Annular feed track for bearing handling

By designing a bearing handling system with a servo motor-driven rotating disk, telescopic components, and a CCD camera, the problems of bearing accumulation and detection during bearing handling were solved, achieving efficient and intelligent bearing handling, detection, and sorting.

CN224376778UActive Publication Date: 2026-06-19JIANGSU KUNZHOU PRECISION ELECTROMECHANICAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU KUNZHOU PRECISION ELECTROMECHANICAL CO LTD
Filing Date
2025-06-11
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

The existing bearing handling ring feeding track has a simple structure, which makes bearings easy to accumulate and clog, and makes it impossible to effectively detect them, thus affecting handling efficiency and yield.

Method used

A bearing handling system was designed, comprising a circular feeding track body, a feeding conveyor belt, a CCD camera, a pre-processing component, and a telescopic component. The system uses a servo motor to drive a rotating disk, a telescopic component, and a swing head to prevent accumulation, and utilizes a CCD camera for detection and hydraulic push rods to sort out defective products.

Benefits of technology

It achieves efficient bearing handling, prevents blockage, improves material discharge efficiency, and enables real-time detection and sorting of good bearings, thereby improving the overall efficiency and yield of bearing handling.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a ring-shaped feeding track for bearing handling, relating to the field of bearing handling. It includes a ring-shaped feeding track body, a feeding conveyor belt installed on the ring-shaped feeding track body, a CCD camera and a pre-processing component mounted on the top of the ring-shaped feeding track body, and a discharge plate on the left side of the ring-shaped feeding track body. The ring-shaped feeding track for bearing handling of this utility model, by activating a servo motor, drives a first gear ring through a second gear ring, thereby rotating a rotating disk. During bearing feeding, a telescopic component and a swing head are used to agitate the bearing, preventing it from accumulating at the outlet and causing blockage. Therefore, it facilitates the input of bearings into the ring-shaped feeding track body for subsequent handling.
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Description

Technical Field

[0001] This utility model relates to the field of bearing handling, and in particular to an annular feeding track for bearing handling. Background Technology

[0002] Bearings are an important component in mechanical equipment. Their main function is to support rotating mechanical parts, reduce the coefficient of friction during their movement, and ensure their rotational accuracy.

[0003] The circular feeding track used for handling bearings has a simple structure that cannot control the handling efficiency of bearings, which easily leads to bearing accumulation and blockage. Furthermore, it cannot inspect the bearings, requiring additional inspections later, which is time-consuming, labor-intensive, and inefficient.

[0004] Therefore, it is necessary to propose a ring-shaped feeding track for bearing handling to solve the above problems. Utility Model Content

[0005] The main purpose of this invention is to provide a ring-shaped feeding track for bearing handling, which can effectively solve the problems in the background art.

[0006] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0007] A circular feeding track for bearing handling includes a circular feeding track body, a feeding conveyor belt installed on the circular feeding track body, a CCD camera and a pre-processing component installed on the top of the circular feeding track body; the circular feeding track body.

[0008] A feeding plate is provided on the left side of the annular feeding track body, a movable door is provided on the left side of the feeding plate, and a collection box is provided on the left side of the movable door.

[0009] Preferably, the CCD camera is used to perform visual inspection on the transported bearings, the feeding conveyor belt is used to feed the bearings monitored by the CCD camera, a feed pipe is installed in the center of the top of the pretreatment component, a rotating disk is rotatably connected to the bottom of the inner cavity of the pretreatment component, and a discharge port is opened in the center of the rotating disk.

[0010] Preferably, a first gear ring is installed on the outer wall of the rotating disk, and a second gear ring meshes with the side of the first gear ring. Both the second gear ring and the first gear ring are rotatably connected to the bottom of the pretreatment assembly. A servo motor is installed on the top of the pretreatment assembly, and the bottom of the servo motor is connected to the second gear ring via a rotating shaft.

[0011] Preferably, a telescopic component is installed in the inner cavity of the pretreatment component, and a swing head is movably connected to the other end of the telescopic component. The bottom of the swing head and the telescopic component are both attached to the top of the rotating disk. Elastic baffles are symmetrically installed on both sides of the swing head, and the other side of the elastic baffles is connected to the telescopic component.

[0012] Preferably, a movable rod is installed at one end of the swing head, the movable rod is movably connected to the inner cavity of the telescopic assembly, a swing motor is installed at the other end of the movable rod, a fixed rod is installed in the inner cavity of the telescopic assembly, springs are symmetrically wound around both ends of the outer wall of the fixed rod, one end of the spring is connected to the movable rod, the other end of the spring is connected to the inner cavity of the telescopic assembly, a hydraulic telescopic rod is installed in the inner cavity of the telescopic assembly, and the hydraulic telescopic rod is connected to the movable rod.

[0013] Preferably, a fixed seat is installed on the left side of the annular feeding track body, and a hydraulic push rod is installed on the other side of the fixed seat. The hydraulic push rod is connected to the feeding plate, and the movable door is rotatably connected to the left side of the annular feeding track body.

[0014] Compared with the prior art, the present invention has the following beneficial effects:

[0015] 1. The annular feeding track for bearing handling can drive the first gear ring through the second gear ring by starting the servo motor. Based on this, the rotating disk can be rotated. When feeding the bearing, the telescopic component and swing head can be used to stir it to prevent it from accumulating at the discharge port and causing blockage. Therefore, it is convenient to input the bearing into the annular feeding track body for subsequent handling.

[0016] 2. The annular feeding track for bearing handling, through the telescopic component, can move the swing head via the movable rod, thereby moving it to the discharge port. When there are a large number of bearings affecting the handling at the annular feeding track body, the bearing discharge can be stopped. At the same time, through the swing motor, the swing head can be driven to swing, thereby adjusting the bearing discharge efficiency.

[0017] 3. The circular feeding track for bearing handling can detect bearings through a CCD camera. If a bearing fails the test, it can be pushed into the collection box by the hydraulic push rod on the left side. Therefore, the yield rate can be detected when handling bearings. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0019] Figure 2This is a schematic diagram of the pretreatment component of this utility model;

[0020] Figure 3 This is a structural schematic diagram of the telescopic component of this utility model;

[0021] Figure 4 This is a utility model Figure 1 Enlarged view of point A in the middle.

[0022] In the diagram: 1. Circular feeding track body; 2. Feeding conveyor belt; 3. CCD camera; 4. Pre-processing component; 5. Feed pipe; 6. First gear ring; 7. Second gear ring; 8. Servo motor; 9. Discharge port; 10. Rotary disk; 11. Telescopic component; 12. Elastic baffle; 13. Swing head; 14. Movable rod; 15. Fixed rod; 16. Spring; 17. Swing motor; 18. Fixed seat; 19. Hydraulic push rod; 20. Discharge plate; 21. Collection box; 22. Movable door. Detailed Implementation

[0023] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0024] like Figures 1-4As shown, the annular feeding track for bearing handling includes an annular feeding track body 1, a feeding conveyor belt 2 installed on the annular feeding track body 1, a CCD camera 3 and a pre-processing component 4 installed on the top of the annular feeding track body 1, a discharge plate 20 on the left side of the annular feeding track body 1, a movable door 22 on the left side of the discharge plate 20, and a collection box 21 on the left side of the movable door 22. The CCD camera 3 is used for visual inspection of the bearings being handled, and the feeding conveyor belt 2 is used for feeding the bearings monitored by the CCD camera 3. A feed pipe 5 is installed in the center of the top of the pre-processing component 4, and a rotating disk 10 is rotatably connected to the bottom of the inner cavity of the pre-processing component 4. A discharge port 9 is opened in the center of the rotating disk 10, a first gear ring 6 is installed on the outer wall of the rotating disk 10, and a second gear ring 7 meshes with the side of the first gear ring 6. Both the second gear ring 7 and the first gear ring 6 are rotatably connected to the bottom of the pre-processing component 4. A servo motor 8 is installed on the top of the pre-processing component 4. The bottom of the pretreatment component 4 is connected to the second gear ring 7 via a rotating shaft. A telescopic component 11 is installed inside the pretreatment component 4. A swing head 13 is movably connected to the other end of the telescopic component 11. The bottoms of both the swing head 13 and the telescopic component 11 are attached to the top of the rotating disk 10. Elastic baffles 12 are symmetrically installed on both sides of the swing head 13. The other side of the elastic baffles 12 is connected to the telescopic component 11. A movable rod 14 is installed at one end of the swing head 13. The movable rod 14 is movably connected to the inner cavity of the telescopic component 11. A swing motor 17 is installed at the other end of 4. A fixed rod 15 is installed in the inner cavity of the telescopic component 11. Springs 16 are symmetrically wound around both ends of the outer wall of the fixed rod 15. One end of the spring 16 is connected to the movable rod 14, and the other end of the spring 16 is connected to the inner cavity of the telescopic component 11. A fixed seat 18 is installed on the left side of the annular feeding track body 1. A hydraulic push rod 19 is installed on the other side of the fixed seat 18. The hydraulic push rod 19 is connected to the feeding plate 20. The movable door 22 is rotatably connected to the left side of the annular feeding track body 1.

[0025] By activating the servo motor 8, the first gear ring 6 can be driven by the second gear ring 7, which in turn drives the rotating disk 10 to rotate. When feeding the bearings, the telescopic component 11 and the swing head 13 can be used to stir them, preventing them from accumulating at the discharge port 9 and causing blockage. This facilitates the input of the bearings to the annular feeding track body 1 for subsequent handling. The telescopic component 11 can be used to move the swing head 13 via the movable rod 14, which can then move it to the discharge port 9. When a large number of bearings affect the handling at the annular feeding track body 1, the bearing discharge can be stopped. At the same time, the swing motor 17 can be used to swing the swing head 13, which can adjust the bearing discharge efficiency. The CCD camera 3 can be used to detect the bearings. If the bearings fail the test, the hydraulic push rod 19 on the left can be used to open the movable door 22 of the discharge plate 20 and push it into the collection box 21. Therefore, the yield rate of the bearings can be detected during handling.

[0026] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A ring-shaped feeding track for bearing handling, comprising a ring-shaped feeding track body (1), characterized in that: A feeding conveyor belt (2) is installed at the annular feeding track body (1), and a CCD camera (3) and a pre-processing component (4) are installed on the top of the annular feeding track body (1). A feeding plate (20) is provided on the left side of the annular feeding track body (1), a movable door (22) is provided on the left side of the feeding plate (20), and a collection box (21) is provided on the left side of the movable door (22).

2. The annular feeding track for bearing handling according to claim 1, characterized in that: The CCD camera (3) is used to perform visual inspection on the transported bearings. The feeding conveyor belt (2) is used to feed the bearings monitored by the CCD camera (3). A feed pipe (5) is installed in the center of the top of the pretreatment component (4). A rotating disk (10) is rotatably connected to the bottom of the inner cavity of the pretreatment component (4). A discharge port (9) is opened in the center of the rotating disk (10).

3. The annular feeding track for bearing handling according to claim 2, characterized in that: A first gear ring (6) is installed on the outer wall of the rotating disk (10). A second gear ring (7) is meshed on the side of the first gear ring (6). The second gear ring (7) and the first gear ring (6) are rotatably connected to the bottom of the pretreatment component (4). A servo motor (8) is installed on the top of the pretreatment component (4). The bottom of the servo motor (8) is connected to the second gear ring (7) through a rotating shaft.

4. The annular feeding track for bearing handling according to claim 1, characterized in that: The pretreatment component (4) has a telescopic component (11) installed in its inner cavity. The other end of the telescopic component (11) is movably connected to a swing head (13). The bottoms of the swing head (13) and the telescopic component (11) are both attached to the top of the rotating disk (10). Elastic baffles (12) are symmetrically installed on both sides of the swing head (13). The other side of the elastic baffles (12) is connected to the telescopic component (11).

5. The annular feeding track for bearing handling according to claim 1, characterized in that: One end of the swing head (13) is equipped with a movable rod (14), which is movably connected to the inner cavity of the telescopic assembly (11). The other end of the movable rod (14) is equipped with a swing motor (17). A fixed rod (15) is installed in the inner cavity of the telescopic assembly (11). Springs (16) are symmetrically wound around the two ends of the outer wall of the fixed rod (15). One end of the spring (16) is connected to the movable rod (14), and the other end of the spring (16) is connected to the inner cavity of the telescopic assembly (11). A hydraulic telescopic rod is installed in the inner cavity of the telescopic assembly (11), and the hydraulic telescopic rod is connected to the movable rod (14).

6. The annular feeding track for bearing handling according to claim 1, characterized in that: A fixed seat (18) is installed on the left side of the annular feeding track body (1), and a hydraulic push rod (19) is installed on the other side of the fixed seat (18). The hydraulic push rod (19) is connected to the feeding plate (20), and the movable door (22) is rotatably connected to the left side of the annular feeding track body (1).