An in-line connector spring assembly apparatus

Abstract

The utility model relates to a spring piece assembling equipment technical field especially relates to a straight insertion type connector spring piece assembling equipment, its technical scheme includes frame, the frame upper end is installed with work platform, work platform upper end is installed with needle material feeding track and spring piece material feeding track, the first misplacement pneumatic cylinder is installed to needle material feeding track front end, the first misplacement pneumatic cylinder is connected with moving part towards needle material feeding track place, the moving part front end is provided with the placement groove, the spring piece material feeding track initial end side is provided with spring piece and hits the pneumatic cylinder, the needle material feeding track and spring piece material feeding track intersection is provided with the material feeding track. The utility model through in the assembling equipment through multiple misplacement pneumatic cylinders to realize the assembly, then through spring piece and hits the pneumatic cylinder and installs the spring piece and needle assembly, and in the process of pushing through the shaping pneumatic cylinder shaping, the overall equipment precision is higher, and can realize the orderly delivery, and the feeding is convenient.

Description

Technical Field

[0001] This utility model relates to the technical field of spring assembly equipment, specifically a direct-insertion connector spring assembly equipment. Background Technology

[0002] Direct-insertion connector spring assembly equipment is usually non-standard automated equipment, customized according to specific connector types and assembly requirements. It can efficiently complete assembly steps such as spring insertion, positioning, and fixing, ensuring the quality and performance of the connector. The equipment adopts an automated assembly method, which can significantly improve production efficiency and reduce labor costs.

[0003] The existing technology still has the following drawbacks in its use:

[0004] Existing assembly equipment has low overall precision during the assembly of spring clips, some procedures still require manual intervention, and the overall automation level is low, which cannot meet today's production needs.

[0005] In view of this, we propose a direct-insertion connector spring assembly device to solve the existing problems. Utility Model Content

[0006] The purpose of this invention is to provide a direct-insertion connector spring assembly device to solve the problems mentioned in the background art.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a direct-insertion connector spring assembly device, comprising a frame, a working platform mounted on the upper end of the frame, a pin feeding track and a spring feeding track mounted on the upper end of the working platform, a first misalignment cylinder mounted at the front end of the pin feeding track, a moving component connected to the first misalignment cylinder facing the pin feeding track, a placement groove provided at the front end of the moving component, a spring inserting cylinder provided on the side of the initial end of the spring feeding track, a discharge track provided at the intersection of the pin feeding track and the spring feeding track, a second misalignment cylinder provided on the spring feeding track near the discharge track, a pushing cylinder mounted at the initial end of the discharge track, a pushing component connected to the front end of the pushing cylinder, a shaping cylinder mounted on one side of the discharge track, and a shaping component mounted on the front end of the shaping cylinder near the discharge track.

[0008] Preferably, the upper part of the work platform is equipped with multiple sets of mounting brackets, and the needle feed track and the spring feed track are both mounted on the mounting brackets. The needle feed track and the spring feed track are both connected to external mechanisms.

[0009] Preferably, a receiving bin is installed at the lower end of the working platform, and the working platform has a slot at the end of the unloading track, with the receiving bin located directly below the slot.

[0010] Preferably, multiple sets of protective covers are installed around the upper part of the frame, and multiple sets of support feet are installed at the bottom of the frame.

[0011] Preferably, a running display is installed on the top of the protective cover, and a touch screen is provided at the front end of the protective cover.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] This invention achieves assembly through multiple sets of staggered cylinders in the assembly equipment, and then the spring sheet and needle are assembled and installed by inserting the spring sheet into the cylinder. During the pushing process, the shaping cylinder is used for shaping. The overall equipment has high precision and can achieve orderly conveying, which is convenient for feeding and picking up materials. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is a three-dimensional structural diagram of the present invention;

[0016] Figure 3 This is a partial top view of the structure of this utility model.

[0017] In the diagram: 1. Frame; 2. Protective cover; 3. Touch screen; 4. Operation display; 5. Support feet; 6. Work platform; 7. Mounting bracket; 8. First misalignment cylinder; 9. Needle feed track; 10. Push-in cylinder; 11. Second misalignment cylinder; 12. Spring feed track; 13. Spring insertion cylinder; 14. Placement slot; 15. Moving part; 16. Shaping cylinder; 17. Unloading track; 18. Shaping part; 19. Push-in part. Detailed Implementation

[0018] The technical solution of this utility model will be further described below with reference to the accompanying drawings and specific embodiments.

[0019] Example 1

[0020] like Figure 1 , Figure 2 and Figure 3As shown, this utility model proposes a direct-insertion connector spring assembly device, including a frame 1. A working platform 6 is installed on the upper end of the frame 1. The working platform 6 is the main platform for assembly and conveying. A needle feeding track 9 and a spring feeding track 12 are installed on the upper end of the working platform 6. The needle feeding track 9 is used to guide and convey needle-shaped materials, ensuring that the needle-shaped materials can be conveyed according to a predetermined path and direction. The spring feeding track 12 is used to guide and convey spring materials, ensuring that the spring materials can be conveyed according to a predetermined path and direction. A first misalignment cylinder 8 is installed at the front end of the needle feeding track 9. A moving part 15 is connected to the first misalignment cylinder 8 toward the needle feeding track 9. The first misalignment cylinder 8 moves to convey the needle-shaped materials to the feeding track. A placement groove 14 is provided at the front end of the moving part 15. The placement groove 14 is a slot on the moving part 15 used to place the transported needle-shaped materials. The spring feeding track 12... A spring-loaded cylinder 13 is provided on the side of the initial end. The spring-loaded cylinder 13 is used to transport the spring-loaded assembly. A discharge track 17 is provided at the intersection of the needle-loaded track 9 and the spring-loaded track 12. The discharge track 17 is used to transport the assembled material. A second misalignment cylinder 11 is provided near the discharge track 17 on the spring-loaded track 12. The second misalignment cylinder 11 is used to transport the spring-loaded material to the discharge track 17 and assemble it with the needle-shaped material. A push-in cylinder 10 is installed at the initial end of the discharge track 17. The push-in cylinder 10 is used to push the needle-shaped material brought by the moving part 15 into the discharge track 17 and assemble it with the spring-loaded material. A push-in part 19 is connected to the front end of the push-in cylinder 10. A shaping cylinder 16 is installed on one side of the discharge track 17. A shaping part 18 is installed near the front end of the shaping cylinder 16 near the discharge track 17. The shaping cylinder 16 controls the shaping part 18 to shape the assembled product.

[0021] Furthermore, multiple sets of mounting brackets 7 are installed on the upper end of the work platform 6. The needle feeding track 9 and the spring feeding track 12 are both installed on the mounting brackets 7. The needle feeding track 9 and the spring feeding track 12 are both connected to the external mechanism. The mounting brackets 7 are used to stabilize the overall track mechanism. The needle feeding track 9 and the spring feeding track 12 are fed through the external mechanism.

[0022] Furthermore, a receiving bin is installed at the lower end of the work platform 6. The work platform 6 has a slot at the end of the unloading track 17. The receiving bin is located directly below the slot. The assembled product is transported to the end of the unloading track 17 and then falls into the receiving bin.

[0023] Furthermore, multiple sets of protective covers 2 are installed around the upper part of the frame 1, and multiple sets of support feet 5 are installed at the bottom of the frame 1. The protective covers 2 are used to ensure that the working components inside the frame 1 can operate smoothly.

[0024] Furthermore, a running display 4 is installed on the top of the protective cover 2, and a touch screen 3 is provided at the front end of the protective cover 2. The touch screen 3 is used to control the operation, and the running display 4 is used to display the transportation status.

[0025] The above specific embodiments are merely several preferred embodiments of this utility model. Based on the technical solution of this utility model and the relevant teachings of the above embodiments, those skilled in the art can make various alternative improvements and combinations to the above specific embodiments.

Claims

1. A direct-insertion connector spring assembly device, comprising a frame (1), characterized in that: A working platform (6) is installed on the upper end of the frame (1). A needle feeding track (9) and a spring feeding track (12) are installed on the upper end of the working platform (6). A first misalignment cylinder (8) is installed at the front end of the needle feeding track (9). A moving part (15) is connected to the first misalignment cylinder (8) facing the needle feeding track (9). A placement groove (14) is provided at the front end of the moving part (15). A spring inserting cylinder (13) is provided on the side of the initial end of the spring feeding track (12). The needle feeding track (9) 9) A discharge track (17) is provided at the intersection of the spring feed track (12). A second misalignment cylinder (11) is provided near the discharge track (17) of the spring feed track (12). A push-in cylinder (10) is installed at the initial end of the discharge track (17). A push-in component (19) is connected to the front end of the push-in cylinder (10). A shaping cylinder (16) is installed on one side of the discharge track (17). A shaping component (18) is installed near the front end of the shaping cylinder (16) near the discharge track (17).

2. The direct-insertion connector spring assembly equipment according to claim 1, characterized in that: The upper end of the working platform (6) is equipped with multiple sets of mounting brackets (7). The needle feeding track (9) and the spring feeding track (12) are both mounted on the mounting brackets (7). The needle feeding track (9) and the spring feeding track (12) are both connected to external mechanisms.

3. The direct-insertion connector spring assembly equipment according to claim 1, characterized in that: The work platform (6) is equipped with a receiving bin at its lower end. The work platform (6) has a slot at the end of the unloading track (17), and the receiving bin is located directly below the slot.

4. The direct-insertion connector spring assembly equipment according to claim 1, characterized in that: Multiple sets of protective covers (2) are installed around the upper part of the frame (1), and multiple sets of support feet (5) are installed at the bottom of the frame (1).

5. The through-hole connector spring assembly equipment according to claim 4, characterized in that: The protective cover (2) is equipped with a running display (4) on its top and a touch screen (3) on its front end.

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