves are machined on the opposite surfaces of the two platforms, and the two grooves combine to form a discharge groove corresponding to the chip collection groove. A first groove is machined on both sides of one platform, and a locking screw is screwed into the groove wall. A threaded hole is machined on the end face of the other platform. When the locking screw is screwed into the threaded hole, the two platforms form a planar structure. A latch is provided at the bottom of the platform, and a retaining edge is provided at the top edge of the chip collection groove. The retaining edge is inserted along the latches on both sides. Support legs are rotatably engaged on both sides of the platform, and screws engage between the support legs and the platform. After the screws are tightened, the angle of the support legs is fixed.

[0015] Preferably, baffles are welded on the top of the platform, on both sides of the groove. When the two platforms are rotated to form the planar structure, the baffles on the two platforms contact each other and surround the two sides of the discharge groove.

[0016] Preferably, the top of the card edge is cut to form a hand-cut groove.

[0017] Preferably, rollers are installed on both sides of one end of the chip collection groove, and casters are installed on both sides of the other end of the chip collection groove.

[0018] Compared with the prior art, the beneficial effects of this utility model are:

[0019] Highly efficient chip collection, clean and environmentally friendly

[0020] Cutting debris falls directly into the chip collection trough through the discharge slot of the platform device, which facilitates the collection and unified treatment of the chips and keeps the construction site clean.

[0021] The sloping trough bottom design, combined with a removable insert plate, facilitates quick cleaning of debris and avoids frequent dumping that could affect work efficiency.

[0022] Foldable for storage, saving space

[0023] The platform can be folded in half and stored in the chip collection trough, which greatly reduces the space occupied when the equipment is not in use and facilitates transportation and storage.

[0024] With its compact overall structure, it is suitable for narrow construction sites (such as residential decoration, ceiling work, etc.).

[0025] Quick deployment, stable support

[0026] The table can be quickly unfolded into a flat working surface using locking screws and a bayonet structure, ensuring cutting accuracy.

[0027] The outriggers are supported on the ground, and combined with the central edge support, the rigidity of the table is enhanced, preventing the board from shifting due to cutting vibration.

[0028] Mobile convenience, improved efficiency

[0029] The combination of rollers and casters allows a single person to move the equipment around, reducing handling time. Attached Figure Description

[0030] Figure 1 This is an unfolded diagram of the device;

[0031] Figure 2 A perspective view of the chip collection device;

[0032] Figure 3 This is a three-dimensional view of the platform assembly;

[0033] Figure 4 for Figure 3 A magnified view of a portion at point A. Detailed Implementation

[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0035] Please refer to Figure 1 As shown, this utility model is a wall panel partition table, comprising:

[0036] A chip collection device 1 slides along the ground, collecting particles from the wall panel cutting process.

[0037] The table device 2 is folded in half and stored in the chip collection device 1. After being unfolded, the table device 2 is placed above the chip collection device 1. A dividing wall panel is placed on the top of the unfolded table device 2, and the particles generated by the dividing wall panel are pushed into the chip collection device 1.

[0038] In the above technical solution, by unfolding the platform device 2, a larger working surface can be obtained, which facilitates the division of the wall panel.

[0039] The chips generated during the cutting process are retained on the platen device 2 and then manually pushed into the chip collection device 1 to clean the platen device 2, facilitating subsequent cutting.

[0040] After the work is completed, the chips in the chip collection device 1 are emptied, and then the table device 2 is folded up and inserted into the chip collection device 1 to store the device.

[0041] After storage, push the debris collection device 1 to remove it from the site.

[0042] See Figure 2 As shown, the chip collection device 1 includes a chip collection groove 11, and the top of the chip collection groove 11 is provided with an opening 12. The length of the opening 12 is greater than the length of the folded platform device 2, and the width of the opening 12 is greater than the thickness of the folded platform device 2, so that the platform device 2 can be inserted into the chip collection groove 11 through the opening 12 after being folded.

[0043] In the above technical solution, a design with a large opening 12 is adopted, which makes it easy to insert the table device 2 after folding it down, so as to complete the overall storage of the equipment.

[0044] Secondly, it is easy to cooperate with the table equipment 2 to facilitate the collection of chips generated during the cutting process.

[0045] See Figure 2 As shown, the chip collection groove 11 has an inclined bottom surface. At the rear end of the chip collection groove 11, a protruding part 13 is provided at the lower end of the bottom surface. A slot is machined at the upper end of the protruding part 13. An insert plate 14 is vertically and movably inserted into the slot. The rear end of the protruding part 13 is an open structure. After the insert plate 14 is opened, the chips collected in the chip collection groove 11 are discharged through the rear end of the protruding part 13.

[0046] The above technical solution facilitates the cleaning of chips after opening the chip collection groove 11.

[0047] The inclined design of the slot bottom surface facilitates the concentration of chips towards the insertion plate 14.

[0048] The inclined angle of the bottom of the sloping groove is 5° to 8° to ensure that debris slides off automatically.

[0049] See Figure 2 , Figure 3 and Figure 4As shown, the platform device 2 includes two platform plates 21, with a pin 299 fitting between them. Grooves are machined on the opposite surfaces of the two platform plates 21, and the two grooves combine to form a discharge groove 22, which corresponds to the chip collection groove 11. A first groove 23 is machined on both sides of one of the platform plates 21, and a locking screw 24 is screwed into the groove wall of the first groove 23. A threaded hole is machined on the end face of the other platform plate 21. When the locking screw... When screw 24 is screwed into the threaded hole, the two platform plates 21 form a planar structure. A bayonet 25 is provided at the bottom of the platform plate 21, and a retaining edge 121 is provided at the top edge of the chip collection groove 11. The retaining edge 121 is inserted along the bayonet 25 on both sides. Support legs 255 are rotatably fitted on both sides of the platform plate 21. Screws 26 are fitted between the support legs 255 and the platform plate 21. After the screws 26 are tightened, the angle of the support legs 255 is fixed.

[0050] In the above technical solution, by screwing in the locking screw 24, the two platform plates 21 are flattened. After being flattened, the clamping edge 121 is inserted into the clamping slot 25 to complete the middle support of the two platform plates 21 and the position locking.

[0051] Then, the four corners are further supported by the extended support legs 255 to ensure the stability of the platform 21 after it is extended.

[0052] The wall panels are cut on the table 21, and the chips fall into the chip collection groove 11 after passing through the discharge groove 22.

[0053] See Figure 3 As shown, on the top of the platform 21, there are retaining edges 221 welded on both sides of the groove. When the two platforms 21 are rotated to form the planar structure, the retaining edges 221 on the two platforms 21 contact each other and surround the two sides of the discharge groove 22.

[0054] The edge guard 221 is designed so that the chips that are separated can be blocked on the plate 21 (except for fine powder materials), and then swept into the discharge groove 22 by tools such as brooms.

[0055] The height of the guard 221 is 10-15mm, preferably 12mm, to balance spill prevention and ease of cleaning.

[0056] See Figure 2 As shown, the top of the card edge 121 is cut to form a hand-cut groove 1221.

[0057] The hand-operated groove 1221 is designed to facilitate pulling the chip collection groove 11.

[0058] See Figure 2As shown, rollers 199 are installed on both sides of one end of the chip collection groove 11, and casters 198 are installed on both sides of the other end of the chip collection groove 11.

[0059] The combination of rollers 199 and casters 198 facilitates the movement of the chip collection trough 11.

[0060] Working principle

[0061] Deployment process:

[0062] Take out the folded table device 2 from the chip collection trough 11 → unfold the table 21 and tighten the screw 24 → insert the clamp 121 into the slot 25 → adjust the support leg 255 to be vertical;

[0063] Cutting operation:

[0064] The wall panel is placed on the cutting platform 21 → the debris is retained in the edge 221 → manually swept to the discharge groove 22 → the debris falls into the debris collection groove 11;

[0065] Storage process:

[0066] Loosen the locking screw 24, fold the platform 21, retract the support legs 25, insert the whole into the chip collection trough 11, and push the equipment away from the site.

[0067] The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0068] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A wall panel partition table, characterized in that, include, A chip collection device (1) slides along the ground, and the particles from the wall panel cutting process are collected in the chip collection device. The platform device (2) is folded in half and stored in the chip collection device (1). After the platform device (2) is unfolded, it is placed above the chip collection device (1). The top of the unfolded platform device (2) is divided into wall panels, and the particles generated by the wall panels are pushed into the chip collection device (1).

2. The wall panel dividing table according to claim 1, characterized in that, The chip collection device (1) includes a chip collection groove (11), and the top of the chip collection groove (11) is provided with an opening (12). The length of the opening (12) is greater than the length of the folded platform device (2), and the width of the opening (12) is greater than the thickness of the folded platform device (2), so that the platform device (2) can be inserted into the chip collection groove (11) through the opening (12) after being folded.

3. The wall panel dividing table according to claim 2, characterized in that, The chip collection groove (11) has an inclined bottom surface. At the rear end of the chip collection groove (11), a protruding part (13) is provided at the lower end of the bottom surface. A slot is machined at the upper end of the protruding part (13). A plate (14) is vertically inserted into the slot. The rear end of the protruding part (13) is an open structure. After the plate (14) is opened, the chips collected in the chip collection groove (11) are discharged through the rear end of the protruding part (13).

4. The wall panel dividing table according to claim 2, characterized in that, The platform device (2) includes two platforms (21), with a pin (299) fitting between them. Grooves are machined on the opposite surfaces of the two platforms (21), and the two grooves combine to form a discharge groove (22), which corresponds to the chip collection groove (11). A first groove (23) is machined on both sides of one of the platforms (21), and a locking screw (24) is screwed into the groove wall of the first groove (23). A threaded hole is machined on the end face of the other platform (21). When the locking screw (24) is screwed into the groove wall, a threaded hole is screwed into the groove wall of the first groove (23). 24) When screwed into the threaded hole, the two plates (21) form a planar structure. A slot (25) is provided at the bottom of the plate (21), and a retaining edge (121) is provided at the top edge of the chip collection groove (11). The retaining edge (121) is inserted along the slots (25) on both sides. Support legs (255) are rotatably fitted on both sides of the plate (21). Screws (26) are fitted between the support legs (255) and the plate (21). After the screws (26) are tightened, the angle of the support legs (255) is fixed.

5. The wall panel dividing table according to claim 4, characterized in that, On the top of the platform (21), there are flanges (221) welded on both sides of the groove. When the two platforms (21) are rotated to form the planar structure, the flanges (221) on the two platforms (21) contact each other and surround the two sides of the discharge groove (22).

6. The wall panel dividing table according to claim 5, characterized in that, The top of the edge (121) is cut to form a hand-cut groove (1221).

7. The wall panel dividing table according to claim 2, characterized in that, Rollers (199) are installed on both sides of one end of the chip collection groove (11), and casters (198) are installed on both sides of the other end of the chip collection groove (11).