Waterproof cement compression retreats rubber piece guide rail integration frock

By integrating a tooling design that prevents cement compaction and a rubber guide rail mechanism, the problem of inconvenient wire harness transportation is solved, achieving quick disassembly and efficient wire harness tightening.

CN224390868UActive Publication Date: 2026-06-23JINTING AUTOMOTIVE WIRING HARNESS (SUZHOU) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JINTING AUTOMOTIVE WIRING HARNESS (SUZHOU) CO LTD
Filing Date
2025-06-16
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing anti-cement clamping fixture and the rubber part guide rail fixture are set up separately, which makes it inconvenient to transport the wire harness and makes it difficult to fix the end of the tightening belt, thus making it impossible to achieve quick disassembly and assembly.

Method used

An integrated tooling for preventing cement compaction and retracting rubber guide rails was designed. By integrating a cement compaction mechanism and a rubber guide rail retraction mechanism on a worktable, and utilizing a combination structure of telescopic cylinder, support block and positioning rod, the tooling enables rapid winding and end closure of the tightening belt, and retraction of the rubber guide rail is achieved by a cylinder push plate.

Benefits of technology

It enables rapid transfer of the cement-proofing and rubber guide rail removal processes, simplifies the wiring harness operation process, and improves work efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224390868U_ABST
    Figure CN224390868U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of wiring harness processing, a waterproof cement compression retreats rubber part guide rail integration tool, including a workstation, the workstation is installed with adjacent setting waterproof cement compression mechanism and retreats rubber part guide rail mechanism, waterproof cement compression mechanism includes a hollow cylinder, the head of hollow cylinder installs the upper limit block and lower limit block of setting up and down, the passageway for passing through the tightening band is enclosed between the upper limit block and lower limit block, the tail end detachable installation of hollow cylinder has a telescopic cylinder, the telescopic rod of telescopic cylinder enters hollow cylinder, and the telescopic rod of telescopic cylinder is detachable connection has a pair of connecting pieces, and the one end of connecting piece is connected with tightening band, the other end of tightening band is installed with a support block, and the support block is connected with the positioning rod, the limit gap of embedding support block exists between the upper limit block and lower limit block, and the U -shaped gap for transversely inserting the positioning rod is set up on the upper limit block. The utility model realizes the quick transfer of two processes.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of wire harness processing technology, specifically to a tooling for preventing cement compaction. Background Technology

[0002] Currently, at the pre-installation wiring harness station, after the rubber part opening is opened by a rubber guide rail (also called a rubber wire sleeve, which is made of steel) to insert the wires, it is necessary to perform a cement-proofing operation. After the cement is pressed in place, the rubber guide rail needs to be removed.

[0003] Existing cement-resistant clamping fixtures, such as the wire harness cement-resistant tightening device disclosed in CN216749455U, have the end of the tightening band fixed to a vertical mounting platform extending from the head of the tightening cylinder by screws, which cannot achieve quick and detachable assembly of the end of the tightening band and the device.

[0004] In addition, the existing anti-cement clamping fixture and the rubber part guide rail removal fixture are set up independently on different operating tables, so the wire harness needs to be transferred on different operating table supports.

[0005] Currently, there is a lack of integrated tooling that combines anti-cement compaction fixtures and rubber part guide rail fixtures on the workbench. Utility Model Content

[0006] In view of the problems existing in the prior art, this utility model provides an integrated tooling for preventing cement from pressing and dislodging rubber guide rails, so as to solve at least one of the above technical problems.

[0007] To achieve the above objectives, this utility model provides an integrated tooling for preventing cement compaction and retracting rubber guide rails, characterized in that it includes a workbench on which adjacent anti-cement compaction mechanisms and rubber guide rail retraction mechanisms are installed.

[0008] The anti-cement compaction mechanism includes a hollow cylinder. An upper limit block and a lower limit block are installed at the head end of the hollow cylinder. The upper limit block and the lower limit block form a channel for the tightening belt to pass through.

[0009] A telescopic cylinder is detachably installed at the tail end of the hollow cylinder. The telescopic rod of the telescopic cylinder extends into the hollow cylinder, and the telescopic rod of the telescopic cylinder is detachably connected to a connecting piece, which is connected to one end of the tightening belt.

[0010] A support block is installed at the other end of the tightening band, and a positioning rod is connected to the support block;

[0011] There is a limiting notch between the upper limit block and the lower limit block for embedding the support block, and the upper limit block has a U-shaped notch for laterally inserting the positioning rod.

[0012] This utility model facilitates rapid transfer between two processes by arranging the anti-cement pressing mechanism and the rubber part guide rail mechanism adjacent to each other.

[0013] This invention optimizes the structure of the anti-cement pressing mechanism, making it easy for the tightening belt to be quickly wrapped around the outside of the anti-cement. The setting of the support block and positioning rod facilitates the quick closure of the end of the tightening belt. At the same time, the wire harness abuts against the support block, thereby fixing the end of the tightening belt. Meanwhile, the telescopic cylinder drives the tightening belt to move and tighten the wire harness.

[0014] In a further preferred embodiment, the lower limit block is provided with a conveying groove, and the conveying groove and the upper limit block form the channel.

[0015] More preferably, the top of the upper limit block is provided with an outwardly extending portion, and the U-shaped notch is provided on the extension portion;

[0016] The support block is embedded between the extension and the lower limit block.

[0017] More preferably, the docking member is slidably connected to the inner wall of the hollow cylinder.

[0018] More preferably, the top of the hollow cylinder has an opening, and a viewing window is detachably connected above the opening.

[0019] This allows for a direct visual inspection of the tensioning effect of the connecting parts on the tightening belt.

[0020] More preferably, the docking member has a notch, and a pressure plate is detachably connected above the notch on the docking member, the pressure plate and the docking member clamping one end of the tightening band.

[0021] More preferably, the two ends of the upper limit block are detachably connected to the two ends of the lower limit block by bolts;

[0022] A base plate is fixedly connected to the bottom of the lower limit block;

[0023] The hollow cylinder includes a U-shaped cover, which is detachably connected to the base plate to form the hollow cylinder.

[0024] More preferably, the rubber part guide rail mechanism includes an inverted T-shaped base, and a limiting seat for limiting the rubber part is fixed on the front side of the inverted T-shaped base. The limiting seat has a U-shaped slot for embedding the rubber part.

[0025] A cylinder is installed on the rear side of the inverted T-shaped base, and a push plate is connected to the telescopic rod of the cylinder. A U-shaped socket is provided on the push plate.

[0026] This allows the rubber guide rail to be easily removed by inserting a push plate between the rubber guide rail and the rubber component, and by sliding the push plate.

[0027] More preferably, a sliding plate is detachably connected to the push plate;

[0028] The rear side of the inverted T-shaped base is slidably connected to the sliding plate.

[0029] More preferably, a wire harness support mechanism is installed on the workbench, the wire harness support mechanism including a groove for supporting the rubber parts and two wire harness forks;

[0030] The wire harness support mechanism and the anti-cement compaction mechanism are arranged on the left and right sides;

[0031] Furthermore, the wire harness support mechanism is located in front of the rubber part guide rail mechanism;

[0032] Two harness forks are located on either side of the bracket.

[0033] It facilitates the support of the wire harness.

[0034] Compared with the prior art, the beneficial effects of this utility model are:

[0035] This invention integrates the anti-cement pressing mechanism and the rubber part guide rail mechanism, facilitating rapid transfer between the two processes.

[0036] This invention optimizes the structure of the anti-cement pressing mechanism, making it easy for the tightening belt to be quickly wrapped around the outside of the anti-cement. The setting of the support block and positioning rod facilitates the quick closure of the end of the tightening belt. At the same time, the wire harness abuts against the support block, thereby fixing the end of the tightening belt. Meanwhile, the telescopic cylinder drives the tightening belt to move and tighten the wire harness. Attached Figure Description

[0037] Figure 1 This is a top view of specific embodiment 1 of the present utility model;

[0038] Figure 2 This is a cross-sectional view of the anti-cement compaction mechanism in use according to a specific embodiment 1 of this utility model;

[0039] Figure 3 This is a cross-sectional view of the anti-cement compaction mechanism of a specific embodiment 1 of this utility model;

[0040] Figure 4 This is a partial structural diagram of the anti-cement compaction mechanism in specific embodiment 1 of this utility model;

[0041] Figure 5 This is a partial structural schematic diagram of the rubber part guide rail mechanism in specific embodiment 1 of this utility model;

[0042] Figure 6 This is a schematic diagram of the push plate in specific embodiment 1 of this utility model;

[0043] Figure 7 This is a schematic diagram of the structure of the limiting seat in specific embodiment 1 of this utility model;

[0044] Figure 8 This is a schematic diagram of the structure of the wire harness fork in specific embodiment 1 of this utility model.

[0045] In the diagram: 11 is the hollow cylinder, 12 is the telescopic cylinder, 13 is the tightening belt, 14 is the support block, 15 is the positioning block, 16 is the upper limit block, 161 is the U-shaped notch, 17 is the lower limit block, 18 is the docking part, 21 is the inverted T-shaped base, 22 is the limit seat, 23 is the push plate, 24 is the cylinder, 31 is the bracket, and 32 is the wire harness fork. Detailed Implementation

[0046] The present invention will be further described below with reference to the accompanying drawings.

[0047] See Figures 1 to 8 An integrated tooling for preventing cement compaction and releasing rubber guide rails includes a worktable with an anti-cement compaction mechanism and a rubber guide rail release mechanism mounted adjacent to each other. The anti-cement compaction mechanism includes a hollow cylinder 11. An upper limit block 16 and a lower limit block 17 are installed at the head end of the hollow cylinder 11, forming a channel for a tightening belt 13 to pass through. A telescopic cylinder 12 is detachably installed at the tail end of the hollow cylinder 11. The telescopic rod of the telescopic cylinder 12 extends into the hollow cylinder 11, and the telescopic rod is detachably connected to a connecting piece 18, which is connected to one end of the tightening belt 13. A support block 14 is installed at the other end of the tightening belt 13, and a positioning rod 15 is connected to the support block 14. There is a limiting notch between the upper limit block 16 and the lower limit block 17 for embedding the support block 14, and a U-shaped notch 161 for laterally inserting the positioning rod 15 is provided on the upper limit block 16. This invention facilitates rapid transfer between two processes by arranging the anti-cement pressing mechanism and the rubber part guide rail mechanism adjacent to each other. By optimizing the structure of the anti-cement pressing mechanism, the tightening belt 13 can be quickly wound around the anti-cement perimeter. The support block 14 and positioning rod 15 facilitate rapid closure of the end of the tightening belt 13. Simultaneously, the wire harness abuts against the support block 14, thus fixing the end of the tightening belt 13. At the same time, the telescopic cylinder 12 drives the tightening belt 13 to tighten the wire harness.

[0048] The front end of the hollow cylinder 11 is equipped with an upper limit block 16 and a lower limit block 17. The telescopic cylinder 12 is located at the rear end of the hollow cylinder 11.

[0049] A conveying groove is provided on the lower limit block 17, which, together with the upper limit block 16, forms a channel. The upper end of the conveying groove is open, and both the front and rear ends are also open. The front end of the conveying groove is a convex arc-shaped guide surface.

[0050] The upper limit block 16 has an outwardly extending extension at its top, and a U-shaped notch 161 is provided on the extension; the support block 14 is embedded between the extension and the lower limit block 17.

[0051] The docking part 18 is slidably connected to the inner wall of the hollow cylinder 11.

[0052] The top of the hollow cylinder 11 has an opening, and a viewing window is detachably connected above the opening. This allows for a direct view of the tensioning of the tightening strap 13 by the connecting piece 18.

[0053] The docking part 18 has a notch, and a pressure plate is detachably connected above the notch on the docking part 18. The pressure plate and the docking part 18 clamp one end of the tightening band 13.

[0054] The two ends of the upper limit block 16 are detachably connected to the two ends of the lower limit block 17 by bolts; a base plate is fixedly connected to the bottom of the lower limit block 17; the hollow cylinder 11 includes a U-shaped cover, which is detachably connected to the base plate to form the hollow cylinder 11. A guide rail is installed on the base plate. A slider that slides along the guide rail is installed at the bottom of the docking part 18.

[0055] The rubber part guide rail mechanism includes an inverted T-shaped base 21. A limiting seat 22 for limiting the rubber part is fixed to the front of the inverted T-shaped base 21, and the limiting seat 22 has a U-shaped slot for embedding the rubber part. A cylinder 24 is installed on the rear of the inverted T-shaped base 21. A push plate 23 is connected to the telescopic rod of the cylinder 24, and the push plate 23 has a U-shaped insertion port. This facilitates the removal of the rubber part guide rail by inserting the push plate 23 between the rubber part guide rail and the rubber part, and by sliding the push plate 23. A sliding plate is detachably connected to the push plate 23; the rear of the inverted T-shaped base 21 is slidably connected to the sliding plate. The height of the push plate 23 is higher than that of the hollow cylinder and the telescopic cylinder. The push plate 23 is in the shape of a "7". A slider is installed on the sliding plate. A guide rail is installed on the rear of the inverted T-shaped base 21 and slidably connected to the slider. The guide rail guides in a left-right direction. A U-shaped socket is provided on the front side of the push plate 23.

[0056] A wire harness support mechanism is installed on the workbench. The wire harness support mechanism includes a groove 31 for supporting the rubber parts and two wire harness forks 32. The wire harness support mechanism and the anti-cement pressing mechanism are arranged on the left and right sides. The wire harness support mechanism is located in front of the rubber part guide rail mechanism. The two wire harness forks 32 are located on both sides of the groove 31. This facilitates the support of the wire harness.

[0057] 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 tooling integrated with a cement-pressurized rubber guide rail, characterized in that, Includes a workbench, on which are mounted an adjacent anti-cement pressing mechanism and a rubber part guide rail mechanism; The anti-cement compaction mechanism includes a hollow cylinder. An upper limit block and a lower limit block are installed at the head end of the hollow cylinder. The upper limit block and the lower limit block form a channel for the tightening belt to pass through. A telescopic cylinder is detachably installed at the tail end of the hollow cylinder. The telescopic rod of the telescopic cylinder extends into the hollow cylinder, and the telescopic rod of the telescopic cylinder is detachably connected to a connecting piece, which is connected to one end of the tightening belt. A support block is installed at the other end of the tightening band, and a positioning rod is connected to the support block; There is a limiting notch between the upper limit block and the lower limit block for embedding the support block, and the upper limit block has a U-shaped notch for laterally inserting the positioning rod.

2. The integrated tooling for preventing cement compaction and rubber component unloading as described in claim 1, characterized in that: The lower limit block has a conveying groove, and the conveying groove and the upper limit block form the channel.

3. The integrated tooling for preventing cement compaction and rubber component retraction as described in claim 1, characterized in that: The upper limit block has an outwardly extending extension at its top, and the extension has the U-shaped notch. The support block is embedded between the extension and the lower limit block.

4. The integrated tooling for preventing cement compaction and rubber component retraction as described in claim 1, characterized in that: The docking component is slidably connected to the inner wall of the hollow cylinder.

5. The integrated tooling for preventing cement compaction and rubber component unloading as described in claim 1, characterized in that: The top of the hollow cylinder has an opening, and a viewing window is detachably connected above the opening.

6. The integrated tooling for preventing cement compaction and rubber component retraction as described in claim 1, characterized in that: The docking component has a notch, and a pressure plate is detachably connected above the notch. The pressure plate and the docking component clamp one end of the tightening band.

7. The integrated tooling for preventing cement compaction and rubber component retraction as described in claim 1, characterized in that: The two ends of the upper limit block are detachably connected to the two ends of the lower limit block by bolts; A base plate is fixedly connected to the bottom of the lower limit block; The hollow cylinder includes a U-shaped cover, which is detachably connected to the base plate to form the hollow cylinder.

8. The integrated tooling for preventing cement compaction and rubber component unloading as described in claim 1, characterized in that: The rubber part guide rail mechanism includes an inverted T-shaped base, and a limiting seat for limiting the rubber part is fixed on the front side of the inverted T-shaped base. The limiting seat has a U-shaped slot for embedding the rubber part. A cylinder is installed on the rear side of the inverted T-shaped base, and a push plate is connected to the telescopic rod of the cylinder. A U-shaped socket is provided on the push plate.

9. The integrated tooling for preventing cement compaction and rubber component retraction as described in claim 8, characterized in that: A sliding plate is detachably connected to the push plate; The rear side of the inverted T-shaped base is slidably connected to the sliding plate.

10. The integrated tooling for preventing cement compaction and rubber component slippage of the guide rail according to claim 1, characterized in that: A wire harness support mechanism is installed on the workbench. The wire harness support mechanism includes a groove for supporting the rubber parts and two wire harness forks. The wire harness support mechanism and the anti-cement compaction mechanism are arranged on the left and right sides; Furthermore, the wire harness support mechanism is located in front of the rubber part guide rail mechanism; Two harness forks are located on either side of the bracket.