Patent Application
20240226711
This application claims to the benefit of priority from Chinese Application No. 202320056772.1 with a filing date of Jan. 9, 2023, and further claims to the benefit of priority from Chinese Application No. 2023227164620 with a filing date of Oct. 10, 2023. The content of the aforementioned applications, including any intervening amendments thereto, are incorporated herein by reference.
The present disclosure relates to the technical field of toys, particularly to a sliding puzzle toy.
At present, sliding puzzle toys include two types: flat puzzle toys and sliding puzzle toys. In related arts, sliding puzzle toys generally include a main body and a plurality of sliders. The plurality of sliders slide on the surface of the main body to create corresponding patterns. Because the slider gap on the surface of the main body is only one grid, in order to achieve the goal of creating a complete pattern, the slider must be cleverly moved. Therefore, this type of toy is both interesting and can exercise intelligence of user, especially for inspiring children's intelligence. However, due to the presence of a slider gap, not only dust and other impurities can easily enter the main body, but also affect the overall aesthetics of the sliding puzzle toy. In related art, separable puzzle unit blocks are provided on the main body to open or close the slider gap, such as a puzzle toy disclosed in patent document CN203469438U. However, in the structure of the puzzle toy disclosed in the above patent document, the separable puzzle unit blocks are connected to the cylinder (i.e. the main body) through an open structure, which is complex and not conducive to simplifying assembly materials, reducing manufacturing costs, and also not conducive to improving the assembly efficiency of the puzzle toy.
The present disclosure aims to solve at least one of the technical problems existing in the existing technology. Therefore, this present disclosure provides a sliding puzzle toy, aiming to solve the problem of complex connection structure between separable puzzle unit blocks and the main body in existing puzzle toys, which is not conducive to reducing costs and improving work efficiency.
To achieve the above objective, a sliding puzzle toy is provided by the present disclosure, including a main body and a plurality of sliders slidably connected to the main body, wherein the main body includes two bottom walls and a side wall connected between the two bottom walls, at least one of the two bottom walls is provided with a recessed slot and a separable block, one side of the recessed slot is connected to the side wall, an arc transition is provided at a connection between the recessed slot and the side wall, and the separable block is movably or detachably connected to the recessed slot; an outer surface of the side wall is provided with a plurality of sliding grooves that intersects with each other along circumferential and longitudinal directions, the sliding grooves are movably connected to the sliders, and one of the longitudinal sliding grooves passes through a connection between the recessed slot and the side wall and extends towards a bottom wall of the recessed slot.
As the preferred solution, the separable block matches with the recessed slot, one side of the separable block is detachably connected to an open side of the recessed slot, and an other side of the separable block is pivoted to a side wall of the recessed slot.
As the preferred solution, two side walls opposite each other in the recessed slot are respectively provided with a connection slot, two side walls opposite each other of the separable block are respectively provided with snap bulges, and the snap bulges are arranged corresponding to the connection slot and is detachably connected in the connection slot.
As the preferred solution, a bottom wall of the recessed slot is provided with a positioning slot adjacent to the connection slot, the two side walls opposite each other of the separable block protrude towards a position of the positioning slot to form snap blocks, and the snap blocks match with the positioning slot and detachably connected to the positioning slot.
As the preferred solution, the separable block is connected to the bottom wall through a connection strip, the connection strip is accommodated and connected between the separable block and the bottom wall, and the two ends of the connection strip are respectively pivoted to the separable block and the bottom wall.
As the preferred solution, the separable block is slidably connected within the recessed slot, and a length of the separable block is equal to or less than a length of the recessed slot;
As the preferred solution, the side wall of the recessed slot is provided with a guide slot along a direction of movement of the separable block, the separable block is provided with a first sliding plate on the side wall opposite to the guide slot, and the first sliding plate and the guide slot are in a concave-convex sliding fit.
As the preferred solution, the side wall of the recessed slot is provided with a limit slot along a direction of movement of the separable block, the separable block is provided with a second sliding plate on the side wall opposite to the limit slot, and the second sliding plate and the limit slot are in a concave-convex sliding fit.
As the preferred solution, the recessed slots include at least two sub slots that intersect with each other, an intersection position of any two sub slots is recessed to form the receiving cavity, and each sub slot is provided with at least one separable block in a sliding manner.
As the preferred solution, any separable block is provided with the guide slot on the side wall adjacent to the moving block.
As the preferred solution, a bottom wall of the receiving cavity is further provided with a moving cavity, and the moving block is provided with a connection post on the side wall corresponding to the moving cavity, and the connection post is movably connected within the moving cavity.
As the preferred solution, the bottom wall of the receiving cavity is connected to the moving block and/or a bottom wall of the moving cavity is connected to the connection post through at least one elastic member.
As the preferred solution, a side wall of the moving cavity are circumferentially provided with a plurality of guiding ribs at intervals, and each end of the guiding ribs is provided with a first inclined surface, the first inclined surface is arranged in an inclined Z-shaped shape, and the connection post is movably connected to the moving cavity through a pushing block and a limit block;
As the preferred solution, the bottom wall of the moving cavity is provided with a mounting hole, and the connection post is movably connected to the moving cavity through a restriction block and a restriction rod;
As the preferred solution, the side wall is a closed curved surface, or the side wall includes at least three closed connected planes, and each two adjacent planes are connected by an arc-shaped transition surface.
As the preferred solution, each slider includes a plate and a base pillar arranged along a vertical direction, the plate is exposed to the side wall, the base pillar is movably connected in the sliding groove, a positioning piece is slidably sleeve on the base pillar, the positioning piece is movably connected to the sliding groove and contacts with an inner wall of the sliding groove, and an elastic member is connected between the positioning piece and an end of the base pillar.
Therefore, based on the technical means of the present disclosure, a brief explanation of the advantages that the present disclosure can achieve is as follows: In the sliding puzzle toy provided by the present disclosure, by setting the recessed slot on the bottom wall, the recessed slot and the side wall are connected to serve as a slider gap; and at the same time, by setting the separable block on the bottom wall that is movably or detachably connected with the recessed slot, such that the separable block can be flipped or moved within the recessed slot, or can be separated and disassembled from the recessed slot. When in use, through flipping, moving or disassembling the separable block to open or close the slider gap. Compared with existing structures, by setting the recessed slots and separable blocks which movably or detachably connected with each other on the bottom wall, it can effectively simplify the connection structure between the separable block and the main body, which is beneficial for reducing costs and improving assembly efficiency. Moreover, by setting the recessed slots and separable blocks which movably or detachably connected with each other on the bottom wall, it can make the opening or closing of the separable block simpler and faster, making it easier for game operations. It can also separate the separable block from the slider, compared with the existing structure, the pattern formed by the splicing of several sliders on the side wall is not limited by the separable block (pattern), and the relative position of the splicing pattern on the side wall can be changed at any time, making the sliding puzzle toy more playable and lasting appeal.
In the picture: 1—sliding puzzle toy; 10—main body; 10a—bottom wall; 11—recessed slot; 111—connection slot; 112—positioning slot; 110—sub slot; 113—guide slot; 114—limit slot; 115—receiving cavity; 1151—retaining ring; 1152—moving cavity; 1153—guiding rib; 1154—first inclined surface; 1155—mounting hole; 12—separable block; 121—snap bulge; 122—snap block; 123—first sliding plate; 124—second sliding plate; 13—connection strip; 10b—side wall; 14—circumferential sliding groove; 15—longitudinal sliding groove; 101—plane; 102—arc-shaped transition surface; 16—moving block; 161—connection post; 17a—pushing block; 171—serrated claw; 17b—limit block; 172—positioning rib; 173—second inclined surface; 18a—restriction block; 181—channel; 1811—recessed point; 182—raised rib; 18b—restriction rod; 103—first spring; 104—second spring; 20—slider; 21—plate; 22—base pillar; 23—positioning piece; 24—elastic member.
The following will provide a clear and complete description of the technical solution in the embodiments of this present disclosure in conjunction with the attached drawings. Obviously, the described embodiments are only a part of the embodiments of this present disclosure, not all of them. Based on the embodiments in this present disclosure, all other embodiments obtained by ordinary skilled person in the art without creative labor fall within the scope of this present disclosure. It can be understood that the attached drawings are only for reference and illustration purposes and are not intended to limit the present disclosure. The connections shown in the attached drawings are only for the purpose of clear description and do not limit the connection method.
It should be understood that the terms “up”, “down”, “front”, “back”, “left”, “right”, “top”, “bottom”, “inside”, “outside”, etc. are based on the attached drawings to describe the direction or position relationship shown in the present disclosure. They are only for the convenience of describing the present disclosure and simplifying the description, rather than indicating that the device or component referred to must have a special direction or position relationship, thus, it cannot be understood as a limitation on the present disclosure. Further, it should be noted that when a component is considered to be “connected” to another component, it may be directly or indirectly connected to another component. Unless otherwise defined, all technical and scientific terms used in this article have the same meanings as those commonly understood by the skilled person in the art of this present disclosure. The terms used in the specification of this present disclosure are only for the purpose of describing specific embodiments and are not intended to limit this present disclosure.
Please refer to
In other embodiments of present disclosure, the main body 10 can also be arranged in other cylindrical structures, such as a cylinder (a sliding puzzle toy provided by the second embodiment as shown in
In the first embodiment, one of the bottom walls 10a is provided with a recessed slot 11 and a separable block 12. One side of the recessed slot 11 is connected to the side wall 10b to enable the recessed slot 11 to serve as a slider gap, and the connection between the recessed slot 11 and the side wall 10b has an arc-shaped transition to enable sliders 20 to move more smoothly between the recessed slot 11 and the side wall 10b. In other embodiments of present disclosure, it is not limited to setting recessed slots 11 and separable blocks 12 on only one bottom wall 10a, but can also set recessed slots 11 and separable blocks 12 on both bottom walls 10a simultaneously. The number of recessed slots 11 and separable blocks 12 on each bottom wall 10a can also be two, three, or more.
In the first embodiment, two connection slots 111 and two positioning slots 112 are also recessed inside the recessed slot 11. The two connection slots 111 are located on opposite sides of the walls inside the recessed slot 11, which are detachably connected to the part of the separable block 12. The two positioning slots 112 are located on the bottom wall of recessed slot 11 and are adjacent to one connection slot 111, respectively, which are detachably connected to another part of the separable block 12. In other embodiments of present disclosure, the recessed slot 11 may not be equipped with a connection slot 111 and/or a positioning slot 112.
In the first embodiment, the separable block 12 is matched with the recessed slot 11, and one side of the separable block 12 is detachably connected to the open side of the recessed slot 11. The other side of the separable block 12 is pivoted to the side wall of the recessed slot 11 through the connection strip 13. Wherein the connection strip 13 is accommodated and connected between the separable block 12 and the bottom wall 10a, and the two ends of the connection strip 13 are respectively pivoted with the separable block 12 and the bottom wall 10a. The setting of the connection strip 13 allows the separable block 12 to have a high degree of rotational freedom relative to the bottom wall 10a. It can be understood that the separable block 12 and the recessed slot 11, which are pivoted and matched on the bottom wall 10a, can open or close the slider gap during the relative rotation of the separable block 12, allowing the slider 20 to move on the main body 10 to ensure the game can proceed, and can close the slider gap when idle to prevent dust and maintain the overall aesthetics of the sliding puzzle toy 1. In other embodiments of present disclosure, the separable block 12 can also be directly pivoted with the side wall of the recessed slot 11. Obviously, in other embodiments, the separable block 12 matches with the recessed slot 11 can also be directly and detachably connected to the recessed slot 11. When in use, the slider gap can be opened or closed by placing the separable block 12 in the recessed slot 11 or disassembling and separating the separable block 12 from the recessed slot 11.
In the first embodiment, the two side walls opposite each other of the separable block 12 are respectively provided with one snap bulge 121 and one snap block 122, wherein the snap bulge is arranged corresponding to the connection slot 111 and is detachably connected to the connection slot 111, which is used to enable the separable block 12 to be stably connected to the recessed slot 11 when the sliding puzzle toy 1 is idle, preventing the separable block 12 from detaching from the recessed slot 11 under gravity. The snap block 122 is located on the side facing the positioning slot 112 on the side wall of the separable block 12. The snap block 122 is matched with the positioning slot 112 and is detachably connected to the positioning slot 112, playing a role in positioning and fixing the separable block 12 and the recessed slot 11 in collaboration with the snap bulge 121 and the connection slot 111. In other embodiments of present disclosure, when there is no connection slot 111 and/or positioning slot 112 in the recessed slot 11, the separable block 12 is also not provided with a snap bulge 121 and/or a snap block 122.
It should be noted that the structural design of setting the recessed slot 11 and separable block 12 on the bottom wall 10a has the advantage of a more streamlined and compact connection structure between the separable block 12 and the bottom wall 10a compared to the structure of setting the separable puzzle unit blocks on the side wall in existing technology, which is beneficial for reducing production costs and improving assembly efficiency. Moreover, setting the recessed slot 11 and the separable block 12 on the bottom wall 10a not only facilitates the operation of flipping the separable block 12, but also enables the slider 20 to move on the side wall 10b without being limited by the pattern of the separable block 12.
The outer surface of the side wall 10b is provided with a plurality of the sliding grooves which are intersected with each other along the circumferential and longitudinal directions, and the sliding groove is movably connected with a part structure of slider 20. In the first embodiment, the sliding groove includes three circumferential sliding grooves 14 and twelve longitudinal sliding grooves 15, wherein one longitudinal sliding groove 15 passes through the connection between the recessed slot 11 and the side wall 10b and extends towards the bottom wall of the recessed slot 11 to enable the slider 20 to enter and exit the recessed slot 11 under the guidance of the longitudinal sliding groove 15. In other embodiments of present disclosure, the number of circumferential sliding grooves 14 and longitudinal sliding grooves 15 can be adaptively adjusted according to the number and arrangement of sliders 20.
Each slider 20 includes a plate 21 and a base pillar 22 arranged in a vertical direction, wherein the plate 21 is exposed on the side wall 10b and matched with the side wall 10b, that is, when the side wall 10b is a closed curved surface, the plate 21 is an arc-shaped plate; when the side wall 10b is connected by multiple closed planes, the plate 21 is a flat plate. A pattern can be set on the plate 21 through spraying, adhesive connection, snap-fit connection, buckle connection, threaded connection, bolt connection, or magnetic connection. The patterns of several plates 21 can be spliced to form a complete large pattern, and the game can be played by restoring the disrupted patterns of several plates 21.
The base pillar 22 passes through the sliding groove to movably connect the slider 20 within the sliding groove. In the first embodiment, a positioning piece 23 is slidably sleeved on the base pillar 22, and the positioning piece 23 is movably connected in the sliding groove along with the base pillar 22 and contacts with the inner wall of the sliding groove. There is an elastic member 24 (such as a spring, etc.) connected between the positioning piece 23 and the end of the base pillar 22, which is used for providing an extra space for slider 20 to move smoothly on the main body 10 when the slider 20 crosses the connection between the recessed slot 11 and the side wall 10b and when the slider 20 crosses any arc-shaped transition surface 102, ensuring that the sliding puzzle toy 1 has a good gaming feel. In the other embodiments, the slider 20 can also adopt other structures to achieve the purpose of being movable and connected within the sliding groove, for example, a magnet may be provided fixed at the end of the base pillar 22 in each slider 20, and the magnet is movably connected in the sliding groove along with the base pillar 22. At this time, a magnetic film is set on the outer side on the side wall 10b opposite to the magnet, and the magnetic film is magnetically connected to the magnet to slidably connect the slider 20 to the main body 10.
During the game, the separable block 12 is rotated to open the recessed slot 11. By manually pushing the plate 21, the base pillar 22 is driven to move between the circumferential sliding grooves 14 and the longitudinal sliding grooves 15 which are intersected with each other, in order to change the relative position of any slider 20 on the side wall 10b, until the disrupted large pattern is restored to end the game.
Please refer to
In order to ensure that the separable block 12 is securely slidably connected within the recessed slot 11, a guide slot 113 is provided on the side wall of the recessed slot 11 along the movement direction of the separable block 12. The separable block 12 is provided with a first sliding plate 123 on the side wall opposite to the guide slot 113, and the first sliding plate 123 and the guide slot 113 are in a concave-convex sliding fit. In the third embodiment, in order to make it difficult for the separable block 12 to detach from the recessed slot 11, the bottom wall of the recessed slot 11 is further provided with a limit slot 114 along the movement direction of the separable block 12. The separable block 12 is provided with a second sliding plate 124 on the side wall opposite to the limit slot 114, and the second sliding plate 124 and the limit slot 114 are in a concave-convex sliding fit. Obviously, in other embodiments, the bottom wall of the recessed slot 11 may not be equipped with a limited slot 114, and at this time, the separable block 12 may not be correspondingly equipped with a second sliding plate 124.
Please refer to
In other embodiments of the present disclosure, the receiving cavity 115 in the recessed slot 11 can also be set adjacent to the side wall 10b according to different shapes and structures of the puzzle toy. The moving block 16 can also be movably connected to the receiving cavity 115 through other means, such as a structure with concave-convex moving fit, a structure with meshing moving fit, etc.
In the fourth embodiment, the recessed slot 11 includes two sub slots 110 that intersect with each other in a cross shape. The intersection position of the two sub slots 110 is recessed to form a receiving cavity 115, and each sub slot 110 is sliding with two separable blocks 12. By pushing any separable block 12 to move and overlap with the moving block 16, the recessed slot 11 can be opened, so as to increase the utilization convenience of the sliding puzzle toy. It can be understood that since recessed slot 11 is composed of two cross intersecting sub slots 110, four separable blocks 12 are respectively moved and set at the midpoint positions of the four sides of the bottom wall 10a on one bottom wall 10a of the main body 10. At this time, guide slots 113 are set on either of the two vertical edges of the recessed slot 11 in bottom wall 10a, and first sliding plates 123 are set on both sides opposite to the guide slots 113 in any separable block 12. Meanwhile, any separable block 12 is further provided with guide slots 113 on the side wall adjacent to the moving block 16, allowing any separable block 12 to move onto the moving block 16. In other embodiments of the present disclosure, according to the shape and setting requirements of the main body 10, the recessed slot 11 may also include three or more intersecting sub slots 110. At this time, the intersection position of any two sub slots 110 is recessed to form a receiving cavity 115, and at least one separable block 12 is sliding inside each sub slot 110.
In the fourth embodiment, the bottom wall of the receiving cavity 115 is provided with a retaining ring 1151. The end of the first spring 103 is detachably clamped and fixed on the retaining ring 1151, the other end of the first spring 103 is in contact with the moving block 16, allowing the moving block 16 to move towards the receiving cavity 115 under external force. At the same time, when the external force on the moving block 16 is withdrawn, the moving block 16 can be pushed to reset through the first spring 103, so that the moving block 16 can transform between the first state and the second state. It can be understood that in order to guide the moving block 16 to move in the correct direction within the receiving cavity 115, the bottom wall of the receiving cavity 3313 is also provided with a moving cavity 1152. At this time, the moving block 16 is provided with a connection post 161 on the side wall corresponding to the moving cavity 1152, and the connection post 161 can be movably connected within the moving cavity 1152. In other embodiments of the present disclosure, the receiving cavity 115 may not be provided with a moving cavity 1152, accordingly, the moving block 16 is not provided with a connection post 161. The bottom wall of the moving cavity 1152 and the connection post 161 can also be connected through an elastic member (such as a spring) to enhance the ability of the moving block 16 to reset automatically.
Please refer to
The pushing block 17a is fixedly and slidably connected with the connection post 161 between the plurality of guiding ribs 1153, so that the pushing block 17a needs to move back and forth in the direction limited by the guiding ribs 1153. The pushing block 17a is provided with serrated claws 171 in the circumferential direction at the end of the moving cavity 1152, which are used to contact with the limit block 17b to push the limit block 17b to move within the moving cavity 1152.
The limit block 17b is connected to the bottom wall of the moving cavity 1152 through an elastic member (such as the second spring 104), and the outer wall of the limit block 17b is provided with a plurality of positioning ribs 172. Each positioning rib 172 is slidably connected between any two guiding ribs 1153, so that the limit block 17b needs to move back and forth in the direction restricted by the guiding ribs 1153. Each positioning rib 172 is provided with a second inclined surface 173 at the end opposite to the serrated claws 171. The second inclined surface 173 contacts to the serrated claws 171, so that the limit block 17b can slide on the guiding ribs 1153 under the driving force of the pushing block 17a. The inclination direction and the inclination angle of each second inclined surface 173 are the same as those of the first inclined surface 1154, so that the second inclined surface 173 can move along the first inclined surface 1154 when moving to the endpoint position of the first inclined surface 1154, therefore, each positioning rib 172 can rotate and move between adjacent guiding ribs 1153 to achieve the positioning and resetting of the moving block 16.
It should be noted that the process of moving block 16 moving within the moving cavity 1152 by the pushing block 17a and the limit block 17b is roughly as shown in
Please refer to
The restriction block 18a is fixed and slidably connected to the connection post 161 in the mobile cavity 1152. One side of the wall of the restriction block 18a is provided with a channel 181. In the sixth embodiment, an arrow-shaped raised rib 182 is arranged in the middle of the channel 181, to make a M-shaped passage form inside the channel 181. At this time, the channel 181 is provided with a recessed point 1811 which is recessed downwards. It should be noted that in order to limit the movement path of the restriction rod 18b within the channel 181, the side walls of the channel 181 are equipped with inclined planes that are guided in conjunction with the raised ribs 182. In other embodiments of the present disclosure, channel 181 may not be limited to the M-shaped passage configuration in this embodiment, and the channel 181 may also be configured in other shapes with a recessed point 1811.
One end of the restriction rod 18b is fixed in the mounting hole 1155, and the other end of the restriction rod 18b corresponds to a raised rib 182 and can be movably connected in the channel 181, so that the end of the restriction rod 18b can move with the movement of the restriction block 18a, and move to the recessed point 1811 of the channel 181 to engage or separate, thereby achieving the positioning and resetting of the moving block 16.
It should be noted that the process of the moving block 16 moving within the moving cavity 1152 through the restriction block 18a and the restriction rod 18b is roughly as follows: as shown in
For clarity, certain features described in the embodiments of this present disclosure can be combined for use in one embodiment. Moreover, the various features of the present disclosure described in a single embodiment can also be used individually or in any suitable form in sub combinations.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202320056772.1 | Jan 2023 | CN | national |
| 202322716462.0 | Oct 2023 | CN | national |
