A self-riveting scoop

By integrating the handle with the first rivet and using a triangular support structure for the connecting parts, the problem of easy damage in existing scoop riveting structures is solved, achieving higher stability and assembly efficiency.

CN224441279UActive Publication Date: 2026-07-03田立志

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
田立志
Filing Date
2025-06-17
Publication Date
2026-07-03

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  • Figure CN224441279U_ABST
    Figure CN224441279U_ABST
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Abstract

This utility model discloses a dustpan with built-in rivets, including a dustpan box and a handle. The handle has an integrally connected first rivet, and the dustpan box is provided with a first rivet hole that matches the first rivet. The handle is riveted and fixed to the dustpan box by the first rivet and the first rivet hole. In this way, the integrated design of the handle and the first rivet allows the dustpan box to pass through the first rivet and be riveted and fixed, thereby completing the assembly connection between the handle and the dustpan box. This avoids the first rivet from coming loose, ensuring the stability of the product. Furthermore, it eliminates the need for the traditional rivet to be aligned with the rivet holes of the handle and dustpan box for riveting operations, improving the assembly efficiency of the product. The structure is ingenious and reasonable, simple to operate, easy to assemble, highly usable, and widely applicable.
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Description

Technical Field

[0001] This utility model relates to the field of dustpan technology, and in particular to a dustpan with built-in rivets. Background Technology

[0002] As we all know, dustpans are an integral part of the daily lives of every urban and rural household, and they are still used to sweep up garbage on pedestrian roads, streets, residential areas, government offices, and squares throughout the country. Currently, some dustpans are made of wood or plastic, which are easily damaged over time. Traditional metal dustpans, due to their simple welding or hinged rotating connection structure, are also prone to damage at the welded joints after prolonged use, or the hinges may fall off after frequent use, rendering the entire dustpan unusable and resulting in a very short lifespan.

[0003] Existing dustpans typically use riveting to fix the dustpan box and handle together. However, during the riveting process, the area around the rivet holes on the handle can deform severely due to the riveting force, sometimes causing the rivet holes to break outwards. This can lead to rivet detachment, resulting in unstable product use. Furthermore, when riveting, it is necessary to ensure that the rivet holes on the handle and the dustpan box are aligned before inserting the rivet, resulting in low production efficiency and poor usability.

[0004] Therefore, a new technical solution needs to be researched to address the above problems. Utility Model Content

[0005] In view of this, the present invention addresses the deficiencies of the existing technology and its main purpose is to provide a dustpan with a built-in rivet. Through the integrated design of the handle and the first rivet, the dustpan is riveted and fixed after passing through the first rivet, thereby completing the assembly connection between the handle and the dustpan. This avoids the phenomenon of the first rivet coming loose and eliminates the need for the traditional rivet to be aligned with the rivet holes of the handle and the dustpan for riveting operation, thereby improving the assembly efficiency of the product and having a wide range of applications.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A dustpan with built-in rivets includes a dustpan box and a handle. The handle has an integrally connected first rivet, and the dustpan box is provided with a first rivet hole that matches the first rivet. The handle is riveted and fixed to the dustpan box by the first rivet and the first rivet hole.

[0008] As a preferred embodiment, the device also includes a support connector, which has an inverted V-shaped structure. The lower part of the handle is provided with a contact end for contacting the support connector. The upper end of the support connector contacts and is positioned with the contact end of the handle and is arranged obliquely. The support connector and the handle form a triangular support structure.

[0009] As a preferred embodiment, the support connector includes two obliquely extending and oppositely arranged oblique rods, each with an integrally connected second rivet at its lower end. The hopper box has two second rivet holes for matching the second rivets, with the two second rivet holes respectively located on the left and right sides of the hopper box. The first rivet hole is located on the rear side of the hopper box. The support connector is riveted and fixed to the hopper box by the second rivets and the second rivet holes.

[0010] As a preferred embodiment, the handle includes a handle portion and a connecting rod. The connecting rod extends vertically, the handle portion is located at the upper end of the connecting rod, and the lower end of the connecting rod has a first extension portion extending obliquely downward and backward. The lower end of the first extension portion has a vertically extending first connecting edge, the first rivet is located on the first connecting edge, and the contact end is formed between the connecting rod and the first extension portion.

[0011] As a preferred embodiment, the lower end of the diagonal bar has a downwardly extending second extension, the second extension having a second connecting edge, and the second rivet being disposed on the second connecting edge.

[0012] As a preferred embodiment, the bottom of the hopper is a flat plate structure or an arc-shaped structure.

[0013] Compared with the prior art, this utility model has obvious advantages and beneficial effects. Specifically, as can be seen from the above technical solution, it mainly uses the integrated design of the handle and the first rivet to make the swivel box pass through the first rivet and be riveted and fixed, thereby completing the assembly connection between the handle and the swivel box. This avoids the first rivet from coming off, ensuring the stability of the product. In addition, it eliminates the need for the traditional rivet to be aligned with the rivet holes of the handle and the swivel box for riveting operation, improving the assembly efficiency of the product. The structure is ingenious and reasonable, simple to operate, easy to assemble, has good usability, and a wide range of applications.

[0014] Furthermore, the design of the support connector utilizes the contact end of the handle to form a triangular support structure with the upper end of the support connector, which improves the overall structural strength of the product and thus enhances its stability and practicality. At the same time, the integrated connection between the support connector and the second rivet prevents the second rivet of the support connector from coming loose in the drawer, ensuring the use of the support connector and thus guaranteeing the normal use of the product and its excellent usability.

[0015] To more clearly illustrate the structural features and effects of this utility model, the following detailed description of this utility model is provided in conjunction with the accompanying drawings and specific embodiments. Attached Figure Description

[0016] Figure 1This is a perspective view of an embodiment of the present utility model;

[0017] Figure 2 This is an exploded view of an embodiment of the present utility model;

[0018] Figure 3 This is a cross-sectional view of an embodiment of the present utility model;

[0019] Figure 4 yes Figure 3 A magnified view of a portion of position A in the diagram.

[0020] Explanation of reference numerals in the attached diagram:

[0021] 10. Squeezing box; 11. First rivet hole

[0022] 12. Second rivet hole 20. Handle

[0023] 21. First rivet 22. Contact end

[0024] 23. Handle 24. Connecting rod

[0025] 241. First extension; 242. First connecting edge

[0026] 30. Support connector 31. Diagonal rod

[0027] 311. Second extension; 312. Second connecting edge

[0028] 32. Second rivet. Detailed Implementation

[0029] Please refer to Figures 1 to 4 As shown, it illustrates the specific structure of an embodiment of the present invention.

[0030] A dustpan with integrated rivets includes a dustpan box 10 and a handle 20. The handle 20 has an integrally connected first rivet 21. The dustpan box 10 is provided with a first rivet hole 11 that matches the first rivet. The handle 20 is riveted and fixed to the dustpan box 10 through the first rivet 21 and the first rivet hole 11. Preferably, the bottom of the dustpan box 10 is a flat or arc-shaped structure. In this way, the integrated design of the handle and the first rivet allows the dustpan box to pass through the first rivet and be riveted and fixed, thereby completing the assembly connection between the handle and the dustpan box. This avoids the first rivet from coming loose, ensuring the stability of the product. Furthermore, it eliminates the need for the traditional rivet to be aligned with the rivet holes of the handle and dustpan box for riveting operations, improving the assembly efficiency of the product. The structure is ingenious and reasonable, simple to operate, easy to assemble, highly usable, and widely applicable.

[0031] It also includes a support connector 30, which has an inverted V-shaped structure. The lower part of the handle 20 is provided with a contact end 22 for contacting the support connector. The upper end of the support connector 30 contacts and is positioned with the contact end of the handle and is arranged obliquely. The support connector 30 and the handle 20 form a triangular support structure.

[0032] Specifically, the support connector 30 includes two obliquely extending and oppositely arranged oblique rods 31. The lower ends of both oblique rods 31 are integrally connected with second rivets 32. The hopper box 10 is provided with two second rivet holes 12 for matching the second rivets. The two second rivet holes 12 are respectively located on the left and right sides of the hopper box 10, and the first rivet hole 11 is located on the rear side of the hopper box 10. The support connector 30 is riveted and fixed to the second rivet holes 12 of the hopper box 10 by the second rivets 32. In this embodiment, the first rivet... The outer diameter of rivet 21 is smaller than that of the first riveting hole 11, and the outer diameter of the second rivet 32 ​​is smaller than that of the second riveting hole 12. In this way, the setting of the support connector utilizes the contact end of the handle to contact the upper end of the support connector and form a triangular support structure, which improves the overall structural strength of the product, thereby improving the product's stability and practicality. At the same time, the integrated connection between the support connector and the second rivet avoids the second rivet of the support connector from coming loose in the drawer, ensuring the use of the support connector and thus ensuring the normal use of the product, resulting in excellent usability.

[0033] Furthermore, the handle 20 includes a handle portion 23 and a connecting rod 24. The connecting rod 24 extends vertically, and the handle portion 23 is located at the upper end of the connecting rod 24. The lower end of the connecting rod 24 has a first extension portion 241 extending obliquely downwards and backwards. The lower end of the first extension portion 241 has a vertically extending first connecting edge 242. The first rivet 21 is located on the first connecting edge 242, and the contact end 22 is formed between the connecting rod 24 and the first extension portion 241. Additionally, the lower end of the oblique rod 31 has a downwardly extending second extension portion 311. The second extension portion 311 has a second connecting edge 312, and the second rivet 32 ​​is located on the second connecting edge 312. Preferably, two first rivets 21 are arranged vertically on the first connecting edge 242, and correspondingly, two first riveting holes 11 are arranged vertically on the first connecting edge 242.

[0034] Preferably, the handle 20, the first rivet 21, the support connector 30, and the second rivet 32 ​​are all forged parts, or the handle 20, the first rivet 21, the support connector 30, and the second rivet 32 ​​are all integrally formed by injection molding.

[0035] The key design feature of this utility model is that it integrates the handle and the first rivet into one piece, allowing the spool box to pass through the first rivet and be riveted in place, thus completing the assembly connection between the handle and the spool box. This avoids the first rivet coming loose, ensuring the stability of the product. Furthermore, it eliminates the need for the traditional rivet to be aligned with the rivet holes of the handle and spool box for riveting, improving the assembly efficiency of the product. The structure is ingenious and reasonable, simple to operate, easy to assemble, highly usable, and widely applicable.

[0036] Furthermore, the design of the support connector utilizes the contact end of the handle to form a triangular support structure with the upper end of the support connector, which improves the overall structural strength of the product and thus enhances its stability and practicality. At the same time, the integrated connection between the support connector and the second rivet prevents the second rivet of the support connector from coming loose in the drawer, ensuring the use of the support connector and thus guaranteeing the normal use of the product and its excellent usability.

[0037] The above description is merely a preferred embodiment of the present utility model and does not constitute any limitation on the technical scope of the present utility model. Therefore, any minor modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present utility model shall still fall within the scope of the technical solution of the present utility model.

Claims

1. A rivet carrier, characterized by: It includes a drawer and a handle. The handle has an integrally connected first rivet. The drawer has a first rivet hole that matches the first rivet. The handle is riveted and fixed to the drawer by the first rivet and the first rivet hole.

2. The self-nipple scoop according to claim 1, wherein: It also includes a support connector, which has an inverted V-shaped structure. The lower part of the handle is provided with a contact end for contacting the support connector. The upper end of the support connector contacts and is positioned with the contact end of the handle and is arranged obliquely. The support connector and the handle form a triangular support structure.

3. The self-nipple scoop according to claim 2, wherein: The support connector includes two obliquely extending and oppositely arranged diagonal rods, each with an integrally connected second rivet at its lower end. The hopper box has two second rivet holes for matching the second rivets. The two second rivet holes are respectively located on the left and right sides of the hopper box, and the first rivet hole is located on the rear side of the hopper box. The support connector is riveted and fixed to the hopper box by the second rivets and the second rivet holes.

4. The self-nipple scoop according to claim 3, wherein: The handle includes a handle portion and a connecting rod. The connecting rod extends vertically. The handle portion is located at the upper end of the connecting rod. The lower end of the connecting rod has a first extension portion that extends obliquely downward and backward. The lower end of the first extension portion has a vertically extending first connecting edge. The first rivet is located on the first connecting edge. The contact end is formed between the connecting rod and the first extension portion.

5. The self-nipple scoop according to claim 3, wherein: The lower end of the diagonal bar has a downwardly extending second extension, the second extension having a second connecting edge, and the second rivet being disposed on the second connecting edge.

6. The self-nipple scoop according to claim 1, wherein: The bottom of the hopper is a flat or curved structure.