A toy part quantitative automatic packaging machine

The design of the rotating shaft, feeding plate and rotating disk solves the problems of intermittent quantitative feeding and rotating material receiving in the automatic quantitative packaging machine for toy parts, thus improving the packaging and feeding efficiency.

CN224349207UActive Publication Date: 2026-06-12YUNHE ZHEYI TOYS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YUNHE ZHEYI TOYS CO LTD
Filing Date
2025-08-04
Publication Date
2026-06-12

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    Figure CN224349207U_ABST
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Abstract

This utility model relates to an automatic quantitative packaging machine for toy parts, comprising a base, a side plate bolted to the top of the base near the left side, a U-shaped plate bolted to the top of the side plate, rotating rollers movably connected to the U-shaped plate near the left and right sides via rotating shafts and bearings respectively, and a drive motor bolted to the front wall of the U-shaped plate near the left side. The front end of the rotating shaft on the front wall of the left rotating roller passes through the inner ring of the bearing and connects to the output shaft of the drive motor. A conveyor belt drives between the two rotating rollers. This technical solution, through the cooperation of components such as the rotating shaft, feeding plate, rotating disk, and guide tube, enables intermittent quantitative feeding, thereby achieving effective and uniform packaging, improving packaging efficiency and utilization efficiency, and enabling effective rotating material receiving, thereby achieving continuous and uniform feeding and receiving, improving feeding and receiving efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of toy parts technology, specifically to an automatic quantitative packaging machine for toy parts. Background Technology

[0002] An automatic quantitative packaging machine for toy parts is a specialized device that uses automatic counting or weighing technology to accurately package small toy parts (such as building blocks, screws, and assembly parts) into bags according to a preset quantity. However, existing automatic quantitative packaging machines for toy parts cannot perform intermittent quantitative feeding, thus preventing effective and uniform packaging, reducing their packaging and usage efficiency. Furthermore, they cannot perform effective rotating material receiving, preventing continuous and uniform feeding and receiving, further reducing their feeding and receiving efficiency. Therefore, we propose an automatic quantitative packaging machine for toy parts. Utility Model Content

[0003] To address the shortcomings of existing technologies, this application proposes an automatic quantitative packaging machine for toy parts, which can perform intermittent quantitative feeding, thereby enabling effective and uniform packaging and improving its packaging efficiency and usage efficiency.

[0004] This utility model provides the following technical solution: an automatic quantitative packaging machine for toy parts, including a base, a side plate connected to the top of the base near the left side by bolts, a U-shaped plate connected to the top of the side plate by bolts, rotating rollers movably connected to the inside of the U-shaped plate near the left and right sides by rotating shafts and bearings respectively, a drive motor connected to the front wall of the U-shaped plate near the left side by bolts, the front end of the rotating shaft on the front wall of the rotating roller on the left side passes through the inner ring of the bearing and is connected to the output shaft of the drive motor, and a conveyor belt is connected between the two rotating rollers.

[0005] As a preferred embodiment of this utility model, a circular shell is connected to the right side of the U-shaped plate, and a circular cover is bolted to the top of the circular shell. A guide port is provided at the bottom of the inner cavity of the circular shell near the right side.

[0006] As a preferred embodiment of this utility model, the bottom of the round cover is movably connected to a rotating shaft via a pivot and a bearing. Several evenly distributed feeding plates are bolted to the outside of the rotating shaft. The top of the round cover is bolted to a geared motor. The top of the rotating shaft passes through the inner ring of the bearing and is connected to the output shaft of the geared motor.

[0007] As a preferred embodiment of this utility model, a guide tube is bolted to the bottom of the circular shell near the right side, and the guide tube corresponds to the guide port.

[0008] As a preferred embodiment of this utility model, a rotating disk is movably connected to the top of the base near the right side via a rotating shaft and bearings, and several evenly distributed packaging boxes are connected to the top of the rotating disk.

[0009] As a preferred embodiment of this utility model, a deflection motor is bolted to the bottom of the base near the right side, and the bottom end of the rotating shaft on the bottom of the rotating disk passes through the inner ring of the bearing and is connected to the output shaft of the deflection motor. Several evenly distributed support plates are bolted to the bottom of the base.

[0010] As a preferred embodiment of this utility model, a collection box is bolted to the top of the base near the left side, a box cover is bolted to the top of the collection box, a vacuum cleaner is bolted to the top of the box cover, an L-shaped tube is fitted to the right dust inlet of the vacuum cleaner, the top end of the L-shaped tube is connected to the inside of the circular shell, a dust guide tube is fitted to the bottom dust outlet of the vacuum cleaner, and an insertion hole matching the dust guide tube is provided on the top of the box cover.

[0011] The beneficial effects of this utility model are: through the cooperation between components such as the rotating shaft, feeding plate, rotating disk and guiding tube, this technical solution enables intermittent quantitative feeding, thereby enabling effective and uniform packaging, improving packaging efficiency and usage efficiency, and enabling effective rotating material receiving, thereby enabling continuous and uniform feeding and receiving, improving feeding and receiving efficiency. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0013] Figure 2 for Figure 1 A three-dimensional view viewed from below;

[0014] Figure 3 for Figure 1 Partial 3D view of components such as the medium-sized circular shell and the feed inlet;

[0015] Figure 4 for Figure 1 Partial 3D view of components such as the central rotating shaft and the feeding plate;

[0016] Figure 5 for Figure 1 Partial 3D view of components such as the central rotating disk;

[0017] Figure 6 for Figure 1 Partial 3D view of components such as the middle box cover and dust guide tube.

[0018] Figure 1-6Components: 1. Base; 2. Support plate; 3. Deflection motor; 4. L-shaped tube; 5. Vacuum cleaner; 6. Collection box; 7. Box lid; 8. Side plate; 9. Drive motor; 10. Dust guide tube; 11. Conveyor belt; 12. U-shaped plate; 13. Gear motor; 14. Round cover; 15. Round shell; 16. Guide tube; 17. Packaging box; 18. Rotary disc; 19. Rotating roller; 20. Rotating shaft; 21. Material feeding plate; 22. Material guide port. Detailed Implementation

[0019] To make the technical problems solved by this utility model, the technical solutions adopted, and the technical effects achieved clearer, the technical solutions of the embodiments of this utility model will be further described in detail below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0020] Example

[0021] like Figures 1 to 6 As shown, an automatic quantitative packaging machine for toy parts includes: a base 1, a side plate 8 bolted to the top of the base 1 near the left side, a U-shaped plate 12 bolted to the top of the side plate 8, rotating rollers 19 movably connected to the inside of the U-shaped plate 12 near the left and right sides respectively via rotating shafts and bearings, a drive motor 9 bolted to the front wall of the U-shaped plate 12 near the left side, the front end of the rotating shaft on the front wall of the left rotating roller 19 passes through the inner ring of the bearing and is connected to the output shaft of the drive motor 9, and a conveyor belt 11 is connected between the two rotating rollers 19.

[0022] A circular shell 15 is connected to the right side of the U-shaped plate 12. A circular cover 14 is bolted to the top of the circular shell 15. A guide port 22 is provided at the bottom of the inner cavity of the circular shell 15 near the right side.

[0023] In this embodiment, it is able to perform intermittent quantitative feeding, thereby enabling effective and uniform packaging, improving its packaging efficiency and usage efficiency.

[0024] The bottom of the round cover 14 is movably connected to a rotating shaft 20 via a pivot and bearing. Several evenly distributed feeding plates 21 are bolted to the outside of the rotating shaft 20. The top of the round cover 14 is bolted to a geared motor 13. The top of the rotating shaft 20 passes through the inner ring of the bearing and is connected to the output shaft of the geared motor 13. The bottom of the round housing 15 is bolted to a guide tube 16 near the right side, and the guide tube 16 corresponds to the guide port 22. The top of the base 1 is movably connected to a rotating disk 18 near the right side via a pivot and bearing. Several evenly distributed packaging boxes 17 are connected to the top of the rotating disk 18.

[0025] A deflection motor 3 is bolted to the bottom right side of the base 1. The bottom end of the rotating shaft on the bottom of the rotating disk 18 passes through the inner ring of the bearing and is connected to the output shaft of the deflection motor 3. Several evenly distributed support plates 2 are bolted to the bottom of the base 1. A collection box 6 is bolted to the top left side of the base 1. A box cover 7 is bolted to the top of the collection box 6. A vacuum cleaner 5 is bolted to the top of the box cover 7. An L-shaped tube 4 is fitted into the dust inlet on the right side of the vacuum cleaner 5. The top end of the L-shaped tube 4 is connected to the inside of the circular shell 15. A dust guide tube 10 is fitted into the dust outlet at the bottom of the vacuum cleaner 5. An insertion hole matching the dust guide tube 10 is opened on the top of the box cover 7.

[0026] Implementation plan: This enables it to rotate and receive materials effectively, thereby allowing for continuous and uniform material feeding and receiving, thus improving its feeding and receiving efficiency.

[0027] Working Principle: In use, this technical solution first drives the motor 9 to rotate the rotating roller 19 and the conveyor belt 11 to transport toy parts into the circular shell 15. The reduction motor 13 drives several material feeding plates 21 to rotate through the rotating shaft 20. Then, the vacuum cleaner 5 sucks up the dust in the circular shell 15 through the L-shaped tube 4 and guides the dust into the collection box 6 through the dust guide tube 10. Removing the box cover 7 and the collection box 6 allows for convenient cleaning. The adjacent material feeding plates 21 guide the toy parts into the packaging box through the guide port 22 and the guide tube 16, enabling intermittent quantitative material feeding, thus achieving effective and uniform packaging and improving packaging and usage efficiency. The deflection motor 3 drives the rotating disk 18 to rotate and switch between several packaging boxes 17, enabling effective rotation and receiving of materials, thus achieving continuous and uniform material feeding and receiving, improving material feeding and receiving efficiency.

[0028] Although preferred embodiments of the present invention have been described, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of the present invention.

[0029] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.

Claims

1. An automatic quantitative packaging machine for toy parts, characterized in that, The base (1) is attached to a side plate (8) by bolts to the top of the base (1) near the left side. A U-shaped plate (12) is attached to the top of the side plate (8) by bolts. Rotating rollers (19) are movably connected to the inside of the U-shaped plate (12) near the left and right sides by rotating shafts and bearings, respectively. A drive motor (9) is attached to the front wall of the U-shaped plate (12) near the left side by bolts. The front end of the rotating shaft on the front wall of the rotating roller (19) on the left side passes through the inner ring of the bearing and is connected to the output shaft of the drive motor (9). A conveyor belt (11) is connected between the two rotating rollers (19).

2. The automatic quantitative packaging machine for toy parts according to claim 1, characterized in that, The right side of the U-shaped plate (12) is connected to a circular shell (15), and the top of the circular shell (15) is connected to a round cover (14) by bolts. A guide port (22) is opened at the bottom of the inner cavity of the circular shell (15) near the right side.

3. The automatic quantitative packaging machine for toy parts according to claim 2, characterized in that, The bottom of the round cover (14) is movably connected to a rotating shaft (20) via a rotating shaft and a bearing. Several evenly distributed feeding plates (21) are bolted to the outside of the rotating shaft (20). The top of the round cover (14) is bolted to a geared motor (13). The top of the rotating shaft (20) passes through the inner ring of the bearing and is connected to the output shaft of the geared motor (13).

4. The automatic quantitative packaging machine for toy parts according to claim 2, characterized in that, The bottom of the circular shell (15) is connected to a guide tube (16) by bolts near the right side, and the guide tube (16) corresponds to the guide port (22).

5. The automatic quantitative packaging machine for toy parts according to claim 1, characterized in that, The top of the base (1) is connected to a rotating disk (18) via a shaft and bearing near the right side. Several evenly distributed packaging boxes (17) are connected to the top of the rotating disk (18).

6. The automatic quantitative packaging machine for toy parts according to claim 5, characterized in that, The base (1) is connected to a deflection motor (3) by bolts at the bottom near the right side. The bottom end of the rotating shaft on the bottom of the rotating disk (18) passes through the inner ring of the bearing and is connected to the output shaft of the deflection motor (3). The bottom of the base (1) is connected to several evenly distributed support plates (2) by bolts.

7. The automatic quantitative packaging machine for toy parts according to claim 1, characterized in that, The top of the base (1) is connected to a collection box (6) near the left side by bolts. The top of the collection box (6) is connected to a box cover (7) by bolts. The top of the box cover (7) is connected to a vacuum cleaner (5) by bolts. The right dust inlet of the vacuum cleaner (5) is fitted with an L-shaped tube (4). The top end of the L-shaped tube (4) is connected to the inside of the circular shell (15). The bottom dust outlet of the vacuum cleaner (5) is fitted with a dust guide tube (10). The top of the box cover (7) has a matching insertion hole for the dust guide tube (10).