TOY TRACK

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

The application claims priority of Chinese patent application CN2024226583369, filed on Oct. 31, 2024, which is incorporated herein by reference in its entireties.

TECHNICAL FIELD

The present invention relates to the field of toys, particularly to a toy track.

BACKGROUND ART

In order to enrich children's entertainment life and stimulate their imagination and innovation ability, various shapes and functions of children's toy tracks have appeared on the market. However, most of the existing toy tracks have the following defects: many components of the existing toy tracks have an integrated structure and cannot be disassembled at will, which occupies space and is inconvenient to store and carry, and each track is fixed together, when not used temporarily, the toy tracks occupy a large space; and the tracks of the toy tracks are mostly fixed and cannot be adjusted, making the gameplay monotonous.

SUMMARY

In order to overcome the shortcomings of the prior art, a toy track is provided in the present invention. The toy track includes a track main body, wherein the track main body includes:

• • a middle track part, wherein the middle track part is provided with a first side and a second side;
  • a first track part, wherein the first track part is movably connected to the first side of the middle track part, so that the first track part is movable between a first position and a second position; and
  • a second track part, wherein the second track part is detachably connected to the second side.

As an improvement of the present invention, the second track part is provided with a splicing part, and the middle track part is provided with a splicing fitting part. The splicing fitting part is detachably connected to the splicing part.

As an improvement of the present invention, the splicing part is provided with a first splicing part, and the splicing fitting part is provided with a second splicing fitting part. The first splicing part and the second splicing fitting part are detachably connected.

As an improvement of the present invention, the splicing part is also provided with a first splicing fitting part, and the splicing fitting part is also provided with a second splicing part. The second splicing part is detachably connected to the first splicing fitting part.

As an improvement of the present invention, the first splicing part is a first splicing protrusion, the second splicing fitting part is a second splicing groove, the first splicing protrusion is detachably connected to the second splicing groove, the second splicing part is a second splicing protrusion, the first splicing fitting part is a first splicing groove, and the second splicing protrusion is detachably connected to the first splicing groove. Alternatively, the first splicing part is a first splicing protrusion, the second splicing fitting part is a second splicing groove, the first splicing protrusion is detachably connected to the second splicing groove, the first splicing fitting part is a second splicing protrusion, the second splicing part is a first splicing groove, and the second splicing protrusion is detachably connected to the first splicing groove. Alternatively, the first splicing part is a first splicing groove, the second splicing fitting part is a second splicing protrusion, the first splicing groove is detachably connected to the second splicing protrusion, the first splicing fitting part is a second splicing groove, the second splicing part is a first splicing protrusion, and the second splicing groove is detachably connected to the first splicing protrusion.

As an improvement of the present invention, the first splicing part is a first splicing protrusion, the second splicing fitting part is a second splicing groove, and the second splicing groove includes a relatively wide upper portion and a relatively narrow lower portion, so that a first guiding part is formed at an upper end of the second splicing groove, a first locking part is formed at a lower end of the second splicing groove, the first splicing protrusion slides into the first locking part of the second splicing groove along the first guiding part, and an inner wall of the first locking part presses and locks the first splicing protrusion into the second splicing groove.

As an improvement of the present invention, the first splicing part is a first splicing groove, the second splicing fitting part is a second splicing protrusion, and the first splicing groove includes a relatively wide upper portion and a relative narrow lower portion, so that a first guiding part is formed at an upper end of the first splicing groove, a first locking part is formed at a lower end of the first splicing groove, the second splicing protrusion slides into the first locking part of the first splicing groove along the first guiding part, and an inner wall of the first locking part presses and locks the second splicing protrusion into the first splicing groove.

As an improvement of the present invention, the first track part is rotatably connected to the middle track part.

As an improvement of the present invention, the first track part is provided with a first rotating slot, an inner wall of the first rotating slot is provided with a first rotating shaft in a protruding manner, the middle track part is provided with a first rotating protrusion, the first rotating protrusion is provided with a first rotating hole, the first rotating protrusion is positioned inside the first rotating slot, and the first rotating shaft is rotatably connected to the first rotating hole, so that the first rotating protrusion is rotatable inside the first rotating slot. Alternatively, the middle track part is provided with a first rotating slot, an inner wall of the first rotating slot is provided with a first rotating shaft in a protruding manner, the first track part is provided with a first rotating protrusion, the first rotating protrusion is provided with a first rotating hole, the first rotating protrusion is positioned inside the first rotating slot, and the first rotating shaft is rotatably connected to the first rotating hole, so that the first rotating protrusion is rotatable within the first rotating slot.

As an improvement of the present invention, the first track part is equipped with a first stop edge and a second stop edge, and the middle track part is provided with a third stop edge and a fourth stop edge. When the first track part rotates to the first position, the first stop edge abuts against the third stop edge to stop the first track part in the first position. When the first track part rotates to the second position, the second stop edge abuts against the fourth stop edge to stop the first track part in the second position.

As an improvement of the present invention, the first track part is provided with a first track slot, the second track part is provided with a second track slot, and the middle track part is provided with a third track slot. The first track slot, the third track slot, and the second track slot are in communication sequentially.

As an improvement of the present invention, the toy track further includes a base, and a lower side of the track main body is connected to the base.

As an improvement of the present invention, the toy track further includes a third track part. The third track part is connected to the base.

As an improvement of the present invention, the third track part is rotatably connected to the base. The base is provided with a first mounting slot, and an inner wall of the first mounting slot is provided with a third rotating hole. The third track part is provided with a third rotating shaft. The third rotating shaft is connected to the third rotating hole, and the third rotating shaft is rotatable inside the third rotating hole.

As an improvement of the present invention, an inner bottom wall of the first mounting slot is provided with a mounting groove. The third track part is provided with a mounting convex block. The third rotating shaft is provided on the mounting convex block in a protruding manner. The third rotating hole is defined in an inner side wall of the first mounting slot. The mounting convex block is positioned inside the mounting groove, and the mounting convex block is rotatable inside the mounting groove.

As an improvement of the present invention, the toy track further includes a balustrade. The balustrade is connected to the base or the third track part, and the balustrade is positioned above the third track part.

As an improvement of the present invention, the balustrade is rotatably connected to the base or the third track part, and the balustrade is rotatable between an open position and a closed position.

As an improvement of the present invention, the balustrade is rotatably connected to the base or the third track part through a connecting component. A bottom portion of the connecting component is provided with a first insertion opening, and the base or the third track part is provided with a first insertion column. The first insertion opening is detachably connected to the first insertion column. A second insertion opening is defined in a side portion of the connecting component, and the second insertion opening is internally provided with a second rotating shaft in a protruding manner. A second rotating hole is defined in the balustrade, the second rotating shaft is connected to the second rotating hole, and the second rotating shaft is rotatable inside the second rotating hole. A front side and a rear side of the first insertion column are both provided with a first position limiting protrusion in a protruding manner. An inner wall of the first insertion opening is provided with a first position limiting groove, and the first position limiting protrusion is connected to the first position limiting groove. The inner wall of the first insertion opening is also provided with at least two second position limiting protrusions, and the first insertion column is positioned between at least two of the second position limiting protrusions. The connecting component includes a first connecting part and a second connecting part. The first connecting part and the second connecting part are detachably connected so as to surround and form the first insertion opening and the second insertion opening. The third track part is provided with a fourth track slot.

As an improvement of the present invention, the track main body is equipped with a plurality of support feet. The track main body is supported above the base and the third track part through the plurality of support feet, and a spacing is defined between the track main body and the third track part. The support foot is detachably connected to the base. The support foot is provided with an insertion convex block, and the base is provided with an insertion groove. The insertion convex block is detachably connected to the insertion groove. A side wall of the insertion convex block is also provided with a stop convex block in a protruding manner, and an inner wall of the insertion groove is provided with a stop opening. The stop convex block is connected to the stop opening to stop the insertion convex block in the insertion groove.

As an improvement of the present invention, the toy track further includes a decorative shed. The decorative shed is detachably or integrally connected to an upper side of the track main body. Hollow windows are provided all around the decorative shed, and a shed cover is provided on a top portion of the decorative shed.

As an improvement of the present invention, the first track part is in the shape of an elephant trunk. The balustrade is in the shape of an elephant trunk, and the connecting component is in the shape of an elephant head.

As an improvement of the present invention, a top surface of the shed cover is provided with a first decorative pattern in the shape of an animal, an outer side of the middle track part is provided with a second decorative pattern in the shape of an animal, and the second track part is provided with a third decorative pattern in the shape of an arrow.

As an improvement of the present invention, the first track part is also provided with a first elastic avoidance slit. The first rotating slot includes a first elastic inner wall. The first elastic inner wall is positioned between the first elastic avoidance slit and the first rotating shaft, and the first rotating shaft is provided on the first elastic inner wall in a protruding manner.

As an improvement of the present invention, the middle track part is also provided with a first elastic avoidance slit. The first rotating slot includes a first elastic inner wall. The first elastic inner wall is positioned between the first elastic avoidance slit and the first rotating shaft, and the first rotating shaft is provided on the first elastic inner wall in a protruding manner.

Beneficial effects of the present invention are as follows. The toy track is provided in the present invention. The toy track includes the track main body. The track main body includes the middle track part, the first track part, and the second track part. The middle track part is provided with the first side and the second side. The first track part is movably connected to the first side of the middle track part, so that the first track part is capable of moving between the first position and the second position. The second track part is detachably connected to the second side, so that children can place a toy car or a doll into the track main body to play with. Moreover, due to the movable connection between the first track part and the middle track part, the first track part can move between the first position and the second position. When children need to use the toy track, the first track part can be moved between the first position and the second position to adjust an angle of the first track part, so that the toy car of the first track part slides towards the middle track part from different angles, or the toy car of the middle track part slides down towards the first track part from different angles, to increase different fun and entertainment. When the first track part is rotated to the first position, an overall volume of the toy track is minimized, making it easy for a user to store and transport the toy track. When the first track part is rotated to the second position, the first track part is fully unfolded. Furthermore, due to the detachable connection between the second track part and the middle track part, when children need to use the toy track, the second track part can be attached to the middle track part for use. When it is needed to store and transport the toy track, the second track part can be detached from the middle track part, so as to reduce the volume of the toy track and facilitate storage and transportation of the toy track. Moreover, during the process of disassembling and assembling the second track part, children can exercise their hands-on ability.

BRIEF DESCRIPTION OF THE DRAWINGS

Implementations of the present disclosure will now be described, by way of embodiment, with reference to the attached figures. It should be understood, the drawings are shown for illustrative purpose only, for ordinary person skilled in the art, other drawings obtained from these drawings without paying creative labor by an ordinary person skilled in the art should be within scope of the present disclosure.

FIG. 1 is a schematic diagram of an overall structure of the present invention.

FIG. 2 is another schematic diagram of an overall structure of the present invention.

FIG. 3 is an exploded view of the present invention.

FIG. 4 is an enlarged view of area A in FIG. 3.

FIG. 5 is an enlarged view of area B in FIG. 3.

FIG. 6 is an enlarged view of area C in FIG. 3.

FIG. 7 is an enlarged view of area D in FIG. 3.

FIG. 8 is an enlarged view of area E in FIG. 3.

FIG. 9 is a sectional view cutting along a splicing part and a splicing fitting part.

FIG. 10 is an enlarged view of area F in FIG. 9.

FIG. 11 is an enlarged view of area G in FIG. 9.

FIG. 12 is another sectional view cutting along a splicing part and a splicing fitting part.

FIG. 13 is an enlarged view of area H in FIG. 12.

FIG. 14 is an enlarged view of area K in FIG. 12.

FIG. 15 is a sectional view cutting along a first rotating shaft and a first rotating hole.

FIG. 16 is an enlarged view of area L in FIG. 15.

DETAILED DESCRIPTION OF THE EMBODIMENTS

It will be appreciated that for simplicity and clarity of illustration, where appropriate, reference numerals have been repeated among the different figures to indicate corresponding or analogous elements. In addition, numerous specific details are set forth in order to provide a thorough understanding of the exemplary embodiments described herein. However, it will be understood by those of ordinary skill in the art that the exemplary embodiments described herein may be practiced without these specific details. In other instances, methods, procedures, and components have not been described in detail so as not to obscure the related relevant feature being described. Also, the description is not to be considered as limiting the scope of the exemplary embodiments described herein. The drawings are not necessarily to scale and the proportions of certain parts may be exaggerated to better illustrate details and features of the present disclosure.

The term “comprising” when utilized, means “including, but not necessarily limited to”; it specifically indicates open-ended inclusion or membership in the so-described combination, group, series, and the like. The disclosure is illustrated by way of example and not by way of limitation in the figures of the accompanying drawings in which like references indicate similar elements. It should be noted that references to “an” or “one” embodiment in this disclosure are not necessarily to the same embodiment, and such references can mean “at least one”. In addition, the terms “first” and “second” are used for descriptive purposes only and cannot be understood as indicating or implying relative importance or implying the number of indicated technical features. Thus, the features defined as “first” and “second” may explicitly or implicitly include one or more of the features. In the description of embodiments of the application, “a plurality of” means two or more, unless otherwise specifically defined.

Referring to FIGS. 1-16, a toy track includes a track main body 1. The track main body 1 includes:

• • a middle track part 2, wherein the middle track part 2 is provided with a first side 28 and a second side 22;
  • a first track part 3, wherein the first track part 3 is movably connected to the first side 28 of the middle track part 2, so that the first track part 3 is movable between a first position and a second position; and
  • a second track part 4, wherein the second track part 4 is detachably connected to the second side 22.

Through the above structure, the toy track includes the track main body 1. The track main body 1 includes the middle track part 2, the first track part 3, and the second track part 4. The middle track part 2 is provided with the first side 28 and the second side 22. The first track part 3 is movably connected to the first side 28 of the middle track part 2, so that the first track part 3 is capable of moving between the first position and the second position. The second track part 4 is detachably connected to the second side 22, so that children can place a toy car or a doll into the track main body for play. Moreover, due to the movable connection between the first track part and the middle track part, the first track part is capable of moving between the first position and the second position. When children need to use the toy track, the first track part can be moved between the first position and the second position to adjust an angle of the first track part, so that the toy car of the first track part slides towards the middle track part from different angles, or the toy car of the middle track part slides down towards the first track part from different angles, to increase different fun and entertainment. When the first track part is rotated to the first position, an overall volume of the toy track is minimized, making it easy for a user to store and transport the toy track. When the first track part is rotated to the second position, the first track part is fully unfolded. Furthermore, due to the detachable connection between the second track part and the middle track part, when children need to use the toy track, the second track part can be attached to the middle track part for use. When it is needed to store and transport the toy track, the second track part can be detached from the middle track part, so as to reduce the volume of the toy track and facilitate storage and transportation of the toy track. Moreover, during the process of disassembling and assembling the second track part, children can exercise their hands-on ability.

In this embodiment, the second track part 4 is provided with a splicing part 41, and the middle track part 2 is provided with a splicing fitting part 21. The splicing fitting part 21 is detachably connected to the splicing part 41. The splicing part 41 is provided with a first splicing part 411, and the splicing fitting part 21 is provided with a second splicing fitting part 211. The first splicing part 411 and the second splicing fitting part 211 are detachably connected. Specifically, the splicing part 41 is also provided with a first splicing fitting part 412, and the splicing fitting part 21 is also provided with a second splicing part 212. The second splicing part 212 is detachably connected to the first splicing fitting part 412. Furthermore, the first splicing part 411 is a first splicing protrusion 4111, the second splicing fitting part 211 is a second splicing groove 2111, the first splicing protrusion 4111 is detachably connected to the second splicing groove 2111, the second splicing part 212 is a second splicing protrusion 2121, the first splicing fitting part 412 is a first splicing groove 4121, and the second splicing protrusion 2121 is detachably connected to the first splicing groove 4121. Alternatively, the first splicing part 411 is a first splicing protrusion 4111, the second splicing fitting part 211 is a second splicing groove 2111, the first splicing protrusion 4111 is detachably connected to the second splicing groove 2111, the first splicing fitting part 412 is a second splicing protrusion 2121, the second splicing part 212 is a first splicing groove 4121, and the second splicing protrusion 2121 is detachably connected to the first splicing groove 4121. Alternatively, the first splicing part 411 is a first splicing groove 4121, the second splicing fitting part 211 is a second splicing protrusion 2121, the first splicing groove 4121 is detachably connected to the second splicing protrusion 2121, the first splicing fitting part 412 is a second splicing groove 2111, the second splicing part 212 is a first splicing protrusion 4111, and the second splicing groove 2111 is detachably connected to the first splicing protrusion 4111. The first splicing part 411 and the first splicing fitting part 412 are arranged in sequence from left to right along the second track part 4, and the second splicing part 212 and the second splicing fitting part 211 are arranged in sequence from right to left along the middle track part 2. Through the above structure, the arrangement of the splicing part 41 and the splicing fitting part 21 has been effectively achieved, the design is reasonable, and the connection is stable, effectively achieving the detachable connection between the second track part 4 and the middle track part 2.

In this embodiment, the first splicing part 411 is a first splicing protrusion 4111, the second splicing fitting part 211 is a second splicing groove 2111, and the second splicing groove 2111 includes a relatively wide upper portion and a relatively narrow lower portion, so that a first guiding part 21111 is formed at an upper end of the second splicing groove 2111, and a first locking part 21112 is formed at a lower end of the second splicing groove 2111. The first splicing protrusion 4111 slides into the first locking part 21112 of the second splicing groove 2111 along the first guiding part 21111, and an inner wall of the first locking part 21112 presses and locks the first splicing protrusion 4111 into the second splicing groove 2111. Through the above structure, the first splicing protrusion 4111 slides along the first guiding part 21111 into the first locking part 21112 of the second splicing groove 2111, the inner wall of the first locking part 21112 presses and locks the first splicing protrusion 4111 into the second splicing groove 2111, so that in the process of the first splicing protrusion 4111 sliding in a direction of the first locking part 21112, the inner wall of the first locking part 21112 gradually presses and locks the first splicing protrusion 4111 into the second splicing groove 2111, preventing the first splicing protrusion 4111 from disengaging from the second splicing groove 2111. When it is needed to disassemble, store, or transport the toy track, an external force greater than a locking force provided by the first locking part 21112 can be applied to the second track part 4, so that the second track part 4 can be detached from the middle track part 2.

In other embodiments, the first splicing part 411 is a first splicing groove 4121, the second splicing fitting part 211 is a second splicing protrusion 2121, and the first splicing groove 4121 includes a relatively wide upper portion and a relative narrow lower portion, so that a first guiding part 21111 is formed at an upper end of the first splicing groove 4121, and a first locking part 21112 is formed at a lower end of the first splicing groove 4121. The second splicing protrusion 2121 slides into the first locking part 21112 of the first splicing groove 4121 along the first guiding part 21111, and an inner wall of the first locking part 21112 presses and locks the second splicing protrusion 2121 into the first splicing groove 4121. Through the above structure, the second splicing protrusion 2121 slides along the first guiding part 21111 into the first locking part 21112 of the first splicing groove 4121, the inner wall of the first locking part 21112 presses and locks the second splicing protrusion 2121 into the first splicing groove 4121, so that in the process of the second splicing protrusion 2121 sliding towards the first locking part 21112, the inner wall of the first locking part 21112 gradually presses and locks the second splicing protrusion 2121 into the first splicing groove 4121, preventing the second splicing protrusion 2121 from disengaging from the first splicing groove 4121. When it is needed to disassemble, store or transport the toy track, an external force greater than a locking force provided by the first locking part 21112 can be applied to the second track part 4, so that the second track part 4 can be detached from the middle track part 2.

In this embodiment, the first track part 3 is rotatably connected to the middle track part 2. Through the above structure, when children need to use the toy track, the first track part can be moved between the first position and the second position to adjust the angle of the first track part, so that the toy car can slide down from different angles towards the first track part to increase different fun and entertainment. Moreover, the first track part 3 can be rotated to the first position to be fully unfolded for use. When it is needed to store and transport the toy track, the first track part 3 can be rotated to the second position, so as to reduce the volume of the toy track and facilitate storage and transportation of the toy track.

In this embodiment, the first track part 3 is provided with a first rotating slot 31, an inner wall of the first rotating slot 31 is provided with a first rotating shaft 311 in a protruding manner, the middle track part 2 is provided with a first rotating protrusion 23, the first rotating protrusion 23 is provided with a first rotating hole 231, the first rotating protrusion 23 is positioned inside the first rotating slot 31, and the first rotating shaft 311 is rotatably connected to the first rotating hole 231, so that the first rotating protrusion 23 is rotatable inside the first rotating slot 31. Alternatively, the middle track part 2 is provided with a first rotating slot 31, an inner wall of the first rotating slot 31 is provided with a first rotating shaft 311 in a protruding manner, the first track part 3 is provided with a first rotating protrusion 23, the first rotating protrusion 23 is provided with a first rotating hole 231, the first rotating protrusion 23 is positioned inside the first rotating slot 31, and the first rotating shaft 311 is rotatably connected to the first rotating hole 231, so that the first rotating protrusion 23 is rotatable within the first rotating slot 31. The first track part 3 is equipped with a first stop edge 32 and a second stop edge 33, and the middle track part 2 is provided with a third stop edge 24 and a fourth stop edge 25. When the first track part 3 rotates to the first position, the first stop edge 32 abuts against the third stop edge 24 to stop the first track part 3 in the first position. When the first track part 3 rotates to the second position, the second stop edge 33 abuts against the fourth stop edge 25 to stop the first track part 3 in the second position. Through the above structure, the rotatable connection between the first track part 3 and the second track part 4 is effectively achieved. Moreover, when the first track part 3 rotates to the first position, the first stop edge 32 abuts against the third stop edge 24 to stop the first track part 3 in the first position; when the first track part 3 rotates to the second position, the second stop edge 33 abuts against the fourth stop edge 25 to stop the first track part 3 in the second position, so that the first track part 3 can be precisely rotated to the first position or the second position.

In this embodiment, the first rotating slot 31 is defined in the first track part 3, the first rotating protrusion 23 is provided in the middle track part 2, and the first track part 3 is also provided with a first elastic avoidance slit 35. The first rotating slot 31 includes a first elastic inner wall 312. The first elastic inner wall 312 is positioned between the first elastic avoidance slit 35 and the first rotating shaft 311. The first rotating shaft 311 is provided on the first elastic inner wall 312 in a protruding manner. Through the above structure, due to the provision of the first elastic inner wall 312, an elastic restoring force provided by the first elastic inner wall 312 can press the first rotating shaft 311 tightly into the first rotating hole 231, preventing the first rotating shaft 311 from loosening, and allowing the first track part 3 to rotate more stably and smoothly. When it is needed to disassemble the first track part 3, the first elastic inner wall 312 can be bent to cause elastic deformation of the first elastic inner wall 312, so that the first rotating shaft 311 can move with the first elastic inner wall 312 to detach from the first rotating hole 231, and the first track part 3 can be disassembled from the middle track part 2.

In other embodiments, the first rotating slot 31 is defined in the middle track part 2, the first rotating protrusion 23 is provided in the first track part 3, and the middle track part 2 is also provided with a first elastic avoidance slit 35. The first rotating slot 31 includes a first elastic inner wall 312. The first elastic inner wall 312 is positioned between the first elastic avoidance slit 35 and the first rotating shaft 311. The first rotating shaft 311 is provided on the first elastic inner wall 312 in a protruding manner. Through the above structure, due to the provision of the first elastic inner wall 312, an elastic restoring force provided by the first elastic inner wall 312 can press the first rotating shaft 311 tightly into the first rotating hole 231, preventing the first rotating shaft 311 from loosening, and allowing the first track part 3 to rotate more stably and smoothly. When it is needed to disassemble the first track part 3, the first elastic inner wall 312 can be bent to cause elastic deformation of the first elastic inner wall 312, so that the first rotating shaft 311 can move with the first elastic inner wall 312 to detach from the first rotating hole 231, and the first track part 3 can be disassembled from the middle track part 2.

In this embodiment, the first track part 3 is provided with a first track slot 34, the second track part 4 is provided with a second track slot 42, and the middle track part 2 is provided with a third track slot 26. The first track slot 34, the third track slot 26, and the second track slot 42 are in communication sequentially. Through the above structure, when children place a toy car or a doll into the first track slot 34, the third track slot 26, and the second track slot 42 of the track main body 1 to play with, the toy car and the doll can be prevented from slipping out of the track main body 1.

In this embodiment, the toy track further includes a base 5, and a lower side of the track main body 1 is connected to the base 5. The toy track further includes a third track part 6. The third track part 6 is connected to the base 5. Specifically, the third track part 6 is rotatably connected to the base 5. The base 5 is provided with a first mounting slot 51, and an inner wall of the first mounting slot 51 is provided with a third rotating hole 511. The third track part 6 is provided with a third rotating shaft 61. The third rotating shaft 61 is connected to the third rotating hole 511, and the third rotating shaft 61 is rotatable inside the third rotating hole 511. Furthermore, an inner bottom wall of the first mounting slot 51 is provided with a mounting groove 512. The third track part 6 is provided with a mounting convex block 611. The third rotating shaft 61 is provided on the mounting convex block 611 in a protruding manner. The third rotating hole 511 is defined in an inner side wall of the first mounting slot 51. The mounting convex block 611 is positioned inside the mounting groove 512, and the mounting convex block 611 is rotatable inside the mounting groove 512. Through the above structure, children can also place a toy car or a doll on the third track part 6 to play with, and due to the rotatable connection between the third track part 6 and the base 5, rotating the third track part 6 can increase more gameplay and enhance the fun of the toy track. For example, by rotating the third track part 6, the toy car or the doll on the third track part 6 can be ejected.

In this embodiment, the toy track further includes a balustrade 7. The balustrade 7 is connected to the base 5 or the third track part 6, and the balustrade 7 is positioned above the third track part 6. The balustrade 7 is rotatably connected to the base 5 or the third track part 6, and the balustrade 7 is rotatable between an open position and a closed position. Specifically, the balustrade 7 is rotatably connected to the base 5 or the third track part 6 through a connecting component 8. A bottom portion of the connecting component 8 is provided with a first insertion opening 81, and the base 5 or the third track part 6 is provided with a first insertion column 62. The first insertion opening 81 is detachably connected to the first insertion column 62. A second insertion opening 82 is defined in a side portion of the connecting component 8, and the second insertion opening 82 is internally provided with a second rotating shaft 821 in a protruding manner. A second rotating hole 71 is defined in the balustrade 7, the second rotating shaft 821 is connected to the second rotating hole 71, and the second rotating shaft 821 is rotatable inside the second rotating hole 71. A front side and a rear side of the first insertion column 62 are both provided with a first position limiting protrusion 621 in a protruding manner. An inner wall of the first insertion opening 81 is provided with a first position limiting groove 811, and the first position limiting protrusion 621 is connected to the first position limiting groove 811. The inner wall of the first insertion opening 81 is also provided with at least two second position limiting protrusions 812, and the first insertion column 62 is positioned between at least two of the second position limiting protrusions 812. The connecting component 8 includes a first connecting part 83 and a second connecting part 84. The first connecting part 83 and the second connecting part 84 are detachably connected so as to surround and form the first insertion opening 81 and the second insertion opening 82. The third track part 6 is provided with a fourth track slot 63. Through the above structure, the rotatable structure of the balustrade 7 has been effectively achieved. Since the balustrade 7 is rotatable between the open position and the closed position, the gameplay of the toy track is further increased, making the balustrade 7 simulate the environment of a parking lot and perform lifting and lowering actions, thereby enhancing the fun of the toy track.

In this embodiment, the track main body 1 is equipped with a plurality of support feet 11. The track main body 1 is supported above the base 5 and the third track part 6 through the plurality of support feet 11, and a spacing is defined between the track main body 1 and the third track part 6. The support foot 11 is detachably connected to the base 5. The support foot 11 is provided with an insertion convex block 111, and the base 5 is provided with an insertion groove 52. The insertion convex block 111 is detachably connected to the insertion groove 52. A side wall of the insertion convex block 111 is also provided with a stop convex block 1111 in a protruding manner, and an inner wall of the insertion groove 52 is provided with a stop opening 521. The stop convex block 1111 is connected to the stop opening 521 to stop the insertion convex block 111 in the insertion groove 52. Through the above structure, due to the spacing between the track main body 1 and the third track part 6, the toy car or the doll can smoothly slide on the third track part 6. Moreover, since the side wall of the insertion convex block 111 is also provided with the stop convex block 1111 in a protruding manner, and the inner wall of the insertion groove 52 is provided with the stop opening 521, the stop convex block 1111 is connected to the stop opening 521 to stop the insertion convex block 111 in the insertion groove 52, effectively achieving the connection between the support foot 11 and the base 5. Moreover, the stop convex block 1111 is positioned in the stop opening 521, which can prevent the support foot 11 from loosening from the base 5.

In this embodiment, the toy track further includes a decorative shed 9. The decorative shed 9 is detachably or integrally connected to an upper side of the track main body 1. Hollow windows 91 are provided all around the decorative shed 9, and a shed cover 92 is provided on a top portion of the decorative shed 9. Through the above structure, the decorative shed 9 can decorate the toy track to simulate real scenes and provide a sheltered environment for the toy car and the doll, thereby further improving the playability of the toy track.

In this embodiment, the first track part 3 is in the shape of an elephant trunk. The balustrade 7 is in the shape of an elephant trunk, and the connecting component 8 is in the shape of an elephant head. A top surface of the shed cover 92 is provided with a first decorative pattern 921 in the shape of an animal, an outer side of the middle track part 2 is provided with a second decorative pattern 27 in the shape of an animal, and the second track part 4 is provided with a third decorative pattern 43 in the shape of an arrow. The first track part 3 and the connecting component 8 can also be in the shape of other actions. Through the above structure, the overall appearance of the toy track is made more beautiful, thereby increasing children's interest in the toy track.

The above description only describes embodiments of the present disclosure, and is not intended to limit the present disclosure; various modifications and changes can be made to the present disclosure. Any modifications, equivalent substitutions, and improvements made within the spirit and scope of the present disclosure are intended to be included within the scope of the present disclosure.