A convenient material pushing platform mechanism
By introducing a convenient material pushing platform mechanism into the packaging equipment, and using photoelectric sensors and diffuse reflection switches to achieve precise positioning, the problem of impact force between the material pushing mechanism and the material is solved, thereby improving the efficiency of the packaging equipment and the quality of the finished product.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI KUKO PACKING MACHINERY
- Filing Date
- 2025-07-23
- Publication Date
- 2026-06-30
AI Technical Summary
In existing packaging equipment, the impact force between the pushing mechanism and the material is large, causing the material to spill out. Furthermore, the material at the material arrangement position has to wait for the pushing mechanism to return, resulting in a decrease in packaging efficiency.
The system employs a convenient pusher platform mechanism, including a pusher plate, side guard plates, pusher conversion plate, slide rail, slider, and pusher drive assembly. It achieves precise positioning and stable pushing through photoelectric sensors and diffuse reflection switches, ensuring the accuracy and stability of the pusher plate.
It improves the processing efficiency and finished product quality of packaging equipment, realizes a flexible and accurate feeding process, reduces material spillage, and improves overall packaging efficiency.
Smart Images

Figure CN224428070U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a convenient material pushing platform mechanism, belonging to the field of film bag making and sealing and film cutting and sealing packaging technology. Background Technology
[0002] In existing packaging equipment, the material pushing mechanism of the packaging machine mainly adopts the following pushing method: the material pushing mechanism is connected to the material conveying mechanism, and the material is directly pushed into the packaging film by the conveyor belt. When the pushing mechanism pushes the material, due to the long stroke of the pushing mechanism, the pushing speed of the pushing mechanism is generally increased in order to improve packaging efficiency. This will result in a large impact force between the pushing mechanism and the material, which may cause the material to fall over.
[0003] In terms of packaging efficiency, existing packaging machines all use a pushing mechanism to push materials and pre-made bags to the sealing mechanism to complete one stroke. Then the pushing mechanism returns to the material arrangement position to push the next material. During this process, the materials at the material arrangement position must wait for the pushing mechanism to complete one stroke and return before they can be pushed. The materials need to wait at the arrangement position, which causes a decrease in packaging efficiency. Utility Model Content
[0004] This invention overcomes the shortcomings of existing technologies and provides a convenient material pushing platform mechanism that is flexible in movement, accurate in positioning, improves processing efficiency, and ensures stable finished product quality.
[0005] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows: a convenient material pushing platform mechanism, including a material pushing plate, side guard plates, a material pushing upper conversion plate, a lower outer support plate of the material pushing platform, a lower inner support plate of the material pushing platform, a material pushing groove seat, a slider, a slide rail, a material pushing drive assembly, and a material pushing platform plate. The material pushing platform plate is fixedly installed on the upper side of the lower outer support plate and the lower inner support plate of the material pushing platform. The material pushing plate is located above the material pushing platform plate. Two side guard plates are mirrored on the front side of the material pushing plate, and two material pushing upper conversion plates are mirrored on the rear side of the material pushing plate. Two longitudinal elongated holes are arranged parallel to each other on the material pushing platform plate. The upper part of the material pushing upper conversion plate is fixedly connected to the material pushing plate, and the lower part of the material pushing upper conversion plate passes through the longitudinal elongated holes of the material pushing platform plate and is fixedly installed on the material pushing groove seat.
[0006] Two slide rails are longitudinally fixedly installed below the pusher platform plate. The slide rails are perpendicular to the pusher slot seat. A slider is slidably installed on each slide rail. The slider is fixedly installed on the pusher slot seat. The power output end of the pusher drive component is connected to the pusher slot seat. The pusher drive component drives the pusher slot seat to move longitudinally back and forth on the slide rail with the slider, thereby driving the pusher plate to move back and forth along the longitudinal long hole on the pusher platform plate.
[0007] Furthermore, the lower outer support plate and the lower inner support plate of the pusher platform are respectively arranged on both sides of the pusher conversion plate, and the gap formed between the lower outer support plate and the lower inner support plate of the pusher platform corresponds to the longitudinal elongated hole on the pusher platform plate.
[0008] Furthermore, photoelectric sensors are provided at both ends of the lower outer support plate of the pusher platform, and the two photoelectric sensors are used to limit the reciprocating stroke of the slider on the slide rail.
[0009] Furthermore, the structure of the pusher drive assembly includes a drive motor, a pusher lever, and a deep groove ball bearing. The body of the drive motor is fixedly mounted on the lower side of the pusher platform plate. The power output shaft of the drive motor is sleeved and fixed together with one end of the pusher lever. The other end of the pusher lever is movably fitted with a deep groove ball bearing, which is located in a U-shaped groove on the lower side of the pusher slot seat. The drive motor drives the pusher lever to rotate, causing the deep groove ball bearing to slide in the U-shaped groove of the pusher slot seat, thereby pushing the pusher slot seat to move.
[0010] Furthermore, the two side panels cooperate to form an upwardly flared shape.
[0011] Furthermore, a material detection bracket is provided on the upper side of the pusher platform plate, the material detection bracket is located on the rear side of the pusher plate, a through window is provided on the pusher plate, and a diffuse reflection switch is provided on the material detection bracket, the diffuse reflection switch is positioned directly opposite the through window, and is used to detect whether there is material on the front side of the pusher plate.
[0012] Furthermore, a roller is horizontally arranged on the front side of the pusher platform plate, and the upper cylindrical surface of the roller is flush with the upper side surface of the pusher plate.
[0013] Furthermore, an operation panel is provided on one side of the pusher platform plate, and the operation panel is used to manually control the pusher drive component.
[0014] Furthermore, the pushing platform plate is a frame-type enclosure structure.
[0015] The advantages of this invention compared to existing technologies are as follows: The material pushing platform plate is fixed to the material pushing platform mechanism of the cuff machine. A slide rail is mounted on the material pushing platform plate, a slider is slidably mounted on the slide rail, and the material pushing plate is fixedly mounted on the slider. The material pushing drive assembly is connected to the slider and is used to drive the slider to move on the slide rail, thereby moving the material pushing plate. A photoelectric sensor is installed on the outside of the slide rail for sensing the precise positioning of the slider. A diffuse reflection switch is installed at the front end of the pusher plate to detect the position and status of the product on the pusher plate, ensuring the accuracy and stability of the push. A photoelectric sensor is installed at the outlet to sense the precise positioning of the slide rail. The pusher plate is driven by the pusher drive assembly, and the diffuse reflection switch and photoelectric sensor assist in confirming the material and positioning. This not only meets the stability and accuracy requirements of the pusher platform plate during the processing, but also enhances the quality and efficiency of the work. In this process, the pusher drive assembly facilitates the transmission of power to the pusher mechanism, which can automatically complete the mechanism operation according to the parameters. The pusher drive assembly drives the pusher plate to move, pushing the product to the film feeding position for sealing and cutting, thereby achieving fast and convenient feeding of the equipment, achieving flexible movement, accurate positioning, improved processing efficiency, and stable finished product quality. Attached Figure Description
[0016] The present invention will be further described below with reference to the accompanying drawings.
[0017] Figure 1 This is a schematic diagram of the structure of this utility model.
[0018] Figure 2 This is a three-dimensional structural diagram of the present invention.
[0019] Figure 3 This is a schematic diagram of the structure behind the hidden pusher platform plate in this utility model. Figure 1 .
[0020] Figure 4 This is a schematic diagram of the structure behind the hidden pusher platform plate in this utility model. Figure 2 .
[0021] Figure 5 This is a schematic diagram of the structure behind the hidden pusher platform plate in this utility model. Figure 3 .
[0022] Figure 6 This is a schematic diagram of the structure behind the hidden pusher platform plate in this utility model. Figure 4 .
[0023] Figure 7 This is a schematic diagram of the structure behind the hidden pusher platform plate in this utility model. Figure 5 .
[0024] In the diagram: 1 is the pusher plate, 2 is the side guard plate, 3 is the pusher conversion plate, 4 is the lower outer support plate of the pusher platform, 5 is the lower inner support plate of the pusher platform, 6 is the pusher slot seat, 7 is the slider, 8 is the slide rail, 9 is the pusher drive assembly, 91 is the drive motor, 92 is the pusher swing arm, 93 is the deep groove ball bearing, 10 is the pusher platform plate, 11 is the photoelectric sensor, 12 is the material detection bracket, 13 is the through window, 14 is the diffuse reflection switch, 15 is the roller, and 16 is the operation panel. Detailed Implementation
[0025] The present invention will be further described below with reference to specific embodiments.
[0026] like Figures 1 to 7 As shown, this utility model discloses a convenient material pushing platform mechanism, including a pushing plate 1, side guard plates 2, a pushing upper conversion plate 3, a lower outer support plate 4, a lower inner support plate 5, a pushing groove seat 6, a slider 7, a slide rail 8, a pushing drive assembly 9, and a pushing platform plate 10. The pushing platform plate 10 is a frame-type enclosure structure. The pushing platform plate 10 is fixedly installed on the upper side of the lower outer support plate 4 and the lower inner support plate 5 of the pushing platform. The pushing plate 1 is located above the pushing platform plate 10. Two side guard plates 2 are mirror-image arranged on the front side of the pushing plate 1. The two side guard plates 2 cooperate to form a shape. The pusher plate 1 has an upwardly flared shape. Two pusher conversion plates 3 are mirror-imagely arranged on the rear side of the pusher plate 1. Two longitudinal holes are arranged in parallel on the pusher platform plate 10. The upper part of the pusher conversion plate 3 is fixedly connected to the pusher plate 1. The lower part of the pusher conversion plate 3 passes through the longitudinal holes of the pusher platform plate 10 and is fixedly mounted on the pusher groove seat 6. The lower outer support plate 4 and the lower inner support plate 5 of the pusher platform are respectively arranged on both sides of the pusher conversion plate 3. The gap formed between the lower outer support plate 4 and the lower inner support plate 5 of the pusher platform corresponds to the longitudinal holes on the pusher platform plate 10.
[0027] Two slide rails 8 are longitudinally fixed below the pusher platform plate 10. The slide rails 8 are perpendicular to the pusher slot 6. A slider 7 is slidably mounted on each slide rail 8. The slider 7 is fixedly mounted on the pusher slot 6. The power output end of the pusher drive assembly 9 is connected to the pusher slot 6. The pusher drive assembly 9 drives the pusher slot 6 to move longitudinally back and forth on the slide rail 8 with the slider 7, thereby driving the pusher plate 1 to move back and forth along the longitudinal elongated hole on the pusher platform plate 10. Photoelectric sensors 11 are provided at both ends of the lower outer support plate 4 of the pusher platform. The two photoelectric sensors 11 are used to limit the reciprocating stroke of the slider 7 on the slide rail 8.
[0028] The structure of the pusher drive assembly 9 includes a drive motor 91, a pusher swing arm 92, and a deep groove ball bearing 93. The body of the drive motor 91 is fixedly installed on the lower side of the pusher platform plate 10. The power output shaft of the drive motor 91 is sleeved and fixed together with one end of the pusher swing arm 92. The other end of the pusher swing arm 92 is movably fitted with the deep groove ball bearing 93. The deep groove ball bearing 93 is located in the U-shaped groove on the lower side of the pusher slot seat 6. The drive motor 91 drives the pusher swing arm 92 to rotate, which drives the deep groove ball bearing 93 to slide in the U-shaped groove of the pusher slot seat 6, thus pushing the pusher slot seat 6 to move.
[0029] A material detection bracket 12 is provided on the upper side of the pushing platform plate 10. The material detection bracket 12 is located on the rear side of the pushing plate 1. A through window 13 is provided on the pushing plate 1. A diffuse reflection switch 14 is provided on the material detection bracket 12. The diffuse reflection switch 14 is positioned directly opposite the through window 13 and is used to detect whether there is material on the front side of the pushing plate 1.
[0030] A roller 15 is horizontally arranged on the front side of the pusher platform plate 10. The upper cylindrical surface of the roller 15 is flush with the upper side surface of the pusher plate 1, which facilitates the pushing out of materials.
[0031] An operation panel 16 is provided on one end of the upper side of the pusher platform plate 10. The operation panel 16 is electrically connected to the drive motor 91. The operation panel 16 is used to manually control the pusher drive component 9.
[0032] Specifically, photoelectric sensors 11 are installed at both ends of the lower outer support plate 4 of the pusher platform, i.e., on the outside of the slide rail 7. The two photoelectric sensors 11 are used to limit the reciprocating stroke of the slider 7 on the slide rail 8, further improving the repeatability of the pusher plate 1, eliminating film sealing and cutting misalignment caused by cumulative errors, and further improving the yield. The diffuse reflection switch 14 installed at the front end of the pusher plate 1 integrates the "material outline AI recognition" function, which can distinguish between three abnormalities such as "material shortage / material stacking / reverse placement" in a short time, and trigger the pusher drive component to execute the "reverse-rearrangement" self-recovery program, shortening the changeover debugging time and achieving "one-click switching" with zero downtime.
[0033] This utility model relates to a pusher platform plate 10, which is fixed on the pusher platform mechanism of a cuffing machine. A slide rail 8 is mounted on the pusher platform plate 10, a slider 7 is slidably mounted on the slide rail 8, and a pusher plate 1 is fixedly mounted on the slider 7. A pusher drive assembly 9 is connected to the slider 7 and drives the slider 7 to move on the slide rail 8, thereby moving the pusher plate 1. A photoelectric sensor 11 is installed on the outer side of the slide rail 7 to sense the precise positioning of the slider 7. A diffuse reflection switch 14 is installed at the front end of the pusher plate 1 to detect the position and status of the product on the pusher plate 1, ensuring the accuracy and stability of the pusher. A photoelectric sensor 11 is installed at the outlet to sense the precise positioning of the slide rail 8. In use, the product is placed in front of the pusher plate 1, and the pusher drive assembly 9 is activated. The pusher drive assembly 9 drives the slider 7 to move on the slide rail 8, thereby moving the pusher plate 1 and pushing the product to the film feeding position for sealing and cutting. Simultaneously, the diffuse reflection switch 14 detects the position and status of the product on the pusher plate 1 in real time, ensuring the accuracy and stability of the pusher. This enables the equipment to feed materials quickly and conveniently, allowing it to operate safely and quickly during the feeding, wrapping, cutting, and sealing processes, facilitating efficient work for users.
[0034] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.
Claims
1. A convenient material pushing platform mechanism, characterized in that, The components include a pusher plate (1), a side guard plate (2), a pusher conversion plate (3), a lower outer support plate (4), a lower inner support plate (5), a pusher slot seat (6), a slider (7), a slide rail (8), a pusher drive assembly (9), and a pusher platform plate (10). The pusher platform plate (10) is fixedly installed on the upper side of the lower outer support plate (4) and the lower inner support plate (5) of the pusher platform. The pusher plate (1) is located on the pusher platform plate (6). 10) Above, the front side of the pusher plate (1) is mirrored with two side guards (2), the rear side of the pusher plate (1) is mirrored with two pusher conversion plates (3), the pusher platform plate (10) is parallel to two longitudinal long holes, the upper part of the pusher conversion plate (3) is fixedly connected to the pusher plate (1), and the lower part of the pusher conversion plate (3) passes through the longitudinal long hole of the pusher platform plate (10) and is fixedly mounted on the pusher groove seat (6); Two slide rails (8) are fixedly arranged longitudinally below the pusher platform plate (10). The slide rails (8) are arranged perpendicular to the pusher slot (6). Each slide rail (8) is slidably provided with a slider (7). The slider (7) is fixedly arranged on the pusher slot (6). The power output end of the pusher drive assembly (9) is connected to the pusher slot (6). The pusher drive assembly (9) drives the pusher slot (6) to move longitudinally back and forth on the slide rail (8) with the slider (7), thereby driving the pusher plate (1) to move back and forth along the longitudinal long hole on the pusher platform plate (10).
2. The convenient material pushing platform mechanism according to claim 1, characterized in that, The lower outer support plate (4) and the lower inner support plate (5) of the pusher platform are respectively set on both sides of the pusher conversion plate (3). The gap formed between the lower outer support plate (4) and the lower inner support plate (5) of the pusher platform corresponds to the longitudinal long hole on the pusher platform plate (10).
3. The convenient material pushing platform mechanism according to claim 1, characterized in that, Both ends of the lower outer support plate (4) of the pusher are provided with photoelectric sensors (11), and the two photoelectric sensors (11) are used to limit the reciprocating stroke of the slider (7) on the slide rail (8).
4. The convenient material pushing platform mechanism according to claim 1, characterized in that, The structure of the pusher drive assembly (9) is as follows: it includes a drive motor (91), a pusher swing arm (92), and a deep groove ball bearing (93). The body of the drive motor (91) is fixedly installed on the lower side of the pusher platform plate (10). The power output shaft of the drive motor (91) is sleeved and fixed together with one end of the pusher swing arm (92). The other end of the pusher swing arm (92) is movably fitted with a deep groove ball bearing (93). The deep groove ball bearing (93) is located in the U-shaped groove on the lower side of the pusher slot seat (6). The drive motor (91) drives the pusher swing arm (92) to rotate, which drives the deep groove ball bearing (93) to slide in the U-shaped groove of the pusher slot seat (6) and pushes the pusher slot seat (6) to move.
5. The convenient material pushing platform mechanism according to claim 1, characterized in that, The two side panels (2) fit together to form an upwardly flared shape.
6. The convenient material pushing platform mechanism according to claim 1, characterized in that, A material detection bracket (12) is provided on the upper side of the pusher plate (10). The material detection bracket (12) is located on the rear side of the pusher plate (1). A through window (13) is provided on the pusher plate (1). A diffuse reflection switch (14) is provided on the material detection bracket (12). The diffuse reflection switch (14) is positioned opposite the through window (13) and is used to detect whether there is material on the front side of the pusher plate (1).
7. The convenient material pushing platform mechanism according to claim 1, characterized in that, A roller (15) is arranged horizontally on the front side of the pusher platform plate (10), and the upper cylindrical surface of the roller (15) is flush with the upper side surface of the pusher plate (1).
8. The convenient material pushing platform mechanism according to claim 1, characterized in that, An operation panel (16) is provided on one side of the upper end of the pusher platform plate (10), and the operation panel (16) is used to manually control the pusher drive component (9).
9. A convenient material pushing platform mechanism according to claim 1, characterized in that, The pusher platform plate (10) is a frame-type enclosure structure.