Automatic feeding device for lead-out wire clamps
By designing an automatic feeding device, the problem of low efficiency in manual feeding of lead wire clamps was solved, realizing automated conveying and feeding, improving production efficiency and reducing labor requirements.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU LYON ELECTRIC CO LTD
- Filing Date
- 2025-09-03
- Publication Date
- 2026-07-07
Smart Images

Figure CN224466752U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to lead wire clamp conveying, specifically to an automatic feeding device for lead wire clamps. Background Technology
[0002] In existing technologies, lead wire clamps need to be connected to the lead wires during production. Most of these connections are made manually, which is inefficient. While automated production lines could replace manual assembly of lead wire clamps and clips, relying on manual feeding would lead to inefficiency due to the production line's pace, high labor intensity, and high demand for skilled workers. Therefore, a feeding machine for automatically feeding lead wire clamps is needed to replace manual feeding. To this end, an automatic feeding device for lead wire clamps is proposed. Utility Model Content
[0003] The purpose of this invention is to provide an automatic feeding device for lead wire clips in order to solve the above problems.
[0004] To achieve the above objectives, this utility model provides the following technical solution: an automatic feeding device for lead wire clips, comprising a vibratory plate and a linear vibrator connected to the vibratory plate; characterized in that it further comprises a linear conveyor connected to the linear vibrator and a feeder for conveying the lead wire clips to the feeding position; the feeder comprises a feeding frame, a material channel disposed on the feeding frame, a driver mounted on the feeding frame for pushing the lead wire clips on the material channel to the feeding position, and a push block connected to the driver and slidably mounted in the material channel for pushing the lead wire clips while blocking the lead wire clips conveyed to the material channel by the linear conveyor.
[0005] A further preferred embodiment includes a sensor installed on the feeding rack for sensing the lead wire clips.
[0006] A further preferred embodiment includes an elastic pressure plate installed on the feeder to elastically press several lead wire clips against the feed channel and prevent the lead wire clips from lifting up when moving within the feed channel.
[0007] More preferably, the linear conveyor includes a conveyor frame, a motor mounted on the conveyor frame, a roller movably mounted on the conveyor frame, and a synchronous belt movably mounted on the roller and connected to the motor drive.
[0008] Further preferably, it also includes a baffle set on the conveyor frame, through which a conveying channel is formed, and a conveying port connected to the conveying channel and the material channel is provided on the feeding frame; it also includes a linear material channel installed on the linear vibrator and connected to the vibrating plate and the conveying channel.
[0009] A further preferred embodiment includes a guide plate disposed on the baffle for guiding the lead wire clips on the timing belt into the material channel.
[0010] The beneficial effects of this utility model are as follows: This device is used to automatically feed the lead wire clips, thereby enabling the device to be used in the automatic assembly production line of lead wire clips to automatically feed the lead wire clips, replacing manual feeding, improving production efficiency while reducing labor demand and labor intensity, saving costs. Operators only need to place several lead wire clips in the vibratory feeder. Attached Figure Description
[0011] Figure 1 This is a schematic diagram of the structure of this utility model;
[0012] Figure 2 This is a partial structural schematic diagram of the present invention;
[0013] Figure 3 This is a partial structural diagram of the feeder in this utility model.
[0014] Legend: 1. Vibratory feeder; 2. Linear vibrator; 3. Linear conveyor; 31. Conveyor frame; 32. Motor; 33. Roller; 4. Feeder; 41. Feeder frame; 42. Material channel; 5. Driver; 51. Push block; 6. Sensor; 7. Elastic pressure plate; 8. Synchronous belt; 9. Baffle; 91. Conveying channel; 92. Conveying port; 93. Linear material channel; 10. Guide plate. Detailed Implementation
[0015] The automatic feeding device for lead wire clips described in this utility model will now be further described with reference to the accompanying drawings.
[0016] It should be noted that all directional indicators such as up, down, left, right, front, back, etc. in the embodiments of this utility model are only used to explain the relative positional relationship and movement of the components in a specific posture as shown in the attached figure. If the specific posture changes, the directional indicator will also change accordingly.
[0017] In this utility model, unless otherwise explicitly specified and limited, the terms "connection," "fixing," etc., should be interpreted broadly; for example, "fixing" can mean a fixed connection, a detachable connection, or an integral part; it can also mean a mechanical connection, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0018] See Figures 1-3As shown, an automatic feeding device for lead wire clips includes a vibratory plate 1 and a linear vibrator 2 connected to the vibratory plate 1; characterized in that it also includes a linear conveyor 3 connected to the linear vibrator 2 and a feeder 4 for conveying the lead wire clips to the feeding position; the feeder 4 includes a feeding frame 41, a material channel 42 disposed on the feeding frame 41, a driver 5 mounted on the feeding frame 41 for pushing the lead wire clips on the material channel 42 to the feeding position, and a push block 51 connected to the driver 5 and slidably mounted in the material channel 42 for pushing the lead wire clips while blocking the lead wire clips conveyed by the linear conveyor 3 to the material channel 42;
[0019] The actuator 5 can be any one of a pneumatic cylinder, an electric actuator, or a hydraulic cylinder;
[0020] This device is designed to automatically feed lead wire clips, enabling it to be used in automatic lead wire clip assembly production lines to automatically feed lead wire clips, replacing manual feeding, improving production efficiency while reducing labor requirements and intensity, and saving costs. Operators only need to place several lead wire clips in the vibrating plate 1.
[0021] Vibratory plate 1 conveys the lead wire clip to linear vibrator 2, and then the lead wire clip is conveyed to linear conveyor 3 by linear vibrator 2. After that, it is conveyed to feeder 4 by linear conveyor 3. Then, the driver 5 pushes the lead wire clip that has been conveyed to the material channel 42 by linear conveyor 3 forward to the feeding position to wait for grabbing.
[0022] By setting the push block 51, when the driver 5 moves the push block 51 forward in the material channel 42, it pushes the lead wire clip in the material channel 42 forward. At this time, the push block 51 blocks the conveyor port 92, which blocks the lead wire clip delivered by the linear conveyor 3. After the push block 51 is reset, the conveyor port 92 is exposed. At this time, the push block 51 no longer blocks the lead wire clip. That is, the linear conveyor 3 delivers the lead wire clip to the material channel 42 through the conveyor port 92, waiting for the driver 5 to push the material again.
[0023] In one embodiment, a sensor 6 for sensing lead wire clips is also installed on the feed rack 41;
[0024] Sensor 6 is used to detect whether there are lead wire clips on the material channel 42. When sensor 6 does not detect lead wire clips, it sends a signal to the controller that controls the entire automatic feeding device or production line. After receiving the signal, the controller controls the entire automatic feeding device or production line to stop operating and wait for the operator to perform maintenance.
[0025] In one embodiment, an elastic pressure plate 7 is also included, which is installed on the feeding rack 41 by screws to elastically press a plurality of lead wire clips against the feed channel 42 and prevent the lead wire clips from lifting up when moving within the feed channel 42. The elastic pressure plate 7 applies downward elastic compression to the lead wire clips in the feed channel 42, driving the lead wire clips to adhere tightly to the lower part of the feed channel 42, preventing the lead wire clips from lifting up from the feed channel 42 due to obstruction or other reasons when the driver 5 drives the push block 51 to push a plurality of lead wire clips, thus preventing the lead wire clips from lifting up and causing positional deviation when they are in the feeding position, thereby affecting the automatic feeding of the lead wire clips.
[0026] In one embodiment, the linear conveyor 3 includes a conveyor frame 31, a motor 32 mounted on the conveyor frame 31, a roller 33 movably mounted on the conveyor frame 31, and a synchronous belt 8 movably mounted on the roller 33 and connected to the motor 32 for transmission. The motor 32 drives the synchronous belt 8 to move, and the synchronous belt 8 moves through the roller 33, thereby driving the lead wire clamps on the synchronous belt 8 to move linearly.
[0027] In one embodiment, it also includes a baffle 9 disposed on the conveyor frame 31, through which a conveying channel 91 is formed, and a conveying port 92 communicating with the conveying channel 91 and the material channel 42 is provided on the feeding frame 41; it also includes a linear material channel 93 installed on the linear vibrator 2 and communicating with the vibrating plate 1 and the conveying channel 91.
[0028] The baffle 9 and the synchronous belt 8 form a conveying channel 91, which plays a positioning and guiding role in the conveying of the lead wire clamps; the straight material channel 93 is used to connect the vibratory plate 1 and the linear conveyor 3, and plays a role in the transmission of the lead wire clamps.
[0029] In one embodiment, a guide plate 10 is also provided on the baffle 9 to guide the lead wire clips on the timing belt 8 into the material channel 42; the guide plate 10 is provided to guide the lead wire clips on the timing belt 8 to the conveyor port 92 and then move them into the material channel 42.
[0030] When using this utility model: the operator throws several lead wire clips into the vibratory plate 1 and then turns on the vibratory plate 1. The vibratory plate 1 transports the lead wire clips to the linear material channel 93 of the linear vibrator 2. The linear vibrator 2 then moves the lead wire clips forward to the synchronous belt 8. The motor 32 starts and drives the synchronous belt 8 to move, thus transporting the lead wire clips on the synchronous belt 8 forward.
[0031] When the lead wire clamp moves forward along the synchronous belt 8 onto the guide plate 10, the subsequent lead wire clamps push the lead wire clamp at the front end during the movement, pushing the lead wire clamp through the conveyor port 92 into the material channel 42;
[0032] When there is a lead wire clamp or a push block 51 at the position corresponding to the feed channel 42 and the conveyor 92, it will block the lead wire clamp. The drive block 51 will move forward in the feed channel 42 through the drive 5, which will push several lead wire clamps in the feed channel 42 forward by one station and then reset. At this time, the feed channel 42 corresponding to the position of the conveyor 92 will be empty and will no longer block the lead wire clamp on the linear conveyor 3. At this time, the linear conveyor 3 will drive the lead wire clamp to move forward until the lead wire clamp at the front moves into the feed channel 42 through the conveyor 92.
[0033] The scope of protection of this utility model is not limited to the above embodiments and their variations. Conventional modifications and substitutions made by those skilled in the art based on the content of these embodiments are all within the scope of protection of this utility model.
Claims
1. An automatic feeding device for lead wire clips, comprising a vibratory feeder (1) and a linear vibrator (2) connected to the vibratory feeder (1); characterized in that... It also includes a linear conveyor (3) connected to the linear vibrator (2) and a feeder (4) for conveying the lead wire clips to the feeding position; the feeder (4) includes a feeding frame (41), a feed channel (42) provided on the feeding frame (41), a driver (5) installed on the feeding frame (41) for pushing the lead wire clips on the feed channel (42) to the feeding position, and a push block (51) connected to the driver (5) and slidably installed in the feed channel (42) for pushing the lead wire clips while blocking the lead wire clips conveyed by the linear conveyor (3) to the feed channel (42).
2. The automatic feeding device for lead wire clips according to claim 1, characterized in that: It also includes a sensor (6) installed on the feed rack (41) for sensing the lead wire clips.
3. The automatic feeding device for lead wire clips according to claim 2, characterized in that: It also includes an elastic pressure plate (7) installed on the feed rack (41) to elastically press several lead wire clips onto the feed channel (42) to prevent the lead wire clips from being pushed up when they move in the feed channel (42).
4. The automatic feeding device for lead wire clips according to claim 1, characterized in that: The linear conveyor (3) includes a conveyor frame (31), a motor (32) mounted on the conveyor frame (31), a roller (33) movably mounted on the conveyor frame (31), and a synchronous belt (8) movably mounted on the roller (33) and connected to the motor (32) for transmission.
5. The automatic feeding device for lead wire clips according to claim 4, characterized in that: It also includes a baffle (9) set on the conveyor frame (31), through which a conveying channel (91) is formed, and a conveying port (92) connecting the conveying channel (91) and the material channel (42) is provided on the feeding frame (41); it also includes a linear material channel (93) installed on the linear vibrator (2) and connected to the vibrating plate (1) and the conveying channel (91).
6. The automatic feeding device for lead wire clips according to claim 5, characterized in that: It also includes a guide plate (10) provided on the baffle (9) for guiding the lead wire clips on the timing belt (8) into the material channel (42).