CN216934692U

CN216934692U - Toy dinosaur

Info

Publication number: CN216934692U
Application number: CN202122679736.4U
Authority: CN
Inventors: 王婵吟
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-03
Filing date: 2021-11-03
Publication date: 2022-07-12
Anticipated expiration: 2031-11-03

Abstract

The utility model discloses a toy dinosaur, which relates to the technical field of toys and comprises a framework and a shell assembly, wherein the framework is provided with a positioning hole; the shell component comprises a body shell and a leg shell, wherein the body shell is provided with a positioning bulge, the leg shell is provided with a limiting convex wall and a positioning column, and the limiting convex wall surrounds a limiting groove on the leg shell; when the body shell is used for covering the framework, the positioning bulge part is clamped with the framework; the leg shell is used for covering the framework, so that the framework is partially abutted against the groove wall of the limiting groove, and the alignment column is inserted into the alignment hole. The shell assembly which is matched with the framework and can be detached is arranged outside the framework, so that the operation ability of a young user can be improved through disassembly and assembly, and meanwhile, the young user can observe the simulation framework of the dinosaur in the disassembly and assembly process and has certain biological enlightenment; secondly, through the setting of spacing convex wall, counterpoint post and spacing groove, can prevent effectively that body shell and leg shell from droing from the skeleton, improved the connection reliability between skeleton and the shell subassembly.

Description

Toy dinosaur

Technical Field

The utility model relates to the technical field of toys, in particular to a toy dinosaur.

Background

The toy dinosaur is a toy manufactured by imitating the dinosaur in appearance, and is deeply loved by young users due to the characteristic of high similarity of the shape and the dinosaur.

However, the existing toy dinosaur still has certain disadvantages:

firstly, part of the toy dinosaurs are integrally injection-molded by using soft rubber materials, and the toy dinosaurs with different visual effects are molded by using the soft rubber materials with different molding effects or mixing various materials into rubber materials, so that the toy dinosaurs are poor in playability for young users, only the young users can identify the appearance of the dinosaurs more three-dimensionally, the internal skeleton structure of the dinosaurs cannot be presented in a three-dimensional manner, and the enlightenment of the toy dinosaurs is very limited;

second, also there is some toy dinosaur to adopt the components of a whole that can function independently preparation, adopts the mode cooperation of magnetism to inhale between each components of a whole that can function independently part, and the complex compound mode is inhaled to components of a whole that can function independently design and magnetism, though has the convenient advantage of dismantlement, but, the cooperation position takes place the separation very easily in the use to each magnetism on the toy dinosaur, and the connection reliability between the components of a whole that can function independently position is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a toy dinosaur which is high in enlightenment and high in connection reliability between split parts.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the application provides a toy dinosaur, which comprises a framework and a shell assembly, wherein the framework is provided with alignment holes; the shell component comprises a body shell and leg shells, at least one positioning bulge is arranged on the body shell, a limiting convex wall and a positioning column are arranged on the leg shells, and a limiting groove is formed by the limiting convex wall on each leg shell in a surrounding manner;

the body shell is used for covering the framework so that the at least one positioning bulge is clamped with the framework;

when the leg shell is used for covering the framework, the part of the framework is abutted with the groove wall of the limiting groove, and the alignment column is inserted into the alignment hole.

In some embodiments, the skeleton comprises a skeleton body and bone limbs detachably arranged on the skeleton body; the alignment holes are positioned on the bone limbs;

the body shell is provided with a first contour groove for accommodating the bone body, the at least one positioning bulge is positioned in the first contour groove, and the at least one positioning bulge is used for being clamped with the bone body;

the leg shell is provided with a second contour groove for accommodating the bone limb, the limiting convex wall is positioned in the second contour groove, and the groove wall of the limiting groove is used for abutting against the bone limb.

In some embodiments, the skeleton further comprises bone claws;

one end of the bone limb is provided with a first installation part, the other end of the bone limb is provided with a second installation part, the first installation part is detachably inserted into the bone body, and the second installation part is detachably inserted into the bone claw.

In some embodiments, the housing assembly further comprises a covering shell provided with a fool-proof post, the leg shell is provided with a fool-proof hole,

the fool-proof column is inserted into the fool-proof hole, so that the leg shell and the cladding shell jointly enclose an accommodating cavity, and the accommodating cavity is used for accommodating the bone limb.

In some embodiments, the toy dinosaur further comprises a head assembly including a lower jaw portion disposed on the skeletal frame and a upper jaw portion rotatably disposed on the lower jaw portion.

In some embodiments, the head assembly further comprises a head shell and a corner;

the skull is used for covering and is located on the maxilla portion, bight detachably set up in the maxilla portion to make the skull be spacing in the maxilla portion with between the skull.

In some embodiments, the head assembly further comprises a skull shell provided with a fixing part, and the maxilla part is provided with a fixing groove;

the fixing part is detachably inserted into the fixing groove, so that the skull shell is propped against the part of the upper jaw part.

In some embodiments, a caudal vertebra clamping part is arranged on the body shell, and a caudal vertebra is arranged on the framework; the caudal vertebra clamping part is used for clamping the caudal vertebra.

In some embodiments, the caudal vertebra is provided with a convex column, and the convex column is detachably inserted into the framework.

In some embodiments, the backbone is an axisymmetric structure.

The toy dinosaur has the following beneficial effects:

according to the toy dinosaur, the shell assembly which is matched with the framework and can be detached is arranged outside the framework, so that on one hand, a young user can improve the operation ability through dismounting, on the other hand, the young user can observe the simulated framework of the dinosaur in the dismounting process, and the toy dinosaur has certain biological enlightenment; secondly, through the setting of spacing convex wall, counterpoint post and spacing groove, can prevent effectively that body shell and leg shell from droing from the skeleton, improved the connection reliability between skeleton and the shell subassembly.

Drawings

The utility model will be further described with reference to the following drawings and examples, in which:

FIG. 1 is a schematic structural view of a dinosaur toy according to a preferred embodiment of the present invention;

fig. 2 is an exploded view of the toy dinosaur of fig. 1;

fig. 3 is a schematic view of a portion of the toy dinosaur of fig. 2;

fig. 4 is a schematic structural view of the bone limbs, the leg shells and the covering shells of the toy dinosaur in accordance with a preferred embodiment of the present invention;

fig. 5 is a partial schematic structural view of a head assembly of the dinosaur toy of fig. 2.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Fig. 1 and 2 show a toy dinosaur 10 in some preferred embodiments of the present invention, the toy dinosaur 10 may include a skeletal frame 1, a housing assembly 2, and a head assembly 3. The shape of the skeleton 1 is configured to resemble the skeletal structure of a dinosaur, which serves to mount the stationary housing assembly 2 and the head assembly 3. The housing assembly 2 is detachably arranged on the skeleton 1 and functions to cover the skeleton 1 to improve the simulation of the toy dinosaur 10. The head assembly 3 is shaped to resemble the structure of a dinosaur head, the head assembly 3 being removably mounted to the frame 1.

Understandably, the framework 1 can adopt a split structure design, that is, each part of the framework 1 can be manufactured respectively, and each part can be assembled into the framework 1 in sequence by using screw connection, buckles and other modes; of course, the frame 1 can also be integrally formed in an integral forming manner, so that the structural strength of the frame 1 is improved, and the durability is enhanced. The housing assembly 2 can be made of a soft rubber material to prevent the housing assembly 2 from causing a cut to a user, and improve the use safety. The skeleton 1, the shell assembly 2 and the head assembly 3 are mutually adaptive, particularly, the skeleton, the shell assembly 2 and the head assembly can be flexibly arranged according to different dinosaurs to be simulated, and are not limited to the shape and the structure of one or more dinosaurs.

As shown in fig. 2 and 3, the frame 1 is provided with alignment holes 121; the housing assembly 2 comprises a housing 21 and a leg housing 22, a positioning protrusion 211 is disposed on the housing 21, a position-limiting convex wall 221 and a position-aligning column are disposed on the leg housing 22, and the position-limiting convex wall 221 forms a position-limiting groove 222 on the leg housing 22. When in use, the body shell 21 is used for covering the framework 1, so that the positioning convex part 211 is clamped with the framework 1; the leg shell 22 is used for covering the framework 1, so that a part of the framework 1 is abutted against the groove wall of the limiting groove 222, and the alignment column is inserted into the alignment hole 121.

It can be understood that, when the assembly of the housing assembly 2 and the framework 1 needs to be completed, the body shell 21 is covered at a predetermined position on the framework 1, and the positioning protruding part 211 is clamped with the predetermined position on the framework 1, so as to achieve the purpose of fixing the body shell 21; then, the leg shell 22 is covered on the predetermined installation position on the framework 1, and the part of the framework 1 on the predetermined installation position can be accommodated in the limiting groove 222, so that the part of the framework 1 falls into the limiting groove 222 and is mutually supported with the groove wall of the limiting groove 222, and the leg shell 22 is limited; thus, the body shell 21 and the leg shell 22 can be effectively prevented from falling off from the frame 1, and the reliability of connection between the body shell and the frame 1 is improved.

It should be understood that the body shell 21 and the leg shell 22 in the present embodiment are not particularly limited to be covered on the body or the legs of the framework 1; secondly, after the body shell 21 and the leg shell 22 are correctly assembled on the skeleton 1, the two can have mutually covered parts or not, that is, the two can have a common covered area or different covered areas relative to the skeleton 1; in addition, the number of the body shell 21 and the number of the leg shells 22 can be flexibly set, and the number can be adjusted according to the design scheme of the product and the appearance of the dinosaur to be simulated. The groove body profile of the limiting groove 222 may be similar to a partial profile of the frame 1 to improve the connection reliability between the leg case 22 and the frame 1. The number of the positioning protrusions 211 can be multiple, and the structure of each positioning protrusion 211 can be the same or different, and is specifically adjusted according to the structure of the portion needing clamping on the framework 1.

As shown in fig. 3, the skeleton 1 may include a skeleton 11 and bone limbs 12 in some embodiments, wherein the bone limbs 12 are detachably disposed on the skeleton 11; the bone limbs 12 play a role in supporting the bone body 11, the number of the bone limbs 12 can be flexibly adjusted, and the shape of the bone limbs can be set to imitate the skeleton structure of a dinosaur.

It is understood that the frame 11 and the bone limb 12 can be detachably connected by a screw thread, a snap fit or a plug fit. The alignment holes 121 are positioned on the bone limbs 12, and the leg shell 22 is assembled by inserting the alignment posts into the alignment holes 121.

Specifically, referring to fig. 3, the body shell 21 is provided with a first contour groove 212 for accommodating the bone 11, the positioning protrusion 211 is located in the first contour groove 212, and the positioning protrusion 211 is used for being clamped with the bone 11; the leg shell 22 is provided with a second contour groove 224 for accommodating the bone limb 12, the limit convex wall 221 is positioned in the second contour groove 224, and the groove wall of the limit groove 222 is used for abutting against the bone limb 12.

It can be understood that the first contour groove 212 is used for accommodating the skeleton 11 on the skeleton 1, and the groove body contour of the first contour groove 212 is made to simulate the appearance of a dinosaur trunk, so that the skeleton 11 can be covered by the body shell 21 more comprehensively and fittingly. The second contour groove 224 is used for receiving the bone limb 12 on the skeleton 1, and the second contour groove 224 also enables the leg shell 22 to cover the bone limb 12. The position of the positioning protrusion 211 in the first contour groove 212 is optionally set according to the structure of the part matched with the bone 11.

Referring to fig. 2, 3 and 4, in some embodiments, the frame 1 may further include bone claws 13, and the bone claws 13 function to increase a contact area between the frame 1 and a support such as a table top, thereby improving the stability of the product when the product is placed in a vertical position. One end of the bone limb 12 may be provided with a first mounting portion 122, and the other end of the bone limb 12 may be provided with a second mounting portion 123, the first mounting portion 122 being detachably inserted on the bone 11, and the second mounting portion 123 being detachably inserted on the bone claw 13.

It can be understood that the first mounting portion 122 and the second mounting portion 123 may have the same or different shapes, and both may be configured as a cylinder, a prism or other structures, specifically, the shapes that can be flexibly inserted into the framework 1 and the bone claw 13 are the standard.

Referring to fig. 2 and 4, the housing assembly 2 may further include a covering shell 23 in some embodiments, the covering shell 23 may be provided with a fool-proof post 231, and the leg shell 22 may be provided with a fool-proof hole 225; the fool-proof post 231 is inserted into the fool-proof hole 225, so that the leg shell 22 and the covering shell 23 jointly enclose a receiving cavity for receiving the bone limb 12.

It will be appreciated that the covering shell 23 and the leg shell 22 cover the bone limb 12 from opposite sides of the bone limb 12, respectively. Prevent slow-witted hole 225 and prevent slow-witted post 231 and play the effect of guiding correct counterpoint between cladding shell 23 and the leg shell 22, improved the convenient degree of assembly between shell subassembly 2 and skeleton 1. Skeleton 1 can set up to the axisymmetrical structure in some embodiments, and the skeleton 1 of axisymmetrical structure can have better stability when standing, avoids the toy to incline.

Referring to fig. 2 and 5, the toy dinosaur 10 further includes a head assembly 3 in some embodiments, and the head assembly 3 can be made to imitate the shape of the dinosaur head. The head unit 3 includes a lower jaw 31 and an upper jaw 32. The lower jaw part 31 is arranged on the framework 1, and the lower jaw part 31 plays a role in supporting the upper jaw part 32 to rotate; the upper jaw 32 is rotatably mounted on the lower jaw 31, and the upper jaw 32 may be rotatably mounted on the lower jaw 31 by a rotating shaft or the like. The lower jaw part 31 and the upper jaw part 32 can be respectively provided with teeth which are mutually matched so as to improve the simulation degree of the product and the enlightenment degree of the toy to young users.

Referring to fig. 2 and 5, the head assembly 3 may further include a head shell 33 and a corner 34 in some embodiments; the skull 33 is adapted to be placed over the maxilla 32, and the corner 34 is detachably disposed on the maxilla 32, so that the skull 33 is held between the maxilla 32 and the skull 33.

It is understood that the head shell 33 may be made of soft or hard rubber, wherein the head shell 33 made of soft rubber has the advantage of fitting the upper jaw 32 better, and the hard rubber has stronger mechanical strength and better durability. The head shell 33 and the upper jaw 32 can be respectively provided with an inserting hole matched with the corner 34; specifically, after the skull 33 is properly placed on the maxilla 32, the insertion holes of the skull 33 and the insertion holes of the maxilla 32 are aligned with each other, and the corner 34 is fitted to the maxilla 32 through the insertion holes, thereby completing the fitting of the skull 33.

Referring to fig. 2 and 5, the head assembly 3 may further include a skull shell 35 having a fixing portion 351, and the upper jaw 32 has a fixing groove 321; the fixing portion 351 is detachably inserted in the fixing groove 321, so that the skull shell 35 is supported against a part of the upper jaw 32.

As will be appreciated, skull 35 is intended to cover a different area on the maxilla 32 than skull 33; the skull shell 35 can be made of soft rubber or hard rubber. When assembling skull shell 35, align fixed part 351 and insert in fixed slot 321 for fixed part 351 and the cell wall of fixed slot 321 top each other and hold, accomplish skull shell 35's assembly promptly, and only need take off during the dismantlement fixed part 351 can, the dismouting process is all very convenient, and the dismouting can be accomplished to the young user equally, and the general suitable scope in age of product is wider.

Referring to fig. 3, the body shell 21 may be provided with a caudal vertebra clamping portion 213, and the frame 1 is provided with a caudal vertebra 14; the caudal vertebra clamping portion 213 is used to clamp the caudal vertebra 14.

It will be appreciated that the caudal vertebra 14 may be removably attached to the frame 1 via a variety of structures known in the art, and the caudal vertebra 14 may be integrally formed directly to the frame 1. The provision of the caudal vertebra clamping portion 213 can further prevent the body shell 21 from being detached from the frame 1, and further improve the reliability of connection between the body shell 21 and the frame 1.

It will also be appreciated that the caudal vertebra 14 may in some embodiments be provided with a boss which is removably insertable onto the skeleton 1, enabling a removable connection between the caudal vertebra 14 and the skeleton 1.

The toy dinosaur has the following beneficial effects:

The above embodiments are only for illustrating the technical idea and features of the present invention, and are intended to enable those skilled in the art to understand the content of the present invention and implement the present invention accordingly, and not to limit the protection scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims

1. A toy dinosaur is characterized by comprising a skeleton and a shell assembly, wherein the skeleton is provided with alignment holes; the shell component comprises a body shell and leg shells, at least one positioning bulge is arranged on the body shell, a limiting convex wall and a positioning column are arranged on the leg shells, and a limiting groove is formed by the limiting convex wall on each leg shell in a surrounding manner;

2. The toy dinosaur of claim 1, wherein said skeletal frame comprises a bone body, and bone limbs removably disposed on said bone body; the alignment holes are positioned on the bone limbs;

the leg shell is provided with a second contour groove for accommodating the bone limb, the limit convex wall is positioned in the second contour groove, and the groove wall of the limit groove is used for abutting against the bone limb.

3. The toy dinosaur of claim 2, wherein said skeletal frame further comprises bone claws;

4. The toy dinosaur of claim 2, wherein said housing assembly further comprises a covering shell having a fool-proof post, said leg shell having a fool-proof hole formed therein,

5. The toy dinosaur of claim 1, further comprising a head assembly including a lower jaw portion disposed on said skeleton and an upper jaw portion rotatably disposed on said lower jaw portion.

6. The toy dinosaur of claim 5, wherein said head assembly further comprises a head shell and a corner;

7. The toy dinosaur of claim 5 or 6, wherein said head assembly further comprises a skull shell provided with a fixing portion, said maxilla portion having a fixing groove;

8. The toy dinosaur of claim 1, wherein said body shell has a coccyx grip and said cage has a coccyx; the caudal vertebra clamping part is used for clamping the caudal vertebra.

9. The toy dinosaur of claim 8, wherein said caudal vertebra is provided with a post removably insertable onto said skeleton.

10. The toy dinosaur of claim 1, wherein said skeletal frame is an axisymmetric structure.