A six-sided drum tooling plate rack
By designing a six-sided roller tooling rack and using lean pipes and pipe clamps for fixing, the problems of low tooling frequency and large space occupation are solved, achieving efficient storage and convenient operation of tooling.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JINTING AUTOMOTIVE WIRING HARNESS (SUZHOU) CO LTD
- Filing Date
- 2025-06-24
- Publication Date
- 2026-06-23
AI Technical Summary
Tooling boards are used less frequently and take up a lot of space, making them difficult to store efficiently.
A six-sided roller tooling rack made of lean pipe splicing is adopted. The hexagonal rollers select tooling plates and fix them with pipe clamps. Combined with the base and support structure design, it realizes convenient storage and operation of tooling plates.
It enables efficient storage and convenient operation of tooling plates, reduces space occupation, and improves the operating efficiency of staff.
Smart Images

Figure CN224391101U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of automotive tooling plates, specifically to a six-sided roller tooling plate placement rack. Background Technology
[0002] Tooling boards are a core production support tool. Their core function is to transform abstract wire harness design drawings into a visual and operable physical guidance platform. However, the frequency of use of tooling boards has decreased, and because there are many types of wire harnesses, storing tooling boards takes up a lot of space. Utility Model Content
[0003] In view of the problems existing in the prior art, this utility model provides a six-sided roller tooling plate placement rack to solve at least one of the above-mentioned technical problems.
[0004] The technical solution of this utility model is: a six-sided roller tooling plate placement rack, including a support body, characterized in that the support body is a support made of multiple lean pipes spliced together, and the multiple lean pipes are fixed by pipe clamps. The support body includes an upper support, which is an upper support made of four lean pipes arranged horizontally. Two vertically arranged lean pipes are fixed on the left and right sides of the upper support as support pipes for the support body. A material layer made of two lean pipes spliced together is provided below the upper support.
[0005] The lower end of the main body of the support is provided with a base, which is a rectangular receiving groove made of multiple lean tubes. The two sides of the base are fixed to the support tube. A hexagonal roller made of lean tubes is provided inside the base. Each face of the hexagonal roller is fixed with a tooling plate. A rotating shaft made of lean tube is provided in the center of the hexagonal roller. The length of the rotating shaft is greater than the length of the base. The lean tubes located on both sides of the top of the base are fixed tubes. A limiting groove is provided in the center of the fixed tube. The two sides of the rotating shaft are set in the limiting groove. A pipe clamp is provided at the end of the fixed tube. Extension ends are provided on both sides of the hexagonal roller. The pipe clamp is connected to the extension end.
[0006] This utility model has a simple structure and can be made into a support for storing multiple tooling plates using existing materials such as lean pipes and pipe clamps in the workshop. The required tooling plate can be selected by rolling a hexagonal roller, and then the extension section at the required position is connected to the pipe clamp of the fixed pipe, so that the roller is fixed and convenient for workers to operate.
[0007] Preferably, the width of the material layer is smaller than the width of the upper support, and a pad is laid on the material layer to facilitate the placement of other materials.
[0008] More preferably, the distance between the top of the base and the material layer is 65cm, and the distance between the top of the hexagonal roller and the top of the base is 46.2cm.
[0009] This ensures that there is a gap between the hexagonal roller and the material layer, facilitating rotation.
[0010] Further preferably, the left and right sides of the material layer are connected to the support pipes respectively. This not only increases the strength of the material layer but also improves the stability of two adjacent support pipes on the same side.
[0011] Further preferably, the lower surface of the base is provided with multiple longitudinally arranged lean tubes.
[0012] This can improve the strength of the lower surface of the base.
[0013] Further preferably, the outer edge of the base is larger than the outer edge of the upper support, the width of the base is 1m, and the height of the base is 76cm.
[0014] By optimizing the size of the base, a stable base can be provided for the main body of the stand, making it convenient for daily use. Attached Figure Description
[0015] Figure 1 This is a three-dimensional structural diagram of the main body of the bracket of this utility model;
[0016] Figure 2 This is a side view of the main body of the bracket of this utility model.
[0017] In the diagram: 1 is the upper support; 2 is the support pipe; 3 is the material layer; 4 is the base; 5 is the hexagonal roller; 6 is the rotating shaft; 7 is the limiting groove; 8 is the extension end; 9 is the fixing pipe; 10 is the pad. Detailed Implementation
[0018] The present invention will be further described below with reference to the accompanying drawings.
[0019] Reference Figures 1-2As shown, a six-sided roller tooling plate placement rack includes a support body, which is a support structure composed of multiple lean pipes spliced together and fixed by pipe clamps. The support body includes an upper support 1, which is composed of four horizontally arranged lean pipes. Two vertically arranged lean pipes are fixed on the left and right sides of the upper support as support pipes 2 for the support body. A material layer 3 composed of two lean pipes spliced together is provided below the upper support. A base 4 is provided at the lower end of the support body, which is composed of multiple lean pipes spliced together. The rectangular receiving tank is formed by fixing the two sides of the base to the support tube. A hexagonal roller 5 made of lean tube splicing is set inside the base. Each face of the hexagonal roller is fixed with a tooling plate. A rotating shaft 6 made of lean tube is set in the center of the hexagonal roller. The length of the rotating shaft is greater than the length of the base. The lean tubes located on both sides of the top of the base are fixed tubes 9. A limiting groove 7 is set in the center of the fixed tube. The two sides of the rotating shaft are set in the limiting groove. A pipe clamp is set at the end of the fixed tube. Extension ends 8 are set on both sides of the hexagonal roller. The pipe clamp is connected to the extension end.
[0020] This utility model has a simple structure and can be made into a support for storing multiple tooling plates using existing materials such as lean pipes and pipe clamps in the workshop. The required tooling plate can be selected by rolling a hexagonal roller, and then the extension section at the required position is connected to the pipe clamp of the fixed pipe, so that the roller is fixed and convenient for workers to operate.
[0021] Further optimization involves ensuring that the width of the material layer is smaller than the width of the upper support, and that a pad 10 is laid on the material layer to facilitate the placement of other materials.
[0022] Further optimized, the distance between the top of the base and the material layer is 65cm, and the distance between the top of the hexagonal roller and the top of the base is 46.2cm. This ensures that there is a gap between the hexagonal roller and the material layer to facilitate rotation.
[0023] Further optimization involves connecting the material layer to support pipes on both the left and right sides. This not only increases the strength of the material layer but also improves the stability of adjacent support pipes on the same side.
[0024] Further optimization involves providing multiple longitudinally arranged lean tubes on the lower surface of the base. This improves the strength of the lower surface of the base.
[0025] Further optimization involves ensuring the outer edge of the base is larger than the outer edge of the upper support, with a base width of 1m and a height of 76cm. This optimized base size provides a stable base for the main support structure, facilitating daily use.
[0026] The above are merely preferred embodiments of this utility model. It should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model.
Claims
1. A six-sided drum tooling plate placement rack comprising a support body, characterized by, The main body of the support is a support made up of multiple lean pipes spliced together, and the multiple lean pipes are fixed by pipe clamps. The main body of the support includes an upper support, which is composed of four lean pipes arranged horizontally. Two vertically arranged lean pipes are fixed on the left and right sides of the upper support as support pipes for the main body of the support. A material layer made up of two lean pipes spliced together is provided below the upper support. The lower end of the main body of the support is provided with a base, which is a rectangular receiving groove made of multiple lean tubes. The two sides of the base are fixed to the support tube. A hexagonal roller made of lean tubes is provided inside the base. Each face of the hexagonal roller is fixed with a tooling plate. A rotating shaft made of lean tube is provided in the center of the hexagonal roller. The length of the rotating shaft is greater than the length of the base. The lean tubes located on both sides of the top of the base are fixed tubes. A limiting groove is provided in the center of the fixed tube. The two sides of the rotating shaft are set in the limiting groove. A pipe clamp is provided at the end of the fixed tube. Extension ends are provided on both sides of the hexagonal roller. The pipe clamp is connected to the extension end.
2. A six-sided drum tooling board holder according to claim 1, wherein, The width of the material layer is smaller than the width of the upper support, and a pad is laid on the material layer.
3. A six-sided drum tooling board holder as defined in claim 1, wherein, The distance between the top of the base and the material layer is 65cm, and the distance between the top of the hexagonal roller and the top of the base is 46.2cm.
4. The six-sided drum tooling board holder of claim 1, wherein, The left and right sides of the material layer are respectively connected to the support pipe.
5. A six-sided drum tooling board holder as defined in claim 1, wherein, The lower surface of the base is provided with multiple longitudinally arranged lean tubes.
6. A six-sided roller tooling plate placement rack according to claim 1, characterized in that, The outer edge of the base is larger than the outer edge of the upper support. The width of the base is 1m and the height of the base is 76cm.