A crawling pet entangling hanger assembly device

Abstract

The utility model provides a kind of crawling pet winding hanger assembly device, it is related to pet instrument technical field, comprising: the assembly device of installation main part and hanger installation part, installation main part is equipped with the connecting assembly of detachable connection;Hanger installation part is arranged at installation main part side, contain by lower to upper sequentially arranged first clamping portion and second clamping portion, first clamping portion and second clamping portion can be clamped diameter size different hanger body, the up-down combination design of first clamping portion and second clamping portion, different diameter hanger body can be clamped respectively, the compatibility of multiple specifications hanger is realized, the adaptability and versatility of hanger assembly device are greatly improved.

Description

Technical Field

[0001] This utility model relates to the field of pet equipment technology, and in particular to a reptile entanglement hanger assembly device. Background Technology

[0002] As people's enthusiasm for keeping reptiles such as snakes increases, the pet supplies market is placing higher demands on the functionality and convenience of environmental setup equipment. Especially during the breeding process, reptiles often have habits such as coiling and climbing, so it is necessary to set up hanging structures that simulate the natural environment in the enclosure or display space to provide them with space for activity, rest, and exhibition.

[0003] In the existing technology, pet carriers usually have mounting holes and other components for installing racks. These are fixed in size and can only match racks of a specific diameter. They lack adjustability. If the pet carrier cannot accommodate racks of different diameters, it will be impossible to select a rack with a more suitable diameter according to the size, habits, or growth stage of different reptiles. Utility Model Content

[0004] The purpose of this utility model is to address the defects and deficiencies of the existing technology by providing a reptile pet wrapping rack assembly device, which solves at least one of the above-mentioned technical problems. It has the advantage of avoiding the inability to select a rack specification with a more suitable diameter according to the different sizes, habits or growth stages of different reptiles.

[0005] To achieve the above objectives, this utility model provides a reptile pet wrapping rack assembly device, comprising:

[0006] The main mounting component is equipped with detachable connecting parts;

[0007] The bracket mounting component is located on one side of the mounting body component and includes a first snap-fit ​​part and a second snap-fit ​​part arranged sequentially from bottom to top.

[0008] The first and second snap-fit ​​parts can snap onto hanger bodies of different diameters.

[0009] Optionally, the first snap-fit ​​portion is a first arc-shaped protrusion disposed on one side of the mounting body, and the first arc-shaped protrusion surrounds and forms a first snap-fit ​​space.

[0010] Optionally, the second snap-fit ​​portion includes two second arc-shaped protrusions connected to both ends of the first arc-shaped protrusion, the two second arc-shaped protrusions being symmetrically arranged and enclosing to form a second snap-fit ​​space.

[0011] Optionally, the bracket mounting component includes a third arc-shaped protrusion disposed on the top of two second arc-shaped protrusions, and the two third arc-shaped protrusions are symmetrically arranged and enclose a third snap-fit ​​space.

[0012] Optionally, the first snap-fit ​​space, the second snap-fit ​​space, and the third snap-fit ​​space are respectively used to accommodate hanger bodies of different diameters.

[0013] Optionally, the first arc-shaped protrusion includes a first outward expansion section and a first converging section, the second arc-shaped protrusion includes a second outward expansion section and a second converging section, and the third arc-shaped protrusion includes a third outward expansion section and a third converging section.

[0014] Optionally, the connecting assembly includes a mounting through hole penetrating the mounting body and / or a connecting post disposed on the side of the mounting body away from the bracket mounting member.

[0015] Optionally, the mounting bracket includes an insertion limiting block disposed between the first latching portion and / or the second latching portion.

[0016] Optionally, a plug-in groove is provided on one side of the bracket body. When the bracket body is engaged with the first or second engagement part, the plug-in limiting block will be inserted into the plug-in groove to restrict the relative rotation of the bracket body relative to the mounting body.

[0017] Optionally, the mounting body is disc-shaped with rounded edges, and the mounting through hole is a countersunk through hole.

[0018] Compared with the prior art, the advantages of this application are:

[0019] This utility model provides an assembly device with an installation main body and a hanging bracket mounting component. The installation main body is equipped with a detachable connecting component. The hanging bracket mounting component is located on one side of the installation main body and includes a first snap-fit ​​part and a second snap-fit ​​part arranged sequentially from bottom to top. The first snap-fit ​​part and the second snap-fit ​​part can snap onto hanging bracket bodies of different diameters. The upper and lower combination design of the first snap-fit ​​part and the second snap-fit ​​part can snap onto hanging bracket bodies of different diameters respectively, realizing compatibility with various specifications of hanging brackets and greatly improving the adaptability and versatility of the hanging bracket assembly device. Attached Figure Description

[0020] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the provided drawings without creative effort.

[0021] Figure 1 This is an isometric schematic diagram of an embodiment of the present utility model;

[0022] Figure 2This is a front view of an embodiment of the present utility model;

[0023] Figure 3 This is an isometric view of another embodiment of the present invention;

[0024] Figure 4 This is a top view of an embodiment of the present utility model;

[0025] Figure 5 This is a side view of an embodiment of the present utility model.

[0026] Explanation of reference numerals in the attached figures:

[0027] 100. Install the main components;

[0028] 200. Hanger mounting component; 210. First arc-shaped protrusion; 211. First snap-fit ​​space; 220. Second arc-shaped protrusion; 221. Second snap-fit ​​space; 230. Third arc-shaped protrusion; 231. Third snap-fit ​​space;

[0029] 300. First expansion segment; 301. First convergence segment; 310. Second expansion segment; 311. Second convergence segment; 320. Third expansion segment; 321. Third convergence segment;

[0030] 400. Mounting through hole; 401. Connecting post;

[0031] 500. Insertion limit block. Detailed Implementation

[0032] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0033] It should be noted that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," "back," "side," and "circumferential" used in this utility model to indicate the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. In addition, the terms "first" and "second" are only used to distinguish multiple parts or structures with the same or similar structures, and do not indicate any special limitation on the arrangement order or connection relationship.

[0034] Please refer to Figures 1 to 5 This utility model provides a reptile pet wrapping rack assembly device, including: an assembly device for a mounting main body 100 and a rack mounting component 200. The mounting main body 100 is provided with a detachable connecting component; the rack mounting component 200 is disposed on one side of the mounting main body 100 and includes a first snap-fit ​​part and a second snap-fit ​​part arranged sequentially from bottom to top, the first snap-fit ​​part and the second snap-fit ​​part being able to snap onto rack bodies (not shown in the figure) of different diameters.

[0035] The mounting body 100 refers to the base structure that supports the bracket mounting component 200 and the connecting components. It can be made of injection-molded plastic or stamped metal, providing overall support. The connecting components are the interface structures that allow the mounting body 100 to be assembled and disassembled with other components. The first snap-fit ​​part is a constraint structure located on the bracket mounting component 200, which can be formed by arc-shaped protrusions creating an annular space. Its inner diameter can be set to accommodate brackets with smaller diameters. The second snap-fit ​​part is a constraint structure located above the first snap-fit ​​part, which can be formed by symmetrically distributed protrusions creating an annular space with a larger inner diameter, used to fix brackets with larger diameters.

[0036] This application further proposes that the first snap-fit ​​part is a first arc-shaped protrusion 210 provided on one side of the mounting body 100. The first arc-shaped protrusion 210 surrounds and forms a first snap-fit ​​space 211. The first arc-shaped protrusion 210 refers to a protruding part with a curved arc surface structure. Specifically, it can be integrally formed with the mounting body 100 by injection molding process. By surrounding and forming the first snap-fit ​​space 211, the bracket body can be radially limited to prevent it from falling off after installation.

[0037] Specifically, when the bracket body is pressed into the first snap-fit ​​space 211, the arc surface of the first arc-shaped protrusion 210 contacts the bracket body and undergoes elastic deformation, thereby achieving snap-fit ​​fixation through friction. Since the opening size of the first snap-fit ​​space 211 can be slightly smaller than the diameter of the bracket body, the bracket body can be stably clamped after being snapped in. In some embodiments, the bracket body can be a plastic water pipe.

[0038] Furthermore, the second snap-fit ​​portion includes two second arc-shaped protrusions 220 connected to both ends of the first arc-shaped protrusion 210. The two second arc-shaped protrusions 220 are symmetrically arranged and enclose a second snap-fit ​​space 221. The second arc-shaped protrusion 220 refers to the arc-shaped structure extending from both ends of the first arc-shaped protrusion 210, which can be achieved by injection molding or metal bending process. Its curvature matches that of the first arc-shaped protrusion 210 to form a continuous transition. The second snap-fit ​​space 221 refers to the area enclosed by the two second arc-shaped protrusions 220, which can be achieved by adjusting the spacing and curvature of the second arc-shaped protrusions 220 to accommodate a larger diameter bracket body. The symmetrical arrangement means that the two second arc-shaped protrusions 220 are mirror images of the central axis of the first arc-shaped protrusion 210. Specifically, when the diameter of the bracket body exceeds the fitting range of the first snap-fit ​​space 211, it can be snapped and fixed through the second snap-fit ​​space 221. The symmetrical arrangement of the two second arc-shaped protrusions 220 ensures that the bracket body is subjected to uniform force after being inserted, avoiding detachment or deformation due to stress concentration on one side.

[0039] Furthermore, the mounting bracket 200 includes a third arc-shaped protrusion 230 disposed on top of two second arc-shaped protrusions 220, and the two third arc-shaped protrusions 230 are symmetrically arranged and enclose to form a third snap-fit ​​space 231.

[0040] The third arc-shaped protrusion 230 refers to the arc-shaped structure located on top of the second arc-shaped protrusion 220. Specifically, it can be implemented by an arc-shaped extension integrally formed with the second arc-shaped protrusion 220, used to form a snap-fit ​​space matching the diameter of the third bracket. The third snap-fit ​​space 231 refers to the area formed by the two third arc-shaped protrusions 230. It can be achieved by adjusting the curvature and spacing of the third arc-shaped protrusions 230. Specifically, the third arc-shaped protrusions 230 are symmetrically arranged on top of the second arc-shaped protrusion 220, and the third snap-fit ​​space 231 formed by them can accommodate bracket bodies with a diameter larger than the first snap-fit ​​space 211 and the second snap-fit ​​space 221.

[0041] In this embodiment, the first snap-fit ​​space 211, the second snap-fit ​​space 221, and the third snap-fit ​​space 231 are used to snap-fit ​​bracket bodies of different diameters. The first snap-fit ​​space 211 refers to the space formed by the first arc-shaped protrusion 210 on one side of the mounting body 100. Specifically, it can be achieved by adjusting the arc and spacing of the first arc-shaped protrusion 210. Its function is to provide fixed support for the bracket body with a smaller diameter. The second snap-fit ​​space 221 refers to the space formed by the symmetrical encirclement of two second arc-shaped protrusions 220. Specifically, it can be achieved by changing the height and bending angle of the second arc-shaped protrusions 220. Its function is to provide a suitable snap-fit ​​structure for the bracket body with a medium diameter. The third snap-fit ​​space 231 refers to the space formed by the symmetrical encirclement of two third arc-shaped protrusions 230. Specifically, it can be achieved by increasing the spacing of the third arc-shaped protrusions 230. Its function is to provide a stable installation position for the bracket body with a larger diameter.

[0042] Specifically, the first snap-fit ​​space 211, the second snap-fit ​​space 221, and the third snap-fit ​​space 231 form a stepped adaptability through enclosing structures of different sizes. When a smaller diameter bracket body needs to be installed, the first snap-fit ​​space 211 can be selected for fixation; when a medium or larger diameter bracket body needs to be installed, the second or third snap-fit ​​space 231 can be selected respectively, so that this utility model can be compatible with bracket bodies of various specifications and meet different needs without changing the installation parts.

[0043] Furthermore, the first arc-shaped protrusion 210 includes a first outward expansion section 300 and a first converging section 301, the second arc-shaped protrusion 220 includes a second outward expansion section 310 and a second converging section 311, and the third arc-shaped protrusion 230 includes a third outward expansion section 320 and a third converging section 321.

[0044] The outward expansion section refers to the transition area where the arc-shaped protrusion extends outward, which can be achieved using an involute surface or a circular arc surface. The contraction section refers to the limiting area where the arc-shaped protrusion contracts inward, which can be achieved using a curved structure to form a radial constraint on the hanger body.

[0045] Specifically, when the hanger body is pressed into the snap-fit ​​space, the curved surface of the outward expansion section guides the hanger to slide in axially, while the curved surface of the convergence section undergoes elastic deformation to accommodate the hanger body. Once the hanger is fully inside the snap-fit ​​space, the convergence section clamps the hanger body through structural springback.

[0046] Furthermore, the connecting components include a mounting through hole 400 through the mounting body 100 and / or a connecting post 401 disposed on the side of the mounting body 100 away from the bracket mounting member 200.

[0047] The mounting through hole 400 refers to a hole structure that penetrates the thickness of the mounting body 100. This can be achieved through machining, and its function is to secure the mounting body 100 to the pet carrier using fasteners such as bolts or screws. The connecting post 401 refers to a columnar protrusion extending outward from the surface of the mounting body 100. This can be achieved through injection molding or welding, and its function is to form a plug-in connection with external mounting components, enabling quick assembly and disassembly.

[0048] Specifically, the mounting through hole 400 allows bolts or screws of different sizes to pass through, enabling the mounting body 100 to adapt to various types of fasteners. The connecting post 401, through its protruding structure, can form a plug-in connection with the external mounting base. Together, these provide at least two connection methods for the mounting body 100. When fixed installation is required, the mounting through hole 400 can be used with bolts to achieve a rigid connection; when quick disassembly and assembly are required, the connecting post 401 can be used with the corresponding slot to achieve a snap-fit ​​connection. These two connection methods can be used individually or in combination.

[0049] Furthermore, the mounting bracket 200 includes an insertion limiting block 500 disposed between the first and / or second snap-fit ​​portions. The insertion limiting block 500 is a protruding structure fixed between the snap-fit ​​portions, which can be a rectangular or trapezoidal block structure, and its height can match the depth of the insertion groove (not shown in the figure) of the mounting bracket body. Specifically, when the mounting bracket body is snapped into the first or second snap-fit ​​portion, the insertion limiting block 500 will embed into the insertion groove on the side wall of the mounting bracket body. Because the shape of the insertion groove and the insertion limiting block 500 forms a rotational limiting fit, the mounting bracket body cannot rotate freely around its axis, thereby preventing relative rotation between the mounting bracket body and the mounting main body 100 due to pet entanglement.

[0050] Furthermore, the mounting body 100 is disc-shaped with rounded edges, and the mounting through hole 400 is a countersunk through hole. The disc-shaped mounting body 100 refers to a main structure with a circular outline, which can be manufactured using injection molding. The rounded edges refer to the arc-shaped transition treatment of the perimeter of the body to eliminate sharp edges. The countersunk through hole is a hole structure that penetrates the body, with a tapered flare at the top to accommodate the screw head and achieve flush mounting. Specifically, the disc-shaped body provides uniform support force distribution through a symmetrical structure, avoiding local stress concentration. The rounded edge design prevents damage from collisions during pet activity. The countersunk through hole, with its tapered flare structure, allows the connecting screw head to be embedded in the hole, avoiding exposed structures that interfere with the installation of the hanger or pose a risk of scratching the pet.

[0051] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the substance of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.

Claims

1. A reptile pet wrapping rack assembly device, characterized in that, include: The main mounting component (100) is provided with a detachable connecting assembly; The bracket mounting component (200) is disposed on one side of the mounting body component (100) and includes a first snap-fit ​​part and a second snap-fit ​​part arranged sequentially from bottom to top; The first and second snap-fit ​​parts can snap onto hanger bodies of different diameters.

2. The reptile pet wrapping rack assembly device as described in claim 1, characterized in that, The first snap-fit ​​portion is a first arc-shaped protrusion (210) disposed on one side of the mounting body (100), and the first arc-shaped protrusion (210) surrounds and forms a first snap-fit ​​space (211).

3. The reptile pet wrapping rack assembly device as described in claim 2, characterized in that, The second snap-fit ​​portion includes two second arc-shaped protrusions (220) connected to both ends of the first arc-shaped protrusion (210). The two second arc-shaped protrusions (220) are symmetrically arranged and enclose to form a second snap-fit ​​space (221).

4. The reptile entanglement rack assembly device as described in claim 3, characterized in that, The bracket mounting component (200) includes a third arc-shaped protrusion (230) disposed on the top of two second arc-shaped protrusions (220), and the two third arc-shaped protrusions (230) are symmetrically arranged and enclose to form a third snap-fit ​​space (231).

5. The reptile pet wrapping rack assembly device as described in claim 4, characterized in that, The first snap-fit ​​space (211), the second snap-fit ​​space (221) and the third snap-fit ​​space (231) are respectively used to accommodate hanger bodies with different diameters.

6. The reptile pet wrapping rack assembly device as described in claim 5, characterized in that, The first arc-shaped protrusion (210) includes a first outward expansion section (300) and a first convergence section (301), the second arc-shaped protrusion (220) includes a second outward expansion section (310) and a second convergence section (311), and the third arc-shaped protrusion (230) includes a third outward expansion section (320) and a third convergence section (321).

7. The reptile pet wrapping rack assembly device as described in claim 1, characterized in that, The connection assembly includes a mounting through hole (400) through the mounting body (100) and / or a connecting post (401) disposed on the side of the mounting body (100) away from the hanger mounting member (200).

8. The reptile pet wrapping rack assembly device as described in claim 1, characterized in that, The bracket mounting component (200) includes a plug-in limiting block (500) disposed between the first snap-fit ​​portion and / or the second snap-fit ​​portion.

9. The reptile pet wrapping rack assembly device as described in claim 8, characterized in that, A plug-in groove is provided on one side of the bracket body. When the bracket body is snapped into the first snap-in part or the second snap-in part, the plug-in limiting block (500) will be inserted into the plug-in groove to restrict the relative rotation of the bracket body relative to the mounting body (100).

10. The reptile pet wrapping rack assembly device as described in claim 7, characterized in that, The mounting body (100) is disc-shaped with rounded edges, and the mounting through hole (400) is a countersunk through hole.

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