Automatic multi-wrapping and fastening mechanism

By designing an automatic multi-point wrapping and buckle mechanism, the problems of low efficiency and poor safety of cable ties were solved, realizing a fully automated process of cable tie binding, tightening and cutting, thus improving production efficiency and safety.

CN224466197UActive Publication Date: 2026-07-07SHENZHEN HUIYANG TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN HUIYANG TECH CO LTD
Filing Date
2025-07-09
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing cable tie binding methods are inefficient, unsuitable for fully automated production workshops, and have poor safety.

Method used

Design an automatic multi-point wrapping and buckle mechanism, including components such as a workstation, power guide rail, slider, pull plate body, and cable tie module. It realizes the bundling, tightening and cutting of cable ties through a fully automated process, improving efficiency and safety.

Benefits of technology

It enables automated bundling, tightening, and cutting of cable ties, improving production efficiency and enhancing operational safety, and is suitable for fully automated production workshops.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an automatic many places winding buckle mechanism relates to buckle equipment technical field, aims at solving current manual bundling low efficiency, not applicable to fully -automatic production workshop, operation quality and security are poor technical problem, including workstation, the front side of workstation upper end is equipped with power guide rail, and the power guide rail is slidably installed with the sliding block, install the pull plate body on the sliding block, the workstation is equipped with the ribbon module, and the ribbon module is by ribbon pressure group, ribbon lock group, power -assisted push piece group, ribbon tightening group and ribbon cutting group, the ribbon lock group is by bending plate, straight tooth, activity gear, ribbon body, crook seat and suspension platform constitutes, the bending plate and straight tooth are installed respectively in crook seat's upside and left side. The utility model discloses have automatic bundling mechanism to make the performance of fully -automatic processing equipment more perfect, greatly improve the production efficiency of enterprise, guarantee the advantage of product quality and production safety.
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Description

Technical Field

[0001] This utility model relates to the field of buckle equipment technology, and more specifically, to an automatic multi-point wrapping and buckling mechanism. Background Technology

[0002] Cable ties, also known as wire ties, cable bundles, or locking straps, are straps used to bundle things together. They are widely used in electronics factories, wire and cable factories, toy factories, agriculture, horticulture, handicrafts, and other fields. They can be used to bundle internal wiring in televisions, computers, etc., to fix internal wiring in products such as lamps, motors, and electronic toys, and also to fix oil pipes in mechanical equipment, cable lines on ships, and to package bicycles or bundle other objects.

[0003] Cable ties are typically used manually to bundle materials, which is inefficient. In automated production workshops, highly automated structures are needed to increase production capacity. Existing manual bundling methods are unsuitable for streamlined production lines, impacting efficiency. Therefore, we propose an automated multi-point wrapping and fastening mechanism. Utility Model Content

[0004] The purpose of this utility model is to overcome the shortcomings of the existing technology, adapt to the needs of reality, and provide an automatic multi-point wrapping and buckling mechanism to solve the technical problems of low efficiency, unsuitability for fully automated production workshops, and poor operation quality and safety of current manual bundling.

[0005] To solve the above technical problems, this utility model provides the following technical solution: an automatic multi-point wrapping and buckling mechanism, including a workstation. A power guide rail is provided on the front side of the upper end face of the workstation, and a slider is slidably installed on the power guide rail. A pull plate body is installed on the slider. A cable tie module is mounted on the workstation, and the lower end of the cable tie module is connected to the pull plate body. The cable tie module consists of a cable tie pressing group, a cable tie locking group, a power assist pushing group, a cable tie tightening group, and a cable tie cutting group. The cable tie locking group consists of a bent plate, a straight tooth, a movable gear, a cable tie body, a hook seat, and a suspension platform. The bent plate and the straight tooth are respectively installed on the upper side and the left side of the hook seat, and the hook seat is installed on the left side of the suspension platform.

[0006] In use, this utility model is powered by an external power supply. The operator starts the device through an external control device, which provides power to the slider via the power guide rail. This causes the pull plate body to move the entire cable tie module under the action of the slider, facilitating the adjustment of the cable tie section of the corrugated tubing harness. The anti-collision rubber at the port of the power guide rail can prevent the slider from colliding. The cable tie body is introduced from the miniature guide plate of the guide plate seat. The locking position at the head of the cable tie body is pressed, and at the same time, it provides guidance for the cable tie body to be inserted into the locking hole. The cable tie body bends with the bending plate. When the ends of the cable tie body are connected, a bundling lock is formed. The above structure completes the introduction and bundling of the cable tie body, which is suitable for the corresponding parts of the glass tubing harness. This device completes the bundling operation, improving work efficiency and enhancing safety compared to existing manual methods. After the cable tie is bundled, the tightening teeth on the cable tie tightening assembly pull the cable tie body to tighten it. Then, the cutting cylinder is activated to drive the cutting plate to move, and the cutting plate simultaneously drives the cutting body to move. The cutting body cuts off the excess parts of the bundled cable tie body, making the bundled cable tie body appear as a whole. Through the above structure, the tightening and cutting of the cable tie body are completed. The fully automated design enables this device to complete the entire process of bundling, tightening and cutting the cable tie body, with a high degree of automation, effectively improving production efficiency.

[0007] Preferably, the power guide rail is mounted on the workstation via a support plate, and anti-collision rubber is installed at both ends of the slider, and the anti-collision rubber is compatible with the power guide rail.

[0008] Preferably, the cable tie clamping assembly consists of a miniature guide plate and a guide plate seat, the cable tie body is adapted to the guide holes on the miniature guide plate and the guide plate seat, and the cable tie body corresponds to the bending plate.

[0009] Preferably, the power-assist pusher assembly consists of a gear component, a cylindrical gear, a servo motor assembly, a module fixing plate, a coupling, and a cantilever plate. The gear component and the cylindrical gear are rotatably mounted on the inner and left sides of the suspension platform, respectively. The servo motor assembly is mounted on the lower side of the suspension platform via the module fixing plate, and the output shaft of the servo motor assembly is connected to the gear component.

[0010] Preferably, the cantilever plate is mounted on the module fixing plate, and the coupling connects the power push assembly and the cable tie locking assembly.

[0011] Preferably, the cable tie tightening assembly is composed of a toothed plate, and the toothed plate is mounted on the underside of the miniature guide plate.

[0012] Preferably, the cable tie cutting assembly consists of an assembly plate, a cutting pull plate, an air pipe, a parallel cylinder, a cutting body, and a cutting cylinder. The cutting pull plate is mounted on the assembly plate, and the cutting body is mounted on the cutting pull plate. Both the parallel cylinder and the cutting cylinder are equipped with air pipes.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. This utility model designs a cable tie locking assembly, using a power guide rail to provide power to the slider. This allows the pull plate body to move the entire cable tie module under the action of the slider, facilitating the adjustment of the cable tie section of the corrugated tubing harness. The anti-collision rubber at the power guide rail port can prevent the slider from colliding. The cable tie body is introduced from the miniature guide plate of the guide plate seat, and the locking position at the head of the cable tie body is pressed tightly, while providing guidance for the cable tie body to be inserted into the locking hole. The cable tie body bends with the bending plate, and when the ends of the cable tie body are connected, a bundling lock is formed. Through the above structure, the cable tie body is introduced and bundled, completing the bundling operation for the corresponding parts of the glass tubing harness, improving work efficiency and enhancing the safety of the operation compared with the existing manual methods.

[0015] 2. This utility model also incorporates a cable tie tightening group and a cable tie cutting group. After the cable tie body is bundled, the tightening group uses a toothed plate to pull the cable tie body to tighten it. Then, the cutting cylinder is activated to move the cutting plate, which in turn moves the cutting body. The cutting body then cuts off the excess portion of the bundled cable tie body, making the bundled cable tie body appear as a whole. The above structure completes the tightening and cutting of the cable tie body. The fully automated design enables this device to complete the entire process of bundling, tightening, and cutting the cable tie body, resulting in a high degree of automation and effectively improving production efficiency. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the cable tie module of this utility model;

[0018] Figure 3 This is a side view of the structure of this utility model.

[0019] Explanation of the numbers in the diagram: 1. Workstation; 101. Pull plate body; 102. Slider; 103. Anti-collision rubber; 104. Support plate; 105. Power guide rail; 2. Cable tie clamping assembly; 201. Miniature guide plate; 202. Guide plate seat; 3. Cable tie locking assembly; 301. Bend plate; 302. Straight gear; 303. Movable gear; 304. Cable tie body; 305. Hook seat; 306. Suspension platform; 4. 401. Power-assisted push assembly; 402. Gear assembly; 403. Cylindrical gear; 404. Servo motor assembly; 405. Module fixing plate; 406. Coupling; 407. Cantilever plate; 5. Cable tie tightening assembly; 501. Tooth plate; 6. Cable tie cutting assembly; 601. Assembly plate; 602. Cutter pull plate; 603. Air pipe; 604. Parallel cylinder; 605. Cutter body; 606. Cutter cylinder. Detailed Implementation

[0020] like Figures 1 to 2 As shown, this utility model relates to an automatic multi-point wrapping and buckling mechanism, including a workstation 1. A power guide rail 105 is provided on the front side of the upper surface of the workstation 1, and a slider 102 is slidably mounted on the power guide rail 105. A pull plate body 101 is mounted on the slider 102. A cable tie module is mounted on the workstation 1, and the lower end of the cable tie module is connected to the pull plate body 101. The cable tie module consists of a cable tie pressing assembly 2, a cable tie locking assembly 3, a power assist push assembly 4, a cable tie tightening assembly 5, and a cable tie cutting assembly 6. The power guide rail 105 is mounted on the workstation 1 via a support plate 104. Anti-collision rubber 103 is installed at both ends of the slider 102, and the anti-collision rubber 103 is adapted to the power guide rail 105. The cable tie pressing assembly 2 consists of a miniature guide plate 201 and a guide plate seat 202. The cable tie body 304 is adapted to the guide holes on the miniature guide plate 201 and the guide plate seat 202. The cable tie body 304 corresponds to the bending plate 301. The power guide rail 105 provides power to the slider 102, causing the cable tie body 101 to pull the entire cable tie module to complete the displacement under the action of the slider 102. This facilitates the adjustment of the cable tie part of the corrugated tube harness. The anti-collision rubber 103 at the port of the power guide rail 105 can prevent the slider 102 from being hit. The cable tie body 304 is introduced from the miniature guide plate 201 of the guide plate seat 202. The head locking position of the cable tie body 304 is pressed, and at the same time, it provides guidance for the cable tie body 304 to be inserted into the locking hole. The cable tie body 304 bends with the bending plate 301. When the head and tail of the cable tie body 304 are connected, a bundling lock is completed. The above structure completes the introduction and bundling of the cable tie body 304, and completes the bundling operation of the corresponding part of the glass tube harness, improving work efficiency and enhancing the safety of the operation compared with the existing manual method.

[0021] like Figures 2 to 3As shown, this utility model relates to an automatic multi-point wrapping and buckling mechanism, including a workstation 1. The cable tie locking assembly 3 is composed of a bent plate 301, a spur gear 302, a movable gear 303, a cable tie body 304, a hook seat 305, and a suspension platform 306. The bent plate 301 and the spur gear 302 are respectively installed on the upper side and the left side of the hook seat 305. The hook seat 305 is installed on the left side of the suspension platform 306. The assisting push assembly 4 is composed of a gear component 401, a cylindrical gear 402, a servo motor assembly 403, a module fixing plate 404, a coupling 405, and a cantilever thin plate 406. The gear component 401 and the cylindrical gear... Wheels 402 are rotatably mounted on the inner and left sides of the suspension platform 306, respectively. A servo motor assembly 403 is mounted on the lower side of the suspension platform 306 via a module fixing plate 404, and the output shaft of the servo motor assembly 403 is connected to a gear component 401. A cantilever plate 406 is mounted on the module fixing plate 404. A coupling 405 connects the power-assisted push assembly 4 and the cable tie locking assembly 3. The gear component 401 rotates under the power provided by the servo motor assembly 403, driving the cylindrical gear 402 to rotate. The cylindrical gear 402 drives the movable gear 303 to move, thereby propelling the cable tie body 304 to operate. The coupling 405 connects the power-assisted push assembly... 4. The cable tie locking assembly 3 is connected to the cable tie tightening assembly 5, which is composed of a toothed plate 501 and is installed on the lower side of the miniature guide plate 201. The cable tie cutting assembly 6 is composed of an assembly plate 601, a cutter pull plate 602, an air pipe 603, a parallel cylinder 604, a cutter body 605, and a cutter cylinder 606. The cutter pull plate 602 is installed on the assembly plate 601, and the cutter body 605 is installed on the cutter pull plate 602. Both the parallel cylinder 604 and the cutter cylinder 606 are equipped with air pipes 603. After the cable tie body 304 has finished binding, the cable tie is tightened. The toothed plate 501 on group 5 pulls and tightens the cable tie body 304. Then, the cutter cylinder 606 is activated to drive the cutter pull plate 602 to move. The cutter pull plate 602 simultaneously drives the cutter body 605 to move. The cutter body 605 cuts off the excess part of the cable tie body 304 after binding, so that the bound cable tie body 304 is a whole. The above structure completes the binding and cutting of the cable tie body 304. The fully automated design enables this device to complete the entire process of binding, tightening and cutting the cable tie body 304. The degree of automation is high and the production efficiency is effectively improved.

[0022] Working Principle: This embodiment provides an automatic multi-point wrapping and buckling mechanism. In use, it is powered by an external power supply. The operator starts the device via an external control device, and the power guide rail 105 provides power to the slider 102, causing the pull plate body 101 to pull the entire cable tie module to complete the displacement under the action of the slider 102. This facilitates the adjustment of the cable tie section of the corrugated tubing harness. The anti-collision rubber 103 at the port of the power guide rail 105 can prevent the slider 102 from impact. The cable tie body 304 is introduced from the miniature guide plate 201 of the guide plate seat 202, and the head locking position of the cable tie body 304 is pressed tightly, simultaneously providing… The cable tie body 304 is inserted into the locking hole for guidance. The cable tie body 304 bends with the bending plate 301. When the ends of the cable tie body 304 are connected, the binding lock is completed. After the cable tie body 304 is bound, the toothed plate 501 on the cable tie tightening group 5 pulls to complete the tightening of the cable tie body 304. Then, the cutter cylinder 606 is activated to drive the cutter pull plate 602 to move. The cutter pull plate 602 drives the cutter body 605 to move synchronously. The cutter body 605 cuts off the excess part of the cable tie body 304 after binding, so that the bound cable tie body 304 presents a whole.

[0023] The embodiments disclosed herein are preferred embodiments, but are not limited thereto. Those skilled in the art can readily grasp the spirit of this utility model based on the above embodiments and make different extensions and variations. However, as long as they do not depart from the spirit of this utility model, they are all within the protection scope of this utility model.

Claims

1. An automatic multi-point wrapping and buckling mechanism, comprising a workstation (1), characterized in that: The workstation (1) has a power guide rail (105) on the front side of its upper surface, and a slider (102) is slidably mounted on the power guide rail (105). A pull plate body (101) is mounted on the slider (102). A cable tie module is mounted on the workstation (1), and the lower end of the cable tie module is connected to the pull plate body (101). The cable tie module consists of a cable tie clamping assembly (2), a cable tie locking assembly (3), a power assist push assembly (4), and a cable tie collecting assembly. The cable tie fastening assembly (5) and the cable tie cutting assembly (6) are composed of a cable tie locking assembly (3). The cable tie locking assembly (3) is composed of a bent plate (301), a straight tooth (302), a movable gear (303), a cable tie body (304), a hook seat (305), and a suspension platform (306). The bent plate (301) and the straight tooth (302) are respectively installed on the upper side and the left side of the hook seat (305). The hook seat (305) is installed on the left side of the suspension platform (306).

2. The automatic multi-point wrapping and buckling mechanism according to claim 1, characterized in that: The power guide rail (105) is mounted on the workstation (1) via a support plate (104). Anti-collision rubber (103) is installed at both ends of the slider (102), and the anti-collision rubber (103) is adapted to the power guide rail (105).

3. The automatic multi-point wrapping and buckling mechanism according to claim 2, characterized in that: The cable tie clamping assembly (2) consists of a miniature guide plate (201) and a guide plate seat (202). The cable tie body (304) is adapted to the guide holes on the miniature guide plate (201) and the guide plate seat (202). The cable tie body (304) corresponds to the bending plate (301).

4. The automatic multi-point wrapping and buckling mechanism according to claim 3, characterized in that: The power assist assembly (4) consists of a gear (401), a cylindrical gear (402), a servo motor assembly (403), a module fixing plate (404), a coupling (405), and a cantilever plate (406). The gear (401) and the cylindrical gear (402) are rotatably mounted on the inner and left sides of the suspension platform (306), respectively. The servo motor assembly (403) is mounted on the lower side of the suspension platform (306) through the module fixing plate (404), and the output shaft of the servo motor assembly (403) is connected to the gear (401).

5. The automatic multi-point wrapping and buckling mechanism according to claim 4, characterized in that: The cantilever plate (406) is mounted on the module fixing plate (404), and the coupling (405) connects the power push assembly (4) and the cable tie locking assembly (3).

6. The automatic multi-point wrapping and buckling mechanism according to claim 5, characterized in that: The cable tie tightening assembly (5) is composed of a toothed plate (501), and the toothed plate (501) is installed on the underside of the miniature guide plate (201).

7. The automatic multi-point wrapping and buckling mechanism according to claim 6, characterized in that: The cable tie cutting assembly (6) consists of an assembly plate (601), a cutter pull plate (602), an air pipe (603), a parallel cylinder (604), a cutter body (605), and a cutter cylinder (606). The cutter pull plate (602) is mounted on the assembly plate (601), and the cutter body (605) is mounted on the cutter pull plate (602). Both the parallel cylinder (604) and the cutter cylinder (606) are equipped with air pipes (603).