A tooling for preventing errors during installation using clips.

By designing a tooling system for preventing errors during snap-fit ​​installation, utilizing the inverted rod structure and the rotating and sliding cooperation of the cavity block, combined with the detection function of the switch pin, the problem of tool interference during snap-fit ​​installation is solved, improving operability and error prevention, and ensuring the accuracy and safety of snap-fit ​​installation.

CN224435458UActive Publication Date: 2026-06-30SHANGHAI XINGPEI ELECTRONIC TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI XINGPEI ELECTRONIC TECHNOLOGY CO LTD
Filing Date
2025-07-08
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

During the installation of clips, especially when the front and rear modules are too close together, the tools interfere with the main body of the module, resulting in unsuccessful installation and low efficiency.

Method used

A tooling for preventing errors during snap-fit ​​installation was designed, comprising a fixed base, a bar structure, a fixed slide rail, a cavity block, a switch pin, and a product line fixing seat. The bar structure provides the necessary space and precise positioning through rotational connection and sliding engagement of the cavity block. Combined with the detection function of the switch pin, it ensures that the snap-fit ​​is installed in place.

Benefits of technology

It effectively solves the problem of tool interference, improves the smoothness of operation and the ability to prevent mistakes, ensures the accuracy and quality of the installation of the clips, and reduces safety hazards.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a tooling for preventing errors during pin installation, comprising a fixed base, a reversible rod structure, a fixed slide rail, a cavity block, a switch pin, and a product line fixing seat. The reversible rod structure includes a reversible rod base connected to the fixed base and rotatable relative to it. The fixed slide rail is mounted on the fixed base via a slide rail fixing seat, and the cavity block is disposed on the fixed slide rail and can slide along it. The switch pin is mounted on the cavity block. The product line fixing seat is located below the cavity block. This utility model features a scientifically sound and reasonable structural design. Through the rotatable connection between the reversible rod structure and the fixed base, and the design of the reversible rod base's rotatability around a rotation axis, when the reversible rod structure opens to the left, it provides convenient space for placing the product line; when rotated to the right, it allows the cavity block to be precisely positioned above the product line, effectively solving the problem of tool interference caused by the close spacing between the front and rear modules.
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Description

Technical Field

[0001] This utility model relates to the field of nail installation and testing technology, and in particular to a nail installation error prevention and testing tooling. Background Technology

[0002] In current snap-fit ​​installation operations, especially in challenging environments where the distance between the front and rear modules is too short, the tool may interfere with the module body after the snap-fit ​​is installed on the rear module. This prevents the snap-fit ​​tail from being properly severed, severely impacting the normal progress and efficiency of the installation process. To address this, we propose a snap-fit ​​installation error-proofing and detection fixture. Utility Model Content

[0003] To address the aforementioned problems, this utility model provides a tooling for error-proofing and detection during snap-fit ​​installation. This utility model solves the problems mentioned in the background section.

[0004] This utility model provides the following technical solution: a tooling for preventing errors during pin installation, comprising a fixed base, a bar structure, a fixed slide rail, a cavity block, a switch pin, and a product line fixing seat. The bar structure includes a bar base, which is connected to the fixed base and is rotatable relative to the fixed base. The fixed slide rail is mounted on the fixed base via a slide rail fixing seat. The cavity block is disposed on the fixed slide rail and can slide along the fixed slide rail. The switch pin is mounted on the cavity block. The product line fixing seat is disposed below the cavity block.

[0005] In the above scheme, the inverted rod structure includes an inverted rod base and an inverted rod support rod. The inverted rod base is rotatably connected to the fixed base. One end of the inverted rod support rod is connected to the inverted rod base, and the other end is used to support the cavity block.

[0006] In the above scheme, the fixed slide rail fixing seat is fixed on the fixed base to support and fix the slide rail.

[0007] In the above scheme, the cavity block is provided with a cavity for accommodating the rivet. When the inverted rod structure is rotated to a specific position, the cavity block is located above the product line.

[0008] In the above scheme, the switch pin is positioned near the cavity block via a mounting component.

[0009] The above solution also includes a protective plate, which is mounted on a fixed base and located on one side of the inverted rod structure.

[0010] In the above solution, the product line mounting base is provided with a slot or fixing structure for fixing the product line.

[0011] In the above scheme, the inverted rod block and the fixed base are connected by a rotating shaft, so that the inverted rod block can rotate 90 degrees around the rotating shaft.

[0012] The advantages and beneficial effects of this utility model are as follows: This utility model provides a tooling for preventing errors in the installation of clips. Through the rotatable connection between the inverted rod structure and the fixed base, and the design of the inverted rod block being rotatable around the rotation axis, when the inverted rod structure opens to the left, it can provide convenient space for placing the product line. After rotating to the right, it can accurately position the cavity block above the product line. In this way, it provides the necessary space for the rear module tool to attach the clip tail, effectively solving the problem of tool interference caused by the close distance between the front and rear modules. The fixed slide rail is installed on the fixed base through the slide rail fixing seat. The cavity block can slide along the fixed slide rail. After the clip installation is completed and the switch pin detects the positioning signal, the cavity block slides backward to remove the clip. This structural cooperation makes the operation process smoother and improves the operability of the tooling. The switch pin is installed near the cavity block and can detect whether the clip installation is in place and provide feedback signal, thereby eliminating the quality risk caused by improper clip installation and significantly improving the product's error prevention. Attached Figure Description

[0013] 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.

[0014] Figure 1 This is a schematic diagram of the structure of this utility model.

[0015] In the diagram: 1. Fixed base; 2. Inverted rod block; 3. Protective plate; 4. Inverted rod support rod; 5. Slide rail fixing seat; 6. Fixed slide rail; 7. Cavity block; 8. Switch pin; 9. Product line fixing seat. Detailed Implementation

[0016] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings and examples. The following examples are only used to more clearly illustrate the technical solution of this utility model and should not be construed as limiting the scope of protection of this utility model.

[0017] like Figure 1As shown, this utility model is a tooling for preventing errors during the installation of clips, including a fixed base 1, a bar structure, a fixed slide rail 6, a cavity block 7, a switch pin 8, and a product line fixing seat 9. The bar structure includes a bar base 2, which is connected to the fixed base 1 and is rotatable relative to the fixed base 1. The fixed slide rail 6 is mounted on the fixed base 1 via a slide rail fixing seat 5. The cavity block 7 is disposed on the fixed slide rail 6 and can slide along the fixed slide rail 6. The switch pin 8 is mounted on the cavity block 7. The product line fixing seat 9 is disposed below the cavity block 7. This structural design establishes the basic framework of the tooling. The fixed base 1 provides a stable support foundation for the entire tooling. The rotatable characteristics of the inverted rod structure lay the foundation for subsequent clearance operations. The cooperation between the fixed slide rail 6 and the cavity block 7 enables the cavity block to achieve sliding function. The switch pin 8 can detect the installation status of the clips. The product line fixing seat 9 is used to fix the product line. Through the synergistic effect of these structures, it is possible to solve the tool interference problem caused by the close spacing between the front and rear modules and improve the tooling's error prevention and operability.

[0018] In the above scheme, the inverted rod structure includes an inverted rod base 2 and an inverted rod support rod 4. The inverted rod base 2 is rotatably connected to the fixed base 1. One end of the inverted rod support rod 4 is connected to the inverted rod base 2, and the other end is used to support the cavity block 7. The inverted rod support rod 4 enhances the stability of the inverted rod structure, enabling it to reliably support the cavity block 7 during rotation, ensuring that the cavity block 7 remains stable in the working position. This guarantees the accuracy of the rivet installation operation, further solves the installation error problem that may be caused by structural instability, and improves the operability of the tooling.

[0019] In the above scheme, the fixed slide rail fixing seat 5 is fixed on the fixed base 1 to support and fix the slide rail 6. The slide rail fixing seat 5 ensures the stable installation of the fixed slide rail 6 on the fixed base 1, enabling the fixed slide rail 6 to withstand the force generated by the cavity block 7 during the sliding process, ensuring that the sliding process of the cavity block 7 is smooth and stable, avoiding the impact on the sliding accuracy of the cavity block 7 due to unstable installation of the slide rail, providing a guarantee for the smooth installation and removal of the clips, and improving the performance of the tooling.

[0020] In the above solution, the cavity block 7 is provided with a cavity for accommodating the clips. When the inverted rod structure rotates to a specific position, the cavity block 7 is located above the product line. The cavity provides precise positioning space for the installation of the clips. When the inverted rod structure rotates to a specific position, the cavity block 7 is accurately located above the product line, allowing the clips to be accurately installed on the product line. This ensures the positional accuracy of the clip installation, effectively solves the problem of inaccurate clip installation position, and improves the installation quality and error prevention of the product.

[0021] In the above scheme, the switch pin 8 is positioned near the cavity block 7 via a mounting component. The switch pin 8 can detect in real time whether the clip is installed in place during the clip installation process and feed back the detection signal. The operator can judge whether the clip installation is qualified based on the signal, avoiding the clip from flowing to the next process due to improper installation, eliminating the outflow of quality risks, and greatly improving the product's error-proofness and quality reliability.

[0022] The above solution also includes a protective plate 3, which is mounted on the fixed base 1 and located on one side of the inverted rod structure. The protective plate 3 can protect against accidental collisions that may occur during the rotation of the inverted rod structure, and also protect personnel and other components during operation, reducing safety hazards during operation and ensuring the normal operation of the tooling and the safety of the operators.

[0023] In the above solution, the product line fixing base 9 is provided with a slot or fixing structure for fixing the product line. The slot or fixing structure can firmly fix the product line to the product line fixing base 9, preventing the product line from shifting or shaking during installation and testing, ensuring that the product line remains stable throughout the operation, providing a reliable basis for the accurate installation and testing of the clips, and further improving the error prevention performance and operational stability of the tooling.

[0024] In the above scheme, the inverted rod block 2 and the fixed base 1 are connected by a rotating shaft, allowing the inverted rod block 2 to rotate 90 degrees around the rotating shaft. Through this rotating shaft connection, the inverted rod block 2 can precisely achieve a 90-degree rotation. When the clip is not installed, it rotates 90 degrees to the left to open, facilitating placement on the product line; when the clip is installed, it rotates 90 degrees to the right, positioning the cavity block 7 above the product line; after the clip is installed, it rotates 90 degrees to the left again to open, providing space for the rear module tool to attach the clip tail. This precise rotation design perfectly solves the tool interference problem caused by the close spacing between the front and rear modules, greatly improving the operability and practicality of the tooling.

[0025] Working principle:

[0026] This type of clip installation error-proof detection fixture, when the module is not equipped with clips, rotates the inverted rod block 2 90 degrees to the left around the rotation axis, so that the inverted rod structure is in the left open state. At this time, the product line fixing seat 9 is exposed, making it easy for the operator to put the product line into the product line fixing seat 9, and use the slot or fixing structure on the product line fixing seat 9 to stably fix the product line. After the product line is fixed, rotate the inverted rod block 2 90 degrees to the right around the rotation axis. With the support of the inverted rod support rod 4, the cavity block 7 is accurately positioned above the product line, preparing for the installation of clips. During the clip installation operation, the switch pin 8 installed near the cavity block 7 detects in real time whether the clip is installed in place. When the clip is installed in place, the switch pin 8 detects the signal and provides feedback. Upon receiving the signal that the clip is installed, the cavity block 7 slides backward along the fixed slide rail 6, removing the clip from the production line. After the clip is removed, the inverted rod block 2 is rotated 90 degrees to the left around the rotation axis, so that the inverted rod structure is in the left-open state. This provides space for the rear module tool to attach the clip tail, and also facilitates the operator to remove the production line after testing, completing the entire clip installation error-proofing test operation process. Throughout the entire operation, the protective plate 3 always protects the inverted rod structure and the operation process, ensuring the safety of operation and the stability of the tooling.

[0027] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

[0028] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A card pin installation mistake proofing detection tool, comprising a fixed base (1), an inverted rod structure, a fixed slide rail (6), a cavity block (7), a switch needle (8) and a product line fixing seat (9), characterized in that: The inverted rod structure includes an inverted rod block (2), which is connected to a fixed base (1) and is rotatable relative to the fixed base (1); the fixed slide rail (6) is mounted on the fixed base (1) via a slide rail fixing seat (5); the cavity block (7) is set on the fixed slide rail (6) and can slide along the fixed slide rail (6); the switch pin (8) is mounted on the cavity block (7); and the product line fixing seat (9) is set below the cavity block (7).

2. The mistake proofing fixture for a clip installation according to claim 1, wherein The inverted rod structure includes an inverted rod base (2) and an inverted rod support rod (4). The inverted rod base (2) is rotatably connected to the fixed base (1). One end of the inverted rod support rod (4) is connected to the inverted rod base (2), and the other end is used to support the cavity block (7).

3. The anti-error detection fixture for snap-fit ​​installation according to claim 1, characterized in that, The fixed slide rail mounting base (5) is fixed on the fixed base (1) to support and fix the slide rail (6).

4. The anti-error detection fixture for snap-fit ​​installation according to claim 1, characterized in that, The cavity block (7) is provided with a cavity for accommodating the pins. When the bar structure is rotated to a specific position, the cavity block (7) is located above the product line.

5. The anti-error detection fixture for snap-fit ​​installation according to claim 1, characterized in that, The switch pin (8) is positioned near the cavity block (7) via a mounting component.

6. The anti-error detection fixture for snap-fit ​​installation according to claim 1, characterized in that, It also includes a protective plate (3), which is set on the fixed base (1) and located on one side of the inverted rod structure.

7. The anti-error detection fixture for snap-fit ​​installation according to claim 1, characterized in that, The product line mounting base (9) is provided with a slot or fixing structure for fixing the product line.

8. The anti-error detection fixture for snap-fit ​​installation according to claim 1, characterized in that, The inverted rod block (2) is connected to the fixed base (1) by a rotating shaft, so that the inverted rod block (2) can rotate 90 degrees around the rotating shaft.