Electromechanical automated feed device

By designing structures such as the inner groove, screw, slide, and limit block, the problem of inconvenient conveyor belt installation is solved, achieving convenient installation and improved stability. This makes it suitable for electromechanical automated feeding devices for circuit board processing.

CN224376693UActive Publication Date: 2026-06-19HONGMAO TECH (ZHUHAI CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HONGMAO TECH (ZHUHAI CO LTD
Filing Date
2025-06-26
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

The conveyor belts of existing feeding devices are inconvenient to install and disassemble, resulting in inconvenient maintenance and easy wear after long-term use.

Method used

The structure employs an inner groove, screw, slide block, and limit block. The screw rotation enables convenient installation and limit fixation of the conveyor belt. Combined with the design of filling pads and springs, it ensures installation stability and tension adjustment.

Benefits of technology

It enables convenient installation and disassembly of the conveyor belt, improves installation stability, prevents skewing, facilitates later maintenance, and allows for tension adjustment.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224376693U_ABST
    Figure CN224376693U_ABST
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Abstract

This utility model discloses an electromechanical automated feeding device, including a base frame, a mounting rod, a pusher, a conveyor belt, and an installation structure. The device inserts a mounting block into the mounting port, allowing it to be inserted into an inner groove. Rotating the screw causes a limiting block to be inserted into the limiting port, thus limiting and fixing the mounting block. This facilitates convenient installation and fixation of the conveyor belt, and the ease of installation also aids in subsequent disassembly and maintenance. The limiting block inside the mounting port presses down on the mounting block, and a filling pad fills the space between the mounting block and the slide, effectively suppressing the mounting block's wobbling and improving the stability of the mounting block connection. Rotating the screw causes the connecting block to push the mounting block, allowing for tension adjustment of the conveyor belt. This achieves the beneficial effects of not only convenient installation of the conveyor belt but also adjustable conveyor belt tension.
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Description

Technical Field

[0001] This utility model relates to the field of circuit board processing technology, specifically to an electromechanical automated feeding device. Background Technology

[0002] Circuit boards are named as follows: ceramic circuit board, alumina ceramic circuit board, aluminum nitride ceramic circuit board, circuit board, PCB board, aluminum substrate, high frequency board, thick copper board, impedance board, PCB, ultra-thin circuit board, ultra-thin circuit board, printed circuit board (copper etching technology), etc. During circuit board processing, it needs to be transferred by a feeding device so that the circuit board can enter the next process.

[0003] Existing patent CN212183833U discloses an automatic feeding device for printing circuit board lamination, belonging to the technical field of printing circuit board lamination equipment. It includes a base plate, an electric push rod is provided inside the base plate, a fixed block is fixedly connected to the left end of the electric push rod, a movable plate is fixedly connected to the upper surface of the fixed block, and a first rotating mechanism is engaged with the front of the inner wall of the movable plate.

[0004] The aforementioned patents or existing feeding devices have the following problems:

[0005] Existing feeding devices place the circuit board on the conveyor belt, and then push it with a pusher, causing the circuit board to move on the conveyor belt and drive the conveyor belt to move. The conveyor belt is prone to wear and tear after long-term use, so it needs to be replaced. However, most existing conveyor belts are fixed with screws, which are not convenient for subsequent disassembly and assembly, resulting in inconvenience when replacing and maintaining the conveyor belt. Utility Model Content

[0006] The purpose of this invention is to provide an electromechanical automated feeding device to solve the problems mentioned in the background art.

[0007] To achieve the above objectives, the present invention adopts the following technical solution: an electromechanical automated feeding device, comprising a base frame, an mounting rod mounted on the base frame, a pusher mounted on the base frame, a conveyor belt mounted on the mounting rod, an installation structure inside the mounting rod, the installation structure including an inner groove, an inner groove inside the mounting rod, an installation port at the upper end of the mounting rod, an installation block at the bottom of the conveyor belt, a limit port inside the installation block, a screw rod inside the inner groove, a slide block mounted on the screw rod, a connecting block fixed on the slide block, and a limit block fixed on the surface of the connecting block.

[0008] Preferably, the surface of the slide block is provided with a sliding opening, and the inner side of the inner groove is provided with a sliding track, and the sliding opening slides along the surface of the sliding track.

[0009] Preferably, the top of the slide is provided with a filling pad, and the filling pad is elastic.

[0010] Preferably, when the mounting block is inserted into the inner groove, it will fit against the top of the filling pad.

[0011] Preferably, when the mounting block is attached to the top of the filling pad, the bottom end of the limiting port is higher than the bottom end face of the limiting block.

[0012] Preferably, after the mounting block is inserted into the mounting port, it can slide inside the mounting port.

[0013] Preferably, a fixing box is fixed inside the inner groove, a connecting rod is connected inside the fixing box, a spring is installed inside the fixing box, and a push plate is provided at the end of the connecting rod.

[0014] Preferably, the surface of the mounting block is provided with a slot, and the surface of the push plate is provided with a locking head.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] Insert the mounting block into the mounting port so that it is inserted into the inner groove. Rotate the screw to insert the limiting block into the limiting port, thereby limiting and fixing the mounting block. This achieves the beneficial effect of conveniently installing and fixing the conveyor belt, which is conducive to subsequent disassembly and maintenance.

[0017] The limiting block inserted into the mounting port will press down on the mounting block, and the filling pad will fill the space between the mounting block and the slide, which can effectively suppress the shaking of the mounting block and improve the stability of the mounting block connection.

[0018] Rotating the screw causes the connecting block to push the mounting block, which allows for adjustment of the conveyor belt tension. This achieves the beneficial effects of not only convenient installation of the conveyor belt but also adjustment of its tension.

[0019] The push plate and connecting block clamp together, improving the stability of the mounting block after installation. The clamp head is locked inside the slot, which can effectively prevent the mounting block from tilting. Attached Figure Description

[0020] Figure 1 This is a schematic diagram of the structure of this utility model;

[0021] Figure 2 This is a front view structural diagram of the present utility model;

[0022] Figure 3 This is a front sectional view of the installation structure of this utility model;

[0023] Figure 4 This is a schematic diagram of the right-side cross-sectional structure of the mounting rod of this utility model.

[0024] In the diagram: Base frame-1, Mounting rod-2, Pusher-3, Conveyor belt-4, Mounting structure-5, Inner groove-51, Mounting port-52, Mounting block-53, Limiting port-54, Screw-55, Slide seat-56, Connecting block-57, Limiting block-58, Slide opening-59, Slide track-510, Filler pad-511, Fixing box-512, Connecting rod-513, Spring-514, Push plate-515, Bayonet-516, Clamp head-517. Detailed Implementation

[0025] To further explain the technical solution of this utility model, a detailed description is provided below through specific embodiments.

[0026] Please see Figure 1 , Figure 2 and Figure 3 This utility model provides an electromechanical automated feeding device, including a base frame 1, a mounting rod 2 fixed to the top of the base frame 1 by screws, a pusher 3 provided on the base frame 1, the pusher 3 being driven by an internal electromechanical drive device of the base frame 1, a conveyor belt 4 installed on the mounting rod 2, and an installation structure 5 provided inside the mounting rod 2.

[0027] When the circuit board is placed on the conveyor belt 4, the electromechanical drive equipment in the base frame 1 will automatically drive the pusher 3 to push the circuit board on the conveyor belt 4, so that the circuit board moves along the conveyor belt 4 and the conveyor belt 4 runs, so as to realize the electromechanical automated feeding of the circuit board.

[0028] Please see Figure 3 and Figure 4 This utility model provides an electromechanical automated feeding device. The mounting structure 5 includes an inner groove 51. The mounting rod 2 has an inner groove 51 inside and an mounting port 52 at the upper end of the mounting rod 2. The mounting port 52 communicates with the inner groove 51.

[0029] The bottom of the conveyor belt 4 is integrally formed with an installation block 53. The installation block 53 can be connected to the installation port 52. At the same time, the installation block 53 can move inside the installation port 52. The installation block 53 inserted into the installation port 52 will be inserted into the inner groove 51. A limit port 54 is opened inside the installation block 53.

[0030] The inner groove 51 is equipped with a rotatably connected screw 55. A slide 56 is threaded onto the screw 55. The surface of the slide 56 has a sliding opening 59. The sliding opening 59 slides along the surface of the slide rail 510 fixed inside the inner groove 51, improving the sliding stability of the slide 56. Furthermore, the slide rail 510 limits the movement of the slide 56, making the connection between the slide 56 and the screw 55 more stable. At the same time, it limits the movement of the slide 56 so that it does not rotate with the screw 55. A connecting block 57 is integrally formed on the top of the slide 56. The surface of the connecting block 57 is integrally formed with a limiting block 58. A flexible filling pad 511 is fixed at the top of the slide block 56. When the mounting block 53 is inserted into the inner groove 51, it will fit against the top of the filling pad 511. When the mounting block 53 fits against the top of the filling pad 511, the bottom end of the limiting port 54 is higher than the bottom end face of the limiting block 58. After the limiting block 58 is inserted into the limiting port 54, it will press down on the limiting block 54, causing the mounting block 53 to press down, and thus the conveyor belt 4 is pressed down tightly and fixed on the mounting rod 2.

[0031] In this utility model, a fixing box 512 is fixed inside the inner groove 51. A sliding connecting rod 513 is assembled inside the fixing box 512. A spring 514 is assembled inside the fixing box 512. One end of the connecting rod 513 is connected to one end of the spring 514. The other end of the spring 514 is fixed inside the fixing box 512. A push plate 515 is fixed to the other end of the connecting rod 513. A bayonet 516 is provided on the surface of the mounting block 53. A locking head 517 is provided on the surface of the push plate 515.

[0032] Specifically, when installing the conveyor belt 4, the mounting block 53 is inserted into the mounting port 52, so that the mounting block 53 is inserted into the inner groove 51 and abuts against the top of the filling pad 511. Then, the screw 55 is rotated. Since the slide block 56 is threadedly connected to the screw 55, the slide block 56 will slide horizontally to the left when the screw 55 rotates, so that the limiting block 58 is inserted into the limiting port 54, thereby limiting and fixing the mounting block 53. This achieves the beneficial effect of conveniently installing and fixing the conveyor belt 4, and convenient installation is conducive to subsequent disassembly and maintenance.

[0033] The limiting block 58 inserted into the mounting port 52 will press down on the mounting block 53, causing it to press against the filling pad 511. The filling pad 511 will fill the space between the mounting block 53 and the slide 56, which can effectively suppress the shaking of the mounting block 53 and improve the stability of the connection of the mounting block 53.

[0034] Next, rotate the screw 55 to make the slide block 56 slide to the left, so that the connecting block 57 can fit against the surface of the mounting block 53. At the same time, push the mounting block 53 to the left, thereby pushing the mounting block 53 to move to the left, and then drive the conveyor belt 4 to adjust the tension. This achieves the beneficial effect of not only facilitating the installation of the conveyor belt 4, but also adjusting the tension of the conveyor belt 4.

[0035] The mounting block 53, which moves to the left, will fit against the surface of the push plate 515, so that the clamp head 517 is in contact with the bayonet 516. Pushing the push plate 515 to slide to the left will push the connecting rod 513 and exert force on the spring 514. The spring 514 deforms under force and generates elastic force, which clamps the push plate 515 and the connecting block 57, improving the stability of the mounting block 53 after installation. The clamp head 517 is locked inside the bayonet 516, which can effectively prevent the mounting block 53 from tilting.

[0036] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. 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.

Claims

1. An electromechanical automated feeding device, comprising a base frame (1), a mounting rod (2) mounted on the base frame (1), a pusher (3) disposed on the base frame (1), and a conveyor belt (4) mounted on the mounting rod (2), characterized in that: It also includes an installation structure (5), which is provided inside the installation rod (2). The installation structure (5) includes an inner groove (51). The installation rod (2) has an installation port (52) at its upper end. The conveyor belt (4) has an installation block (53) at its bottom. The installation block (53) has a limit port (54) inside it. The inner groove (51) has a screw (55) inside it. A slide (56) is installed on the screw (55). A connecting block (57) is fixed on the slide (56). A limit block (58) is fixed on the surface of the connecting block (57).

2. The electromechanical automated feeding device according to claim 1, characterized in that: The surface of the slide block (56) is provided with a sliding opening (59), and the inner side of the inner groove (51) is provided with a slide rail (510). The sliding opening (59) slides along the surface of the slide rail (510).

3. The electromechanical automated feeding device according to claim 1, characterized in that: The top of the slide (56) is provided with a filling pad (511), which is elastic.

4. The electromechanical automated feeding device according to claim 3, characterized in that: When the mounting block (53) is inserted into the inner groove (51), it will fit against the top of the filling pad (511).

5. The electromechanical automated feeding device according to claim 4, characterized in that: When the mounting block (53) is attached to the top of the filling pad (511), the bottom end of the limiting port (54) is higher than the bottom end face of the limiting block (58).

6. The electromechanical automated feeding device according to claim 1, characterized in that: After the mounting block (53) is inserted into the mounting port (52), it can slide inside the mounting port (52).

7. The electromechanical automated feeding device according to claim 1, characterized in that: The inner groove (51) has a fixed box (512) inside, a connecting rod (513) is connected inside the fixed box (512), a spring (514) is installed inside the fixed box (512), and a push plate (515) is provided at the end of the connecting rod (513).

8. The electromechanical automated feeding device according to claim 7, characterized in that: The mounting block (53) has a slot (516) on its surface, and the push plate (515) has a clip (517) on its surface.