Parallelogram plane moving puzzle

By designing a parallelogram-shaped planar movable puzzle and using slots or planar fitting structures, the angle between the puzzle units in two directions is not equal to 90 degrees, which solves the problem of the single puzzle assembly method in existing puzzle toys and realizes a diversified puzzle assembly experience.

CN224331477UActive Publication Date: 2026-06-09LONGYAN XINLUO DISTRICT JIAMU TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LONGYAN XINLUO DISTRICT JIAMU TECH CO LTD
Filing Date
2025-05-18
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The angle formed by the movement trajectories of the assembly units in existing planar moving puzzle toys in two directions is usually a right angle, which lacks diversity and results in a single assembly method.

Method used

Design a parallelogram planar movable jigsaw puzzle, employing a slotted or planar fitting structure between the splicing units and the splicing base, so that the included angle between the splicing units in the two moving directions is not equal to 90 degrees, thereby increasing the diversity of splicing methods.

Benefits of technology

It offers a new splicing experience, enriches the splicing methods, and enhances the fun and challenge of splicing.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a parallelogram-shaped planar movable jigsaw puzzle. Its features include: the planar movable jigsaw puzzle comprising puzzle units and a puzzle base; the sides of the puzzle units fitting together, and the puzzle units and the puzzle base fitting together; the points on the puzzle units move along the same plane; the puzzle units have two directions of movement within the puzzle, and the angle between the two directions is not equal to 90 degrees. This utility model represents a novel structural design that provides puzzlers with a different thinking and puzzle-solving experience, serving as a beneficial supplement to traditional planar movable jigsaw puzzles and contributing to the intellectual development of children.
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Description

Technical Field

[0001] This utility model relates to a planar moving jigsaw puzzle toy. Background Technology

[0002] In current planar moving puzzle toys, the trajectories of the puzzle units in two directions form a right angle. However, even when the angle formed by the trajectories of the puzzle units in two directions is not equal to 90 degrees, there can still be a structure that allows the puzzle units to move and be assembled. Summary of the Invention

[0003] To enrich the ways to assemble jigsaw puzzles and supplement the structural design of current planar movable jigsaw puzzles, this utility model adopts the following technical solution:

[0004] A parallelogram planar movable puzzle, characterized in that: the planar movable puzzle includes a splicing unit and a splicing base; the sides of the splicing unit and the splicing base are fitted together; the points on the splicing unit have a movement trajectory on the same plane; the splicing unit has two movement directions in the puzzle, and the included angle between the two movement directions is not equal to 90 degrees.

[0005] Furthermore, the fitting structure of the planar movable puzzle is a slot fitting structure.

[0006] Furthermore, the fitting structure of the planar movable puzzle is a planar fitting structure.

[0007] By adopting the above structure, a novel structural design can be created, which can bring different thinking and splicing experience to the splicer, and can serve as a useful supplement to traditional planar movable puzzles.

[0008] The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. Attached Figure Description

[0009] Figure 1 This is a schematic diagram of the planar moving puzzle in Embodiment 1;

[0010] Figure 2 These are the three views of the splicing unit in Embodiment 1;

[0011] Figure 3 This is a schematic diagram of the splicing base in Embodiment 1. Detailed Implementation

[0012] like Figure 1The parallelogram-shaped planar movable jigsaw puzzle shown includes a splicing unit 1 and a splicing base 2; the sides of the splicing unit 1 fit together, as do the splicing unit 1 and the splicing base 2; the splicing units 1 have the same shape and structure; the points on the splicing unit 1 move along the same plane; the splicing unit 1 has two directions of movement in the puzzle, and the angle between the two directions is not equal to 90 degrees. 3 is a splicing position, in... Figure 1 There is a splicing space 3. With splicing space 3, the splicing unit 1 in the adjacent splicing position can move into this splicing space 3. 4 is the mating contact point in the vertical movement direction of splicing unit 1; 5 is the mating contact point in the horizontal movement direction of splicing unit; 6 is the card structure in the existing planar moving puzzle card slot mating structure. Among them, splicing space 3 can be designed with an easily removable appearance auxiliary splicing unit. It can be easily removed when splicing begins and put back after the splicing unit is completed, so as to make the appearance of the puzzle more complete and beautiful.

[0013] like Figure 2 The diagram shows the splicing unit of Embodiment 1. 1 is the main body of the splicing unit; 2 and 3 are the card structures of the card slot fitting structure; 4 and 5 are the slot structures of the card slot fitting structure. Card structure 2 and slot structure 5 can form a card slot fitting structure in terms of shape, as can card structure 3 and slot structure 4, so that the sides of the splicing units are interconnected, and the sides of the splicing units and the splicing base are interconnected, allowing the splicing units to move up, down, left, and right in the puzzle. The main body 1 of the splicing unit and the card slot fitting structures constitute the splicing unit.

[0014] like Figure 3 This is a schematic diagram of the splicing base, where 1 is the contact surface between the splicing base and the inner surface of the splicing unit; 2 is the frame; and 3 is the clip structure of the frame. Figure 2 The corresponding slot structures of the splicing units fit together; the two sides of the opposite frame of the splicing base card structure 3 are provided with slot structures, which fit together with the splicing unit card structures to form a card slot fitting structure. This utility model differs from existing planar moving jigsaw puzzles only in that: in existing planar moving jigsaw puzzles, the included angle between the two directions of movement of the splicing units is a right angle, while in the planar moving jigsaw puzzle disclosed in this utility model, the included angle between the two directions of movement of the splicing units is not equal to 90 degrees.

[0015] In Example 2, when the fitting structure of Example 1 is set as a planar fitting structure, the sides of the splicing units are in planar contact, as are the sides of the splicing units and the splicing base, and the splicing units can still be moved and spliced. In this case, the splicing units and the splicing base can also be made magnetic, allowing them to adhere together through magnetic attraction, resulting in a more stable fit.

[0016] In Example 1, the two opposite sides of the splicing unit can have either a slotted fitting structure or a planar fitting structure. The planar fitting structure can also be designed as an arc-shaped curved surface fitting structure. Two adjacent sides of the splicing unit have an arc-shaped curved surface structure A, and the other two adjacent sides have arc-shaped curved surface structures B. The arc-shaped curved surface structures of the opposite sides fit together, i.e., curved surface structures A and B fit together to form a curved surface fitting structure AB, allowing the splicing unit to move and splice vertically, horizontally, and vertically within the jigsaw puzzle. The curved surface fitting structures of the opposite sides of the splicing unit fit each other structurally, but the curvature of the curved surface fitting structures of non-opposite sides can be different. The fitting structures can vary greatly, but the function and effect of moving and splicing are basically the same, and they can all be considered equivalent designs.

[0017] The parallelogram planar movable jigsaw puzzle disclosed in this utility model refers to a closed planar geometric shape formed by the trajectory generated by the moving and splicing of points on the splicing unit, specifically a parallelogram whose interior angles do not contain right angles.

[0018] The above description of the present invention, in conjunction with the accompanying drawings and specific embodiments, is illustrative and not intended to limit the present invention.

Claims

1. A parallelogram-shaped planar movable jigsaw puzzle, characterized in that: The planar movable puzzle includes splicing units and splicing bases; the sides of the splicing units fit together, as do the splicing units and the splicing bases; the points on the splicing units move along the same plane; the splicing units have two directions of movement in the puzzle, and the angle between the two directions of movement is not equal to 90 degrees.

2. The parallelogram planar movable jigsaw puzzle according to claim 1, characterized in that: The fitting structure of the planar movable puzzle is a slot fitting structure.

3. The parallelogram planar movable jigsaw puzzle according to claim 1, characterized in that: The fitting structure of the planar movable puzzle is a planar fitting structure.