This application claims priority to Korean Patent Application No. 10-2020-0140877, filed on Oct. 28, 2020, the entire content of which is hereby incorporated by reference.
Embodiments disclosed in this document relate to a toy robot.
The toy robot can be made by imitating a shape or movement of a human or animal's body. For example, in order to reproduce a body part having joints such as a human arm and leg, the toy robot may have a joint structure.
The parts included in the toy robot can be made of various materials such as metal, plastic, and paper. If the prefabricated parts are made of solid materials such as metal and plastic, durability of a complete robot can be guaranteed after assembly by designing a coupling structure of each part precisely. However, if the parts are made of a material that can be easily deformed even with a small force, such as paper, a technology that allows the complete robot to rigidly maintain its completed form after the parts are assembled is needed.
If the parts of the toy robot are made of paper, a raw material price becomes cheaper. In addition, since the parts themselves are light in weight, there is an advantage in that the weight of the toy robot itself is also lightened. However, paper parts lack rigidity as they can be easily bent or deformed. Therefore, a design to compensate for the shortcomings of these parts and to maintain rigidity of the complete robot is needed.
The toy robot according to an embodiment disclosed in this document may include a joint structure. The joint structure comprises a first link and a second link, and a first connecting member and a second connecting member that connect the first link and the second link so that the first and second links are rotatable, and each of the first link and the second link comprises a central region and a pair of sidewall regions that are bent to extend to the left and right of the central region, and the pair of sidewall regions may face each other. A first sidewall region of the pair of sidewall regions of the first link and a second sidewall region of the pair of sidewall regions of the second link at least partially overlap, the first connecting member comprises a first shaft penetrating the overlapping region of the first sidewall region and the second sidewall region, a third sidewall region of the pair of sidewall regions of the first link and a fourth sidewall region of the pair of sidewall regions of the second link at least partially overlap, the second connecting member comprises a second shaft penetrating the overlapping region of the third sidewall region and the fourth sidewall region, and the first link and the second link may be configured to rotate about the first shaft and the second shaft.
In connection with the description of the drawings, the same or similar reference numerals may be used for the same or similar components.
Hereinafter, various embodiments of the present invention will be described with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, and it should be understood that various modifications, equivalents, and/or alternatives of the embodiments of the present invention are included.
The toy robot may refer to, for example, a robot-shaped toy. The toy robot may include a joint structure 50 in an embodiment. The joint structure 50 may be understood as a structure for reproducing the joint structure of a human or an animal. For example, the joint structure 50 may constitute a portion that can be bent similarly to a human body, such as a human arm or leg.
In an embodiment of the present invention, a link may be understood as a part constituting the joint structure 50 of the toy robot. The link may be, for example, a part made of a paper material. The links may be assembled while being bent or bent to constitute the joint structure 50 of the toy robot. Links may be bent according to guide lines (dotted lines) shown for reference in the links. The links may be coupled with other links in a bent form to form the joint structure. As an example of the link, a first link 100 and a second link 200 of
The joint structure 50 may include the first link 100, the second link 200, and at least one connecting member connecting the first link 100 and the second link 200 so that the first link 100 and the second link 200 rotate.
In an embodiment, a first connecting member 300 and a second connecting member 350 may connect the first link 100 and the second link 200 to be rotatable. The first link 100 and the second link may form a rotating axis 303.
For example, the connecting member may include a shaft parallel to the rotating axis 303. The shaft may include rod-shaped metal or rod-shaped plastic.
The first link 100 and the second link 200 may be made of a paper material. For example, the links may be made of various paper materials such as manila paper, ivory paper, corrugated paper, gang paper, hard board paper, and eco-friendly paper.
In an embodiment, the first link 100 may comprise a first region 101 and a pair of first extension regions 110 that are bent to extend from each of a pair of parallel first edges 103 of the first region 101. The pair of first extension regions 110 may face each other.
In
In an embodiment, the first link 100 and the second link 200 may be connected such that the pair of first extension regions 110 and the pair of second extension regions 210 at least partially overlap. For example, a 1-1 extension region 110-1 of the pair of first extension regions 110 and a 2-1 extension region 210-1 of the pair of second extension regions 210 may partially overlap. A 1-2 extension region 110-2 of the pair of first extension regions 110 and a 2-2 extension region 210-2 of the pair of second extension regions 210 may partially overlap.
In various embodiments, the first region 101 and the second region 201 are disposed parallel to each other, and may be disposed on a straight line or disposed at positions facing each other. For example, the 1-1 extension region 110-1 and the 2-2 extension region 210-2 may partially overlap, and the 1-2 extension region 110-2 and the 2-1 extension region 210-1 may partially overlap.
In an embodiment, the first connecting member 300 may include a first shaft parallel to the rotating axis 303. The second connecting member 350 may include a second shaft parallel to the rotating axis 303. The first shaft of the first connecting member 300 may penetrate a region where the 1-1 extension region 110-1 and the 2-1 extension region 210-1 overlap. The second shaft of the second connecting member 350 may penetrate a region where the 1-2 extension region 110-2 and the 2-2 extension region 210-2 overlap. In this case, the first link 100 and the second link 200 may rotate around the first shaft and the second shaft.
In an embodiment, a pair of first openings 115 formed through which the first connecting member 300 penetrates may be formed in the pair of first extension regions 110 of the first link 100. A pair of second openings 215 formed through which the second connecting member 350 penetrates may be formed in the pair of second extension regions 210 of the second link 200.
In an embodiment, the pair of first openings 115 and the pair of second openings 215 may be at least partially aligned when viewed in the extension direction of the rotating axis 303. For example, the pair of first openings 115 and the pair of second openings 215 may be disposed so that at least some portions thereof overlap. The first connecting member 300 and the second connecting member 350 may connect the first link 100 and the second link 200 through the overlapping regions of the openings.
In an embodiment, the first connecting member 300 may be disposed by penetrating the opening 115-1 and the opening 215-1 to connect the 1-1 extension region 110-1 and the 2-1 extension region 210-1. The second connecting member 350 may be disposed by penetrating the opening 115-2 and the opening 115-2 to connect the 1-2 extension region 110-2 and the 2-2 extension region 210-2.
The first region 101 may include the pair of first edges 103 and a pair of third edges 105 perpendicular thereto. The second region 201 may include a pair of second edges 203 and a pair of fourth edges 205 perpendicular thereto.
In an embodiment, the first link 100 may include a pair of third extension regions 120 that are bent to extend from the pair of parallel third edges 105 of the first region 101. The pair of third extension regions 120 may face each other. The second link 200 may include a pair of fourth extension regions 220 that are bent to extend from the pair of parallel fourth edges 205 of the second region 201. The pair of fourth extension regions 220 may face each other.
The pair of third extension regions 120 are bent to extend from, so that the pair of third extension regions 120 may have a lateral force with respect to the first region 101. Therefore, the first region 101 may be supported taut without being bent. The pair of fourth extension regions 220 are bent to extend from the second region 201, so that the pair of fourth extension regions 120 may have a lateral force with respect to the second region 201. Therefore, the second region 101 may be supported taut without being bent. In one example, when the first link 100 and the second link 200 are made of a paper material, the pair of third extension regions 120 and the pair of fourth extension regions 220 may help to make the joint structure 50 rigid.
In various embodiments, the first region 101 may be referenced as a central region of the first link. The pair of first extension regions 110 may be referenced as a pair of sidewall regions that are bent to extend to the left and right of the central region. A first sidewall region of the pair of sidewall regions of the first link and a second sidewall region of the pair of sidewall regions of the second link may at least partially overlap. The first connecting member may include a first shaft penetrating the overlapping region of the first sidewall region and the second sidewall region. A third sidewall region of the pair of sidewall regions of the first link and a fourth sidewall region of the pair of sidewall regions of the second link may at least partially overlap, and the second connecting member may include a second shaft penetrating the overlapping region of the third sidewall region and the fourth sidewall region. The first link and the second link may be configured to rotate about the first shaft and the second shaft.
In an embodiment, the first connecting member 300 may include a bolt 310 and a nut 320 fastened to the bolt 310. For example, the first shaft of
In an embodiment, the bolt 310 may include a head 312, and a first bolt region 314 and a second bolt region 316 extending from one surface of the head 312. The first bolt region 314 and the second bolt region 316 may extend from one surface of the head 312 in the direction of the rotating axis 303 of the joint structure 50. The direction of the rotating axis 303 may be parallel to a normal vector of one surface of the head 312. In various embodiments, the rotating axis 303 may pass through the center of the head 312.
In this case, the first link 100 and the second link 200 may be configured to rotate around the first bolt region 314 and the second bolt region 316 of the bolt 310. The first bolt region 314 and the second bolt region 316 may be spaced apart from each other by a prescribed distance with the rotating axis 303 interposed therebetween. The first bolt region 314 and the second bolt region 316 may be formed to be deformable so that the prescribed distance approaches or moves away from each other.
Referring to
In an embodiment, each of the first bolt region 314 and the second bolt region 316 has the same radius around the rotating axis 303 when viewed in the cross section perpendicular to the rotating axis 303.
Referring to
In an embodiment, a protruding portion extending in a circumferential direction of the rotating axis 303 and protruding in a radial direction of the rotating axis 303 may be formed on each of the first arc surface 314-2 and the second arc surface 316-2. The protruding portion may include a plurality of protruding portions spaced apart from each other at regular distances in the direction of the rotating axis. In this case, the protruding portion extending to the first arc surface 314-2 and the protruding portion extending to the second arc surface 316-2 may be continuous.
Referring to
For example, the protruding portions of the bolt 310 may be respectively disposed at regular distances rather than spiral. In this case, the groove 322 of the nut 320 may be fastened to any one of the plurality of protruding portions.
In one example, the inner radius of the nut 320 may be equal to the radius of the first arc surface 314-1 of the first bolt region 314 or the radius of the second arc surface 316-1 of the second bolt region 316.
In an embodiment, the bolt 310 and the nut 320 may be made of an eco-friendly material such as polyethylene (PE), Ecozen, etc. in addition to a general metal material.
A link 100-1 of
Referring to
Referring to
Referring to
The link 100-2 may be coupled with other links in the form illustrated in
Referring to
For example, the pair of fifth openings 415 may be disposed to overlap the pair of first openings 115 of the first link 100 of
Referring to
If the links of the toy robot are made of a paper material, paper has a tendency to unfold. Referring to
Referring to
The link 600 may be coupled with the other link in a bent state according to the guide line displayed on the link 600. The openings included in the link 600 may be understood as connecting portions for coupling with the other link. The link 600 and the other link connected thereto may be configured to rotate the connecting member coupled to the openings (e.g., the connecting member 300 of
One extension region 610a of the pair of extension regions 610 of the link 600 may extend from one end of an edge 603a of the link 600 (e.g., any one of the pair of first edges 103 of the first link 100 of
One of the pair of extension regions 610 of the link 600 may correspond to any one of the pair of extension regions 110 of the first link 100 of
Referring to
Referring to
For example, the triangular-shaped surface 610a-1 of the region 610a may secure a rotation region with the link to be connected through the openings 617. The triangular-shaped surface of the region 610b may secure a rotation region with the link to be connected through the openings 615.
Referring to
In particular, the link 600 may be made of a paper material, and may constitute a portion of the toy robot in a bent or bent state according to the guide line shown in the link 600. In this case, even if the link 600 has a tendency to unfold due to the characteristics of paper, the assembled state can be stubbornly maintained by forming the first rotating axis and the second rotating axis perpendicular to each other. Accordingly, by coupling the link 600 with the other links 650 and 660, the assembled state of the link 600 may be rigidly maintained.
According to the embodiments disclosed in this document, it is possible to ensure the rigidity of the toy robot by assembling paper parts lacking in rigidity through the joint structure of the toy robot. In addition, the joint structure may allow the toy robot to reproduce the movement of a human or an animal. In addition, various effects directly or indirectly identified through this document may be provided.
Various embodiments of this document and terms used therein are not intended to limit the technical features described in this document to specific embodiments, but it should be understood to include various modifications, equivalents, or alternatives of the embodiments. In connection with the description of the drawings, like reference numerals may be used for similar or related components. The singular form of the noun corresponding to an item may include one or more of the items, unless the relevant context clearly dictates otherwise. As used in this document, each of the phrases such as “A or B”, “at least one of A and B”, “at least one of A or B,” “A, B or C,” “at least one of A, B, and C”, and “at least one of A, B, or C” may include all possible combinations of items listed together in the corresponding one of the phrases. Terms such as “first”, “second”, or “firstly” or “secondly” may simply be used to distinguish a component from other components, and do not limit the components in other respects (e.g., importance or order).
Number | Date | Country | Kind |
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10-2020-0140877 | Oct 2020 | KR | national |
Number | Name | Date | Kind |
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1387097 | Benton | Aug 1921 | A |
3659309 | Besnard | May 1972 | A |
4294036 | Wion | Oct 1981 | A |
5073060 | Pethers | Dec 1991 | A |
9238673 | Steiner | Jan 2016 | B2 |
20030077109 | Chen | Apr 2003 | A1 |
Number | Date | Country | |
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20220126213 A1 | Apr 2022 | US |