CN115430159B - Toy parts and model toy - Google Patents
Toy parts and model toy Download PDFInfo
- Publication number
- CN115430159B CN115430159B CN202211088488.9A CN202211088488A CN115430159B CN 115430159 B CN115430159 B CN 115430159B CN 202211088488 A CN202211088488 A CN 202211088488A CN 115430159 B CN115430159 B CN 115430159B
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- Prior art keywords
- fitting
- toy
- rotatably connected
- finger
- state
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- 230000008878 coupling Effects 0.000 claims description 29
- 238000010168 coupling process Methods 0.000 claims description 29
- 238000005859 coupling reaction Methods 0.000 claims description 29
- 238000005452 bending Methods 0.000 claims description 5
- 210000000707 wrist Anatomy 0.000 claims description 3
- 230000007704 transition Effects 0.000 claims 4
- 210000003811 finger Anatomy 0.000 description 104
- 210000003813 thumb Anatomy 0.000 description 28
- 210000004932 little finger Anatomy 0.000 description 10
- 238000010586 diagram Methods 0.000 description 7
- 230000000694 effects Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
- 230000001012 protector Effects 0.000 description 1
- 230000003252 repetitive effect Effects 0.000 description 1
Classifications
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H3/00—Dolls
- A63H3/36—Details; Accessories
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H13/00—Toy figures with self-moving parts, with or without movement of the toy as a whole
- A63H13/02—Toy figures with self-moving parts, with or without movement of the toy as a whole imitating natural actions, e.g. catching a mouse by a cat, the kicking of an animal
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H3/00—Dolls
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H3/00—Dolls
- A63H3/36—Details; Accessories
- A63H3/46—Connections for limbs
Landscapes
- Toys (AREA)
Abstract
The present invention relates to toy parts and model toys. A toy component of a hand which makes the gripping of the hand more natural. A toy part that is a toy part of a hand of a model toy, wherein the toy part comprises: a plurality of 1 st finger structures configured to be bendable toward a 1 st surface side of the toy member; a 1 st member, to which the plurality of 1 st finger structures are rotatably connected, respectively; a 2 nd member, the 1 st member being rotatably connected to the 2 nd member; a 1 st cover member coupled to a 2 nd surface side of the 2 nd member on a side opposite to the 1 st surface; and a 2 nd cover member rotatably connected to the 1 st cover member.
Description
Technical Field
The present invention relates to toy parts and model toys.
Background
Patent document 1 describes a hand structure as a toy member of an assembled toy. In the toy component, the palm portion is integrally formed.
Prior art literature
Patent literature
Patent document 1: japanese patent laid-open No. 2009-107275
Disclosure of Invention
Problems to be solved by the invention
The present invention aims to provide a toy member for a hand which is more natural in hand gripping performance than the toy member described in patent document 1.
Solution for solving the problem
The present invention is a toy member for a hand of a model toy, the toy member comprising: a plurality of 1 st finger structures configured to be bendable toward a 1 st surface side of the toy member; a 1 st member, to which the plurality of 1 st finger structures are rotatably connected, respectively; a 2 nd member, the 1 st member being rotatably connected to the 2 nd member; a 1 st cover member coupled to a 2 nd surface side of the 2 nd member on a side opposite to the 1 st surface; and a 2 nd cover member rotatably connected to the 1 st cover member, wherein the toy component of the hand has a 1 st state in which the hand is opened and a 2 nd state in which the hand is closed, and in the 2 nd state, the 1 st member and the 2 nd cover member are configured to be rotatable toward the 1 st surface side in correspondence with bending of the plurality of 1 st finger structures toward the 1 st surface side.
The present invention also provides a model toy having the toy components.
ADVANTAGEOUS EFFECTS OF INVENTION
The present invention can provide a toy device for a hand which can make the gripping of the hand more natural and a model toy using the toy device.
Drawings
Fig. 1 is a view showing an example of the external appearance of an assembled toy according to the embodiment.
Fig. 2 is a diagram showing an example of the appearance of the toy component according to the embodiment in the 1 st state.
Fig. 3 is a diagram showing an example of the appearance of the toy component according to the embodiment in the 2 nd state.
Fig. 4 is a diagram showing an example of an exploded structure of the 1 st surface of the toy component according to the embodiment.
Fig. 5 is a diagram showing an example of an exploded structure of the 2 nd surface of the toy component according to the embodiment.
Fig. 6 is a diagram showing an example of a cross-sectional structure of the toy component according to the embodiment in the 1 st state.
Fig. 7 is a view showing an example of a cross-sectional structure of a toy member according to the embodiment in the 2 nd state.
Detailed Description
Hereinafter, embodiments will be described in detail with reference to the drawings. The following embodiments are not intended to limit the invention claimed in the claims, and all combinations of features described in the embodiments are not essential to the invention. Two or more of the features described in the embodiments may be arbitrarily combined. The same or similar structures are denoted by the same reference numerals, and repetitive description thereof will be omitted. In each of the drawings, the vertical, horizontal, and forward directions with respect to the paper surface are used as the vertical, horizontal, and forward directions of the members (or accessories) in the present embodiment in the description herein.
First, as a model toy according to the present embodiment, fig. 1 shows an example of the appearance of a toy figure. Fig. 1 is a schematic view schematically showing the external appearance of a toy building set 1 according to the embodiment. The assembled toy 1 includes model members such as a head 10, a trunk 11, an arm 12, a waist 13, and a leg 14, and is formed by combining these model members. A hand corresponding to the toy member 100 of the present embodiment is coupled to the tip end of the arm 12. In the present embodiment, an example of an assembled toy completed by a user assembling model components is described as a model toy, but the present invention is not limited thereto, and may be an assembled model toy, for example.
At least a part of each of the sites 10 to 14 and 100 is supported so as to be rotatable (or swingable) with respect to an adjacent site. For example, the head 10 is rotatably supported with respect to the trunk 11, and the arm 12 is rotatably supported with respect to the trunk 11, and is tilted forward and backward. Toy component 100 is also supported for rotation relative to arm 12.
In this way, the joint structures are provided at the respective portions of the assembled toy 1, and the user (for example, the owner of the assembled toy 1) can set the assembled toy 1 to a desired posture. In fig. 1, although omitted, one or more ornamental members may be attached to the assembled toy 1. The ornamental member may be configured in the same manner as the model member of the assembled toy described in the present embodiment. Examples of the ornamental member include a weapon such as a sword or a gun, and a protector such as a shield. According to the toy member 100 of the present embodiment, such a weapon and a protective tool can be gripped, and the appearance of the toy member 100 for gripping a weapon or the like can be made more natural.
Next, fig. 2 and 3 show an example of a more detailed external appearance of the toy component according to the present embodiment. In the present embodiment, the state in which the hand is opened is referred to as "1 st state" and the state in which the hand is closed is referred to as "2 nd state" with respect to the toy member 100 of the hand of the assembled toy 1. Fig. 2 shows an example of the appearance of the toy device 100 in the 1 st state of the hand, and fig. 3 shows an example of the appearance of the toy device 100 in the 2 nd state. In the 1 st state of toy member 100, the palm side is referred to as "1 st face", and the back side is referred to as "2 nd face".
Fig. 2 (a) is a view showing an external appearance of the 1 st surface side of the toy member 100 of the hand of the assembled toy 1 according to the embodiment. Fig. 2 (B) is a view showing the appearance of the toy member 100 on the 2 nd surface side. In fig. 2, toy member 100 has a plurality of finger structures corresponding to thumb 101, index finger 102, middle finger 103, ring finger 104, and little finger 105. The number of fingers can be changed according to the structure of the assembled toy 1.
Each finger structure has 1 st to 3 rd joint portions and is bendable relative to the 1 st surface side. The palm portion is composed of two fittings 106 and 107, and the fitting 106 and the fitting 107 are rotatably connected in the inward direction of the palm (the direction toward the 1 st surface side). The index finger 102, the middle finger 103, the ring finger 104, and the little finger 105 are rotatably connected to the attachment 106 at least in the 1 st plane side, and the thumb 101 is rotatably connected to the attachment 107 in the directions of arrows 201 and 202. Here, the index finger 102, the middle finger 103, the ring finger 104, and the little finger 105 connected to the fitting 106 can be referred to as "1 st finger structure(s)" and the thumb 101 connected to the fitting 107 can be referred to as "2 nd finger structure" depending on the connection target portion of each finger structure. The connecting portion 111 constituting the wrist is rotatably connected to the attachment 107, and can be connected to the arm portion 12 of the toy 1 via the connecting portion 111.
Further, on the 2 nd surface side of the toy member 100, a fitting 108 and a fitting 109 are disposed so as to cover the fitting 106 and the fitting 107, and the fitting 108 is connected to the fitting 109 so as to be rotatable to the 1 st surface side with respect to the fitting 109. The fitting 106 and the fitting 108 are not directly connected, but when the fitting 106 is bent toward the palm side, the fitting 108 can be bent together. Further, the operation of the fitting 108 may be configured to be linked to the fitting 106. Fitting 107 and fitting 109 function as bases when finger structure and fitting 106 are rotated.
Next, fig. 3 (a) is a diagram showing an external appearance of the 1 st surface side of the toy member 100 in the case where the plurality of finger structures are bent to be in the 2 nd state according to the embodiment. Fig. 3 (B) is a diagram showing the appearance of the 2 nd surface side of the toy member 100 in the case where the finger structure is bent to be in the 2 nd state.
As described above, the fitting 108 is rotatably connected to the fitting 109, and in fig. 3 (B), the fitting 108 is shown rotated to the 1 st surface side with respect to the fitting 109. At this time, as shown in fig. 3 (a), the index finger portion 102, the middle finger portion 103, the ring finger portion 104, and the little finger portion 105 are bent toward the 1 st surface side. Then, by rotating the thumb 101 in the directions of arrows 201 and 202, the thumb 101 is arranged in a laterally inverted shape under the bent index finger 102, middle finger 103, ring finger 104, and little finger 105.
Next, the structure of each of the accessories constituting the toy member 100 will be described with reference to fig. 4 and 5. Fig. 4 is a view showing an example of an exploded structure seen from the 1 st surface side of the hand of toy member 100, and fig. 5 is an exploded view seen from the 2 nd surface side of toy member 100.
In fig. 4 and 5, the thumb portion 101, the index finger portion 102, the middle finger portion 103, the ring finger portion 104, and the little finger portion 105 are provided with connection portions 101a, 102a, 103a, 104a, and 105a, respectively, and the ball-shaped connection portion of the connection portion 101a is rotatably connected in a ball joint form to a recess 107a provided in the attachment 107. The spherical connecting portions provided at the respective end portions of the connecting portions 102a, 103a, 104a, 105a are rotatably connected to the concave portions 106a to 106d provided in the fitting 106 in the form of ball joints.
The fitting 106 has protrusions 106e, 106f on the lower side, and is rotatably connected with recesses 107c, 107d of the fitting 107. By this connection, the fitting 106 can be rotated to the 1 st surface side with respect to the fitting 107. Fitting 107 has protrusions 107e, 107f for connection with fitting 109 and recesses 107g, protrusions 107e, 107f engaging with openings 109c, 109d of fitting 109, and recesses 107g engaging with protrusions 109e of fitting 109, thereby ensuring connection between fitting 107 and fitting 109. Further, a protrusion 107b rotatably coupled to the opening 111a of the coupling portion 111 is provided on the lower side of the fitting 107.
The fitting 108 is configured to have protrusions 108a and 108b on the lower side, and the protrusions are rotatably connected to recesses 109a and 109b provided on the upper side of the fitting 109. By this connection, the fitting 108 can be rotated to the 1 st surface side with respect to the fitting 109.
Next, a cross-sectional structure of toy member 100 in the 1 st state in which the hand is opened will be described with reference to fig. 6. Fig. 6 is a cross-sectional view showing an example of a cross-sectional configuration at the line A-A ', the line B-B ', the line C-C ', the line D-D ', and the line E-E ' of fig. 2 (a) of toy member 100.
Fig. 6 (a) shows an example of a cross-sectional configuration at the line A-A' of toy member 100, in particular, a cross-sectional configuration of thumb 101. The thumb part 101 includes a 1 st thumb fitting 101b, a 2 nd thumb fitting 101c, and a 3 rd thumb fitting 101d, and openings for coupling with the connecting shaft of the 1 st thumb fitting 101b and the connecting shaft of the 3 rd thumb fitting 101d are provided in the 2 nd thumb fitting 101c, respectively. The 1 st thumb fitting 101b is rotatable relative to the 2 nd thumb fitting 101c by means of the connecting shaft in the direction of arrow 601 a. In addition, the 2 nd thumb fitting 101c can be rotated in the direction of arrow 601b with respect to the 3 rd thumb fitting 101d via the connecting shaft. The 3 rd thumb fitting 101d is provided with a coupling portion 101a. The coupling portion 101a has a cross-shaped cross-sectional structure, and is configured to be rotatable in the direction of arrow 201 about the longitudinal axis of the cross.
Fig. 6 (B) shows an example of a cross-sectional structure of toy member 100 at line B-B', particularly a cross-sectional structure of index finger 102. The index finger portion 102 includes a 1 st index finger fitting 102b, a 2 nd index finger fitting 102c, and a 3 rd index finger fitting 102d, and openings for coupling with the connection shaft of the 1 st index finger fitting 102b and the connection shaft of the 3 rd index finger fitting 102d are provided in the 2 nd index finger fitting 102c, respectively. Index finger tab 102b is rotatable relative to index finger tab 102c via the connecting shaft in the direction of arrow 602 a.
In addition, index finger tab 102c is rotatable relative to index finger tab 102d in the direction of arrow 602b via the connecting shaft. The lower end of the 3 rd index finger fitting 102d is rotatably connected to the coupling portion 102a in the direction of the arrow 602 c. An opening for connecting the 3 rd index finger fitting 102d in a rotatable manner in the direction of the arrow 602c is provided at the upper end portion of the connecting portion 102 a. The lower end of the connecting portion 102a has a ball shape, and is connected to the recess 106a of the fitting 106 in a ball joint manner so as to be rotatable in any direction. The fitting 107 has a recess 107a, and is connected to the connection portion 101a of the thumb 101 in a ball joint manner so as to be rotatable in the direction of the arrow 202. In the 1 st state shown in fig. 6 (B), the upper surface of the fitting 107 is in contact with the flat portion of the bottom surface of the fitting 106, but is not in contact with the inclined portion 106g of the bottom surface of the fitting 106.
Fig. 6 (C) shows an example of a cross-sectional structure of toy member 100 at line C-C', particularly a cross-sectional structure of middle finger 103. The middle finger 103 includes a 1 st middle finger 103b, a 2 nd middle finger 103c, and a 3 rd middle finger 103d, and the 2 nd middle finger 103c is provided with openings for coupling with the connection shaft of the 1 st middle finger 103b and the connection shaft of the 3 rd middle finger 103d, respectively. The finger 103b in fig. 1 can be rotated relative to the finger 103c in fig. 2 in the direction of the arrow 603a by means of the connecting shaft. The finger 103c in fig. 2 can be rotated in the direction of the arrow 603b with respect to the finger 103d in fig. 3 via the connecting shaft.
In addition, in fig. 3, the lower end of the finger fitting 103d is rotatably connected to the connecting portion 103a in the direction of the arrow 603 c. An opening for connecting to the 3 rd finger fitting 103d is provided at the upper end of the connecting portion 103a so as to be rotatable in the direction of the arrow 603 c. The lower end portion of the connecting portion 103a has a ball shape, and is connected to the recess 106b of the fitting 106 in a ball joint manner so as to be rotatable in any direction.
The fitting 107 has a recess 107c and is rotatably connected to the projection 106e of the fitting 106, so that the fitting 106 can rotate toward the 1 st surface side. Further, the protruding portion 108a of the fitting 108 is rotatably connected to the recessed portion 109a of the fitting 109, so that the fitting 108 can rotate to the 1 st surface side. In the 1 st state shown in fig. 6 (C), the inclined portion 107g of the upper surface of the fitting 107 is not in contact with the bottom surface of the fitting 106, and the flat portion of the upper surface of the fitting 107 is in contact with the bottom surface of the fitting 106. Further, the projection 107b of the fitting is coupled to the opening 111a of the coupling portion 111, so that the structure of the toy member 100 above the coupling portion 111 can rotate in the direction indicated by the arrow 610 with respect to the coupling portion 111.
Fig. 6 (D) shows an example of a cross-sectional structure of toy member 100 at line D-D', and in particular, a cross-sectional structure of ring finger 104. The ring finger 104 includes a 1 st ring finger fitting 104b, a 2 nd ring finger fitting 104c, and a 3 rd ring finger fitting 104d, and openings for coupling with the connection shaft of the 1 st ring finger fitting 104b and the connection shaft of the 3 rd ring finger fitting 104d are provided in the 2 nd ring finger fitting 104c, respectively. The 1 st endless dispenser 104b can be rotated relative to the 2 nd endless dispenser 104c in the direction of arrow 604a by means of the connecting shaft. In addition, the 2 nd endless dispenser 104c can be rotated in the direction of the arrow 604b with respect to the 3 rd endless dispenser 104d via the connecting shaft. The lower end of the 3 rd ring finger fitting 104d is rotatably connected to the connecting portion 104a in the direction of the arrow 604 c. An opening for connecting to the 3 rd ring finger fitting 104d in a rotatable manner in the direction of an arrow 604c is provided at an upper end portion of the connecting portion 104 a. The lower end portion of the coupling portion 104a has a ball shape, and is connected to the recess 106c of the fitting 106 in a ball joint manner so as to be rotatable in any direction.
The fitting 107 has a recess 107d and is rotatably connected to the projection 106f of the fitting 106, so that the fitting 106 can rotate toward the 1 st surface side. Further, the protruding portion 108b of the fitting 108 is rotatably connected to the recessed portion 109b of the fitting 109, so that the fitting 108 can rotate to the 1 st surface side. In the 1 st state shown in fig. 6 (D), the upper surface of the fitting 107 is in contact with the flat portion of the bottom surface of the fitting 106, but not with the inclined portion of the bottom surface of the fitting 106. Further, the projection 107b of the fitting is coupled to the opening 111a of the coupling portion 111.
Fig. 6 (E) shows an example of a cross-sectional configuration of toy member 100 at line E-E', particularly of little finger 105. The pinky finger 105 includes a 1 st pinky finger fitting 105b, a 2 nd pinky finger fitting 105c, and a 3 rd pinky finger fitting 105d, and the 2 nd pinky finger fitting 105c is provided with openings for coupling with the connecting shaft of the 1 st pinky finger fitting 105b and the connecting shaft of the 3 rd pinky finger fitting 105d, respectively. The 1 st small finger fitting 105b can be rotated relative to the 2 nd small finger fitting 105c by means of the connecting shaft in the direction of arrow 605 a. In addition, the 2 nd pinky finger fitting 105c can be rotated relative to the 3 rd pinky finger fitting 105d in the direction of arrow 605b by means of the connecting shaft. The lower end of the 3 rd little finger fitting 105d is rotatably connected to the connecting portion 105a in the direction of the arrow 605 c. An opening for connecting to the 3 rd small finger fitting 105d in a rotatable manner in the direction of an arrow 605c is provided at the upper end portion of the connecting portion 105 a. The lower end portion of the connecting portion 105a has a ball shape, and is connected to the recess 106d of the fitting 106 in a ball joint manner so as to be rotatable in any direction. In the 1 st state shown in fig. 6 (E), the upper surface of the fitting 107 is in contact with the flat portion of the bottom surface of the fitting 106, but is not in contact with the inclined portion 106h of the bottom surface of the fitting 106.
Next, a cross-sectional structure of the toy member 100 in the 2 nd state in which the hand is gripped (closed) will be described with reference to fig. 7. Fig. 7 is a cross-sectional view showing an example of the cross-sectional configuration of toy member 100 at line F-F ', line G-G ', line H-H ', line I-I ', and line J-J ' of fig. 3.
Fig. 7 (a) shows an example of a cross-sectional structure at the line F-F' of fig. 3, in particular, a cross-sectional structure of the thumb 101. Here, the thumb 101 is positioned on the front side (1 st surface side) of the fitting 107 by the rotation of the coupling portion 101a by a predetermined angle with respect to the recess 107a and the rotation of the 3 rd thumb fitting 101d by a predetermined angle with respect to the coupling portion 101a. At this time, the 1 st thumb fitting 101b and the 2 nd thumb fitting 101c may be rotated appropriately. As is clear from fig. 7 (a), the coupling portion 101a is connected to the recess 107a, and the coupling portion 101a is engaged with the end of the fitting 109. In fig. 7 (a), the corner of the part of the fitting 107 protruding toward the 1 st surface is removed so as not to interfere with the rotation of the 3 rd thumb fitting 101d and the like. As for other structures, as already described above.
Next, fig. 7 (B) shows an example of the cross-sectional structure at the line G-G' of fig. 3, in particular, the cross-sectional structure of the index finger 102. In fig. 7 (B), index finger tab 102B is rotated by a prescribed angle 1 (e.g., about 90 degrees) relative to index finger tab 102c, index finger tab 102c is rotated by a prescribed angle 2 (e.g., about 90 degrees) relative to index finger tab 102d, and index finger tab 102d is also rotated by a prescribed angle 3 (e.g., about 90 degrees) relative to tab 102 a. Thereby, index finger fitting 102b reaches a position of contact with the surface of fitting 106. At this time, the thumb 101 is turned downward by the connection between the 3 rd thumb fitting 101d and the coupling part 101a, thereby avoiding contact with the index finger 102. In fig. 7 (B), the fitting 106 is tilted forward, and the contact state between the fitting 106 and the fitting 107 changes from the state where the flat portion of the bottom surface of the fitting 106 contacts the upper surface of the fitting 107 shown in fig. 6 (B) to the state where the inclined portion 106g of the bottom surface of the fitting 106 contacts the upper surface of the fitting 107. The fitting 106 has a structure in which the inclined portion 106g is provided at a part of the bottom surface, so that the fitting is easily tilted forward toward the 1 st surface side. The contact state between the fitting 108 and the fitting 109 also changes from a state in which the bottom surface of the fitting 108 is in contact with the upper surface of the fitting 109, which is shown in fig. 6 (B), to a state in which the bottom surface of the fitting 108 is separated from the upper surface of the fitting 109.
Next, fig. 7 (C) shows an example of the cross-sectional structure at the line H-H' in fig. 3, in particular, the cross-sectional structure of the middle finger 103. In fig. 7 (C), the 1 st finger fitting 103b is rotated by a 1 st prescribed angle (e.g., about 90 degrees) with respect to the 2 nd finger fitting 103C, the 2 nd finger fitting 103C is rotated by a 2 nd prescribed angle (e.g., about 90 degrees) with respect to the 3 rd finger fitting 103d, and the 3 rd finger fitting 103d is also rotated by a 3 rd prescribed angle (e.g., about 90 degrees) with respect to the fitting 103 a. Thus, in fig. 1, the fitting 103b comes into contact with the surfaces of the fitting 106 and the fitting 107. In fig. 7 (C), the fitting 106 is tilted forward, and the contact state between the fitting 106 and the fitting 107 is changed from the state where the bottom surface of the fitting 106 contacts the flat portion of the upper surface of the fitting 107 shown in fig. 6 (C) to the state where the bottom surface of the fitting 106 contacts the inclined portion 107g of the upper surface of the fitting 107. The fitting 107 has a structure in which the fitting 106 is easily tilted forward toward the 1 st surface side by providing the inclined portion 107g at a part of the upper surface. The contact state between the fitting 108 and the fitting 109 also changes from a state in which the bottom surface of the fitting 108 is in contact with the upper surface of the fitting 109, which is shown in fig. 6 (C), to a state in which the bottom surface of the fitting 108 is separated from the upper surface of the fitting 109.
Next, fig. 7 (D) shows an example of the cross-sectional structure at the line I-I' of fig. 3, in particular, the cross-sectional structure of the ring finger 104. In fig. 7 (D), the 1 st ring-assigned member 104b is rotated by the 1 st prescribed angle (e.g., about 90 degrees) with respect to the 2 nd ring-assigned member 104c, the 2 nd ring-assigned member 104c is rotated by the 2 nd prescribed angle (e.g., about 90 degrees) with respect to the 3 rd ring-assigned fitting 104D, and the 3 rd ring-assigned fitting 104D is also rotated by the 3 rd prescribed angle (e.g., about 90 degrees) with respect to the fitting 104 a. Thus, the 1 st ring finger fitting 104b reaches a position in contact with the surfaces of the fitting 106 and the fitting 107. In addition, in fig. 7 (D), the fitting 106 is tilted forward, and the contact state between the fitting 106 and the fitting 107 is changed from the state in which the flat portion of the bottom surface of the fitting 106 and the flat portion of the upper surface of the fitting 107 shown in fig. 6 (D) are in contact to the state in which the inclined portion of the bottom surface of the fitting 106 and the inclined portion 107g of the upper surface of the fitting 107 are separated. Here, the inclined portions do not contact each other, but may contact each other. The fitting 107 has a structure in which the fitting 106 is easily tilted forward toward the palm side by providing the inclined portion 107g at a part of the upper surface. The fitting 106 itself is also configured such that the fitting 106 is easily tilted forward toward the palm side by providing an inclined portion and a step in a part of the bottom surface. The contact state between the fitting 108 and the fitting 109 also changes from a state in which the bottom surface of the fitting 108 is in contact with the upper surface of the fitting 109, which is shown in fig. 6 (D), to a state in which the bottom surface of the fitting 108 is separated from the upper surface of the fitting 109.
Next, fig. 7 (E) shows an example of the cross-sectional structure at the line J-J' of fig. 3, in particular, the cross-sectional structure of the little finger 105. In fig. 7 (E), the 1 st small finger fitting 105b is rotated by a 1 st prescribed angle (e.g., about 90 degrees) with respect to the 2 nd small finger fitting 105c, the 2 nd small finger fitting 105c is rotated by a 2 nd prescribed angle (e.g., about 90 degrees) with respect to the 3 rd small finger fitting 105d, and the 3 rd small finger fitting 105d is also rotated by a 3 rd prescribed angle (e.g., about 90 degrees) with respect to the fitting 105 a. Thereby, the 1 st small finger fitting 105b reaches a position in contact with the surface of the fitting 106. In fig. 7 (E), the fitting 106 is tilted forward, and the contact state between the fitting 106 and the fitting 107 is changed from the state in which the flat portion of the bottom surface of the fitting 106 is in contact with the upper surface of the fitting 107 shown in fig. 6 (E) to the state in which the flat portion of the bottom surface of the fitting 106 is separated from the upper surface of the fitting 107 and is tilted toward the tilting portion 106h side of the bottom surface of the fitting 106. The fitting 106 has a structure in which the fitting 106 is easily inclined to the 1 st surface side by providing the inclined portion 106h at a part of the bottom surface. The contact state between the fitting 108 and the fitting 109 also changes from a state in which the bottom surface of the fitting 108 is in contact with the upper surface of the fitting 109, which is shown in fig. 6 (E), to a state in which the bottom surface of the fitting 108 is separated from the upper surface of the fitting 109.
In the description of fig. 7, the rotation angles of the fittings from the index finger portion 102 to the little finger portion 105 are set to the 1 st predetermined angle, the 2 nd predetermined angle, and the 3 rd predetermined angle in common, but this is not intended to prohibit the respective rotation angles from being different for the sake of simplicity of description, and the case of rotating at the respective different angles is also included in the scope of the embodiment.
In the above description of the embodiment, the fitting 108 is configured to rotate independently of the fitting 106, but may be configured to rotate in conjunction with the operation of the fitting 106 by adding an engagement member to the fitting 108 to engage with the fitting 106.
According to the present embodiment, a toy component for assembling a hand of a toy can be provided. When the toy member is gripped by a hand, the respective root portions of the 5 fingers are also rotated toward the palm side, so that the gripping performance can be improved. Further, the fittings 108 and 109 can reduce an unnatural feeling or an unnatural feeling in appearance when the hand is gripped.
The present invention is not limited to the above-described embodiments, and various modifications and changes can be made within the scope of the present invention.
Claims (20)
1. A toy part, which is a toy part of a hand of a model toy, wherein,
the toy component comprises:
a plurality of 1 st finger structures configured to be bendable toward a 1 st surface side of the toy member;
a 1 st member, to which the plurality of 1 st finger structures are rotatably connected, respectively;
a 2 nd member, the 1 st member being rotatably connected to the 2 nd member;
a 1 st cover member coupled to a 2 nd surface side of the 2 nd member on a side opposite to the 1 st surface; and
a 2 nd cover member rotatably connected to the 1 st cover member,
the toy components of the hand have a 1 st state in which the hand is open and a 2 nd state in which the hand is closed,
in the 2 nd state, the 1 st member and the 2 nd cover member are configured to be rotatable toward the 1 st surface side in response to bending of the plurality of 1 st finger structures toward the 1 st surface side,
the 1 st member includes a 1 st flat portion and a 1 st inclined portion at least partially on the bottom surface,
in the 1 st state, the 1 st member is in contact with the upper surface of the 2 nd member with the 1 st flat portion,
in the 2 nd state, the 1 st member is in contact with the upper surface of the 2 nd member with the 1 st inclined portion.
2. The toy component of claim 1, wherein,
the 1 st finger structures each have a 1 st connecting portion, the 1 st connecting portion having a spherical end portion,
the 1 st member has a plurality of 1 st concave portions provided on a surface of the 1 st member and corresponding to the 1 st connecting portions of the 1 st finger structures,
the 1 st finger structure is rotatably connected to the 1 st member by coupling the 1 st coupling parts to the 1 st concave parts.
3. The toy component of claim 2, wherein,
the 1 st member has the plurality of 1 st recesses at different heights.
4. A toy component according to claim 2 or 3, wherein,
each of the plurality of 1 st finger structures includes:
1 st fitting;
a 2 nd fitting rotatably connected to the 1 st fitting;
a 3 rd fitting rotatably connected to the 2 nd fitting; and
a 4 th fitting rotatably connected to the 3 rd fitting and having the 1 st coupling portion,
the toy component of the hand transitions to the 2 nd state by:
the 1 st fitting rotates by a 1 st prescribed angle relative to the 2 nd fitting;
the 2 nd fitting is rotated by a 2 nd prescribed angle relative to the 3 rd fitting; and
the 3 rd fitting is rotated by a 3 rd prescribed angle with respect to the 4 th fitting.
5. A toy component according to any one of claims 1-3, wherein,
the upper surface of the 2 nd member comprises at least partially a 2 nd flat portion and a 2 nd inclined portion,
in the 1 st state, the 2 nd member is in contact with the bottom surface of the 1 st member with the 2 nd flat portion,
in the 2 nd state, the 2 nd member is in contact with the bottom surface of the 1 st member with the 2 nd inclined portion.
6. A toy component according to any one of claims 1-3, wherein,
the 1 st cover member is configured to cover at least part of the side surface of the 2 nd member and the 2 nd surface side,
the 2 nd cover member is configured to cover at least a part of the side surface of the 1 st member and the 2 nd surface side.
7. A toy component according to any one of claims 1-3, wherein,
the toy member further includes a 2 nd finger structure configured to be bendable toward the 1 st face side of the toy member,
the 2 nd finger structure is rotatably connected to the 2 nd member,
the 2 nd finger structure is configured to bend in a direction intersecting the bending direction of the plurality of 1 st finger structures in the 2 nd state.
8. The toy component of claim 7, wherein,
the 2 nd finger structure has a 2 nd connecting portion, the 2 nd connecting portion has a ball-shaped end,
the 2 nd member has a 2 nd recess provided on a surface of the 2 nd member and corresponding to the 2 nd connecting portion of the 2 nd finger structure,
the 2 nd finger structure is rotatably connected to the 2 nd member by the 2 nd coupling portion and the 2 nd recess being coupled.
9. The toy component of claim 8, wherein,
the 2 nd finger structure includes:
a 5 th fitting;
a 6 th fitting rotatably connected to the 5 th fitting;
a 7 th fitting rotatably connected to the 6 th fitting; and
an 8 th fitting rotatably connected to the 7 th fitting and having the 2 nd coupling portion,
the toy component of the hand transitions to the 2 nd state by at least the following actions in the 1 st state:
the 8 th fitting is rotated by a 4 th prescribed angle relative to the 2 nd member; and
the 7 th fitting is rotated by a 5 th prescribed angle with respect to the 8 th fitting.
10. A toy component according to any one of claims 1-3, wherein,
the 2 nd member is also rotatably combined with a member constituting a wrist of the model toy.
11. A toy part, which is a toy part of a hand of a model toy, wherein,
the toy component comprises:
a plurality of 1 st finger structures configured to be bendable toward a 1 st surface side of the toy member;
a 1 st member, to which the plurality of 1 st finger structures are rotatably connected, respectively;
a 2 nd member, the 1 st member being rotatably connected to the 2 nd member;
a 1 st cover member coupled to a 2 nd surface side of the 2 nd member on a side opposite to the 1 st surface; and
a 2 nd cover member rotatably connected to the 1 st cover member,
the toy components of the hand have a 1 st state in which the hand is open and a 2 nd state in which the hand is closed,
in the 2 nd state, the 1 st member and the 2 nd cover member are configured to be rotatable toward the 1 st surface side in response to bending of the plurality of 1 st finger structures toward the 1 st surface side,
the upper surface of the 2 nd member comprises at least partially a 2 nd flat portion and a 2 nd inclined portion,
in the 1 st state, the 2 nd member is in contact with the bottom surface of the 1 st member with the 2 nd flat portion,
in the 2 nd state, the 2 nd member is in contact with the bottom surface of the 1 st member with the 2 nd inclined portion.
12. The toy component of claim 11, wherein,
the 1 st finger structures each have a 1 st connecting portion, the 1 st connecting portion having a spherical end portion,
the 1 st member has a plurality of 1 st concave portions provided on a surface of the 1 st member and corresponding to the 1 st connecting portions of the 1 st finger structures,
the 1 st finger structure is rotatably connected to the 1 st member by coupling the 1 st coupling parts to the 1 st concave parts.
13. The toy component of claim 12, wherein,
the 1 st member has the plurality of 1 st recesses at different heights.
14. Toy components according to claim 12 or 13, wherein,
each of the plurality of 1 st finger structures includes:
1 st fitting;
a 2 nd fitting rotatably connected to the 1 st fitting;
a 3 rd fitting rotatably connected to the 2 nd fitting; and
a 4 th fitting rotatably connected to the 3 rd fitting and having the 1 st coupling portion,
the toy component of the hand transitions to the 2 nd state by:
the 1 st fitting rotates by a 1 st prescribed angle relative to the 2 nd fitting;
the 2 nd fitting is rotated by a 2 nd prescribed angle relative to the 3 rd fitting; and
the 3 rd fitting is rotated by a 3 rd prescribed angle with respect to the 4 th fitting.
15. Toy component according to any of the claims 11-13, wherein,
the 1 st cover member is configured to cover at least part of the side surface of the 2 nd member and the 2 nd surface side,
the 2 nd cover member is configured to cover at least a part of the side surface of the 1 st member and the 2 nd surface side.
16. Toy component according to any of the claims 11-13, wherein,
the toy member further includes a 2 nd finger structure configured to be bendable toward the 1 st face side of the toy member,
the 2 nd finger structure is rotatably connected to the 2 nd member,
the 2 nd finger structure is configured to bend in a direction intersecting the bending direction of the plurality of 1 st finger structures in the 2 nd state.
17. The toy component of claim 16, wherein,
the 2 nd finger structure has a 2 nd connecting portion, the 2 nd connecting portion has a ball-shaped end,
the 2 nd member has a 2 nd recess provided on a surface of the 2 nd member and corresponding to the 2 nd connecting portion of the 2 nd finger structure,
the 2 nd finger structure is rotatably connected to the 2 nd member by the 2 nd coupling portion and the 2 nd recess being coupled.
18. The toy component of claim 17, wherein,
the 2 nd finger structure includes:
a 5 th fitting;
a 6 th fitting rotatably connected to the 5 th fitting;
a 7 th fitting rotatably connected to the 6 th fitting; and
an 8 th fitting rotatably connected to the 7 th fitting and having the 2 nd coupling portion,
the toy component of the hand transitions to the 2 nd state by at least the following actions in the 1 st state:
the 8 th fitting is rotated by a 4 th prescribed angle relative to the 2 nd member; and
the 7 th fitting is rotated by a 5 th prescribed angle with respect to the 8 th fitting.
19. Toy component according to any of the claims 11-13, wherein,
the 2 nd member is also rotatably combined with a member constituting a wrist of the model toy.
20. A model toy, wherein,
the model toy has the toy component of any one of claims 1 to 19.
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- 2022-03-11 JP JP2022038422A patent/JP7093904B1/en active Active
- 2022-06-20 JP JP2022099022A patent/JP2023133061A/en active Pending
- 2022-09-07 CN CN202211088488.9A patent/CN115430159B/en active Active
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CN115430159A (en) | 2022-12-06 |
CN117771687A (en) | 2024-03-29 |
JP2023132859A (en) | 2023-09-22 |
JP7093904B1 (en) | 2022-06-30 |
JP2023133061A (en) | 2023-09-22 |
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