Decorative keel square wood processing fixing device

By designing a fixing device for decorative keel square timber processing, the elasticity of springs is used to fix the square timber, solving the movement problem during processing, improving accuracy and safety, and reducing the risk of personal injury.

CN224323257UActive Publication Date: 2026-06-05BEIJING SHOUGANG CONSTR GROUP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING SHOUGANG CONSTR GROUP
Filing Date
2025-04-10
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In existing technologies, keel timber is prone to movement during cutting and processing, leading to processing deviations and safety hazards, and manual cutting poses a risk of injury.

Method used

A decorative keel square timber processing and fixing device was designed. By combining components such as a base, a lower cantilever plate, a spring, a bolt, and an inclined plate, the elastic force of the spring is used to press the lower cantilever plate against the square timber to ensure its stability before cutting.

Benefits of technology

It improves the processing accuracy of square timber, reduces processing deviations and personal injury, lowers safety hazards, and the device is simple to assemble and easy to operate.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224323257U_ABST
    Figure CN224323257U_ABST
Patent Text Reader

Abstract

This application relates to the field of building decoration technology. In particular, it relates to a fixing device for processing decorative keel square timber, comprising a base 1, a lower cantilever plate 2, springs 3, bolts 4, nuts 5, an inclined plate 6, an upper cantilever plate 7, an upper sleeve 8, a column 9, and a lower sleeve 10, used in combination. The column 9 is vertically welded to one end of the base 1; the lower sleeve 10 and the upper sleeve 8 are respectively fitted onto the column 9; the lower cantilever plate 2 is vertically welded to the side of the lower sleeve 10; the upper cantilever plate 7 is vertically welded to the side of the upper sleeve 8; the inclined plate 6 is welded to the outer end of the upper cantilever plate 7; the upper ends of the two springs 3 are respectively welded to the bottom of the inclined plate 6, and the lower ends are welded to the lower cantilever plate 2; the two bolts 4 pass through the two inclined plates 6 and the two springs 3 respectively, and the lower ends are vertically welded to the lower cantilever plate 2; the two nuts 5 are respectively screwed into the upper ends of the two bolts 4. This application effectively solves the problem of keel square timber movement, improves the processing accuracy of the square timber, makes the square timber more stable, and reduces safety hazards.
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Description

Technical Field

[0001] This utility model belongs to the field of building decoration and construction technology, and in particular provides a decorative keel square timber processing and fixing device. Background Technology

[0002] During construction and decoration, the cutting and processing of keel timber is generally carried out by hand using a toothed saw. The disadvantages of this method are: first, the timber is easy to move during the processing, causing the toothed saw to deviate from its cutting position, resulting in waste and increased processing costs; second, the movement of the timber during the processing can easily cause personal injury to the person using the toothed saw, posing a significant safety hazard. Utility Model Content

[0003] The purpose of this utility model is to provide a fixing device for processing decorative keel square timber, which solves the problem of keel square timber movement, improves the processing accuracy of square timber, makes square timber more stable, reduces personal injury, and lowers safety hazards.

[0004] This invention involves placing the keel timber at the end of the worktable, then installing the fixing device at the end of the worktable, ensuring the timber is directly below the lower cantilever plate, with the base below and flush against the end of the worktable. Then, the inclined plate is pressed down by hand, compressing the spring. The spring force causes the lower cantilever plate to move downwards until it presses firmly against the timber. After releasing the pressure, the spring causes the inclined plate to transmit force diagonally, locking it in place by the threads of the bolt. The timber is then stabilized, and it can be cut and processed.

[0005] This utility model includes a base 1, a lower cantilever plate 2, springs 3, bolts 4, nuts 5, an inclined plate 6, an upper cantilever plate 7, an upper sleeve 8, a column 9, and a lower sleeve 10, used in combination. The column 9 is vertically welded to one end of the base 1; the lower sleeve 10 and the upper sleeve 8 are respectively fitted onto the column 9; the lower cantilever plate 2 is vertically welded to the side of the lower sleeve 10; the upper cantilever plate 7 is vertically welded to the side of the upper sleeve 8; the inclined plate 6 is welded to the outer end of the upper cantilever plate 7, with an angle of 120° between the inclined plate 6 and the upper cantilever plate 7; the upper ends of the two springs 3 are respectively welded to the bottom of the inclined plate 6, and the lower ends are respectively welded to the lower cantilever plate 2, with a distance of 300mm between the two springs 3; two bolts 4 pass through the two inclined plates 6 and the two springs 3 respectively, with their lower ends vertically welded to the lower cantilever plate 2; two nuts 5 are respectively screwed into the upper ends of the two bolts 4 (see...). Figure 1 , Figure 2 ).

[0006] The base 1 is made of 20mm thick steel plate, with dimensions of 500 x 500mm; the lower cantilever plate 2 is made of 10mm thick steel plate, with dimensions of 400 x 300mm; the spring 3 is a purchased pre-made spring with an outer diameter of 16mm, an inner diameter of 10mm, and a length of 100mm in its natural state; the bolt 4 has a diameter of 10mm and a length of 150mm; the nut 5 has a diameter of 10mm; the inclined plate 6 is made of 10mm thick steel plate, with dimensions of 400 x 200mm; the upper cantilever plate 7 is made of 10mm thick steel plate, with dimensions of 400 x 200mm; the upper sleeve 8 is made of a 50mm diameter round tube, with a length of 60mm; the column 9 is made of a 40mm diameter round tube, with a length of 400mm; and the lower sleeve 10 is made of a 50mm diameter round tube, with a length of 50mm.

[0007] In use, place the keel timber 12 at the end of the operating table 11, then install the fixing device at the end of the operating table 11, ensuring that the timber 12 is directly below the lower bracket 2, and the base 1 is below the end of the operating table 11 and in close contact with it. Then, press down on the inclined plate 6 by hand. The inclined plate 6 compresses the spring 3, and due to the elasticity of the spring 3, the lower bracket 2 moves downward until it presses against the timber 12. Then release the hand. Due to the spring 3, the inclined plate 6 transmits force obliquely, causing the inclined plate 6 to be locked by the thread of the bolt 4. At this point, the timber 12 is stable, and then the timber 12 can be cut and processed. Figure 3 , Figure 4 ).

[0008] The advantages of this utility model are that it is easy to assemble, easy to operate, simple and practical, solves the problem of moving keel square timber, improves the processing accuracy of square timber, makes square timber more stable, reduces personal injury, and lowers safety hazards. Attached Figure Description

[0009] Figure 1 This is the front view of the fixing device;

[0010] Figure 2 This is a side view of the fixing device;

[0011] Figure 3 The front view is used for the fixing device;

[0012] Figure 4 Side view for fixing device;

[0013] In the diagram, the components are: base 1, lower cantilever plate 2, spring 3, bolt rod 4, nut 5, inclined plate 6, upper cantilever plate 7, upper sleeve 8, column 9, lower sleeve 10, operating table 11, and square timber 12. Detailed Implementation

[0014] Figures 1-4This is one specific embodiment of the present invention. The present invention will be further described below with reference to the accompanying drawings.

[0015] This utility model includes a base 1, a lower cantilever plate 2, springs 3, bolts 4, nuts 5, an inclined plate 6, an upper cantilever plate 7, an upper sleeve 8, a column 9, and a lower sleeve 10, which are used in combination. The column 9 is vertically welded to one end of the base 1; the lower sleeve 10 and the upper sleeve 8 are respectively fitted into the column 9; the lower cantilever plate 2 is vertically welded to the side of the lower sleeve 10; the upper cantilever plate 7 is vertically welded to the side of the upper sleeve 8; the inclined plate 6 is welded to the outer end of the upper cantilever plate 7, and the angle between the inclined plate 6 and the upper cantilever plate 7 is 120°; the upper ends of the two springs 3 are respectively welded to the bottom of the inclined plate 6, and the lower ends are respectively welded to the lower cantilever plate 2, with a distance of 300mm between the two springs 3; the two bolts 4 pass through the two inclined plates 6 and the two springs 3 respectively, and the lower ends are vertically welded to the lower cantilever plate 2; the two nuts 5 are respectively screwed into the upper ends of the two bolts 4.

[0016] In use, place the keel timber 12 at the end of the operating table 11, then install the fixing device at the end of the operating table 11, ensuring that the timber 12 is directly below the lower cantilever plate 2, and the base 1 is below the end of the operating table 11 and in close contact with it. Then, press down on the inclined plate 6 by hand. The inclined plate 6 compresses the spring 3, and due to the elasticity of the spring 3, the lower cantilever plate 2 moves downward until it presses against the timber 12. Then release the hand. Due to the spring 3, the inclined plate 6 transmits force obliquely, causing the inclined plate 6 to be locked by the thread of the bolt 4. At this point, the timber 12 is stable, and then the timber 12 can be cut and processed.

[0017] During building decoration construction, a processing and fixing device was used for cutting and processing keel square timber, achieving good results. This fixing device is used in combination: the upright is vertically welded to one end of the base; the lower and upper sleeves are respectively fitted onto the upright; the lower cantilever plate is vertically welded to the side of the lower sleeve; the upper cantilever plate is vertically welded to the side of the upper sleeve; the inclined plate is welded to the outer end of the upper cantilever plate, with an angle of 120° between the inclined plate and the upper cantilever plate; the upper ends of two springs are respectively welded to the bottom of the inclined plate, and the lower ends are respectively welded to the lower cantilever plate, with a distance of 300mm between the two springs; two bolts pass through the two inclined plates and the two springs respectively, with the lower ends vertically welded to the lower cantilever plate; two nuts are screwed into the upper ends of the two bolts. In use, the keel square timber is placed at the end of the workbench, and then the fixing device is installed at the end of the workbench, with the square timber directly below the lower cantilever plate, and the base below the end of the workbench and in close contact with it. Then, press down on the inclined plate by hand. The inclined plate compresses the spring, and the spring force causes the lower cantilever plate to move downwards until it presses firmly against the square timber. Release the pressure, and the spring will cause the inclined plate to transmit force diagonally, locking it in place by the threads of the bolt. At this point, the square timber is stable, and it can then be cut and processed. This fixing device is simple to assemble, easy to operate, and practical. It solves the problem of square timber movement, improves the processing accuracy of the square timber, makes the timber more stable, reduces personal injury, and lowers safety hazards.

Claims

1. A decorative keel square timber processing and fixing device, characterized in that... The components include a base (1), a lower cantilever plate (2), a spring (3), a bolt (4), a nut (5), an inclined plate (6), an upper cantilever plate (7), an upper sleeve (8), a column (9), and a lower sleeve (10). When used together, the column (9) is welded perpendicularly to one end of the base (1); the lower sleeve (10) and the upper sleeve (8) are respectively fitted onto the column (9); the lower cantilever plate (2) is welded perpendicularly to the side of the lower sleeve (10); and the upper cantilever plate (7) is welded perpendicularly to the side of the upper sleeve (8). Straight welding; the inclined plate (6) is welded to the outer end of the upper plate (7), and the angle between the inclined plate (6) and the upper plate (7) is 120°; the upper ends of the two springs (3) are welded to the bottom of the inclined plate (6) respectively, and the lower ends are welded to the lower plate (2) respectively, and the distance between the two springs (3) is 300mm; the two bolts (4) pass through the two inclined plates (6) and the two springs (3) respectively, and the lower ends are welded perpendicularly to the lower plate (2); the two nuts (5) are screwed into the upper ends of the two bolts (4) respectively.

2. The decorative keel square timber processing and fixing device according to claim 1, characterized in that, The base (1) is made of 20mm thick steel plate, with a length x width of 500 x 500mm; the lower cantilever plate (2) is made of 10mm thick steel plate, with a length x width of 400 x 300mm; the spring (3) is a purchased finished spring with an outer diameter of 16mm, an inner diameter of 10mm, and a length of 100mm in its natural state; the bolt (4) has a diameter of 10mm and a length of 150mm; the nut (5) has a diameter of 10mm; the inclined plate (6) is made of 10mm thick steel plate, with a length x width of 400 x 200mm; the upper cantilever plate (7) is made of 10mm thick steel plate, with a length x width of 400 x 200mm; the upper sleeve (8) is made of a 50mm diameter round tube and has a length of 60mm; the column (9) is made of a 40mm diameter round tube and has a length of 400mm; the lower sleeve (10) is made of a 50mm diameter round tube and has a length of 50mm.