WO2012050230A1 - Play toy and play toy set - Google Patents

Abstract

Provided is a play toy, wherein a toy springs out of a coin-shaped storage case and changes shape. The shape-changing toy (1) is provided with: a shape-changing unit (10) obtained from multiple constituent parts that are rotatably connected to each other and elastic parts disposed at each connection; and a disc-shaped case (5) with an opening wherein the shape-changing unit (10) can be inserted and a housing space that can accommodate the shape-changing unit. The multiple constituent parts are configured so as to be folded into a disc shape of a size that can be accommodated in the housing space. The elastic parts are disposed so as to compel the multiple constituent parts from the folded state to the unfolded state. By accommodating the folded shape-changing unit (10) from the opening of the case (5) into the housing space, the shape-changing unit (10) is held in a disc shape by the case (5). When the shape-changing unit (10) exits from the housing space to the outside, the multiple constituent parts rotate and unfold due to the elastic forces of the elastic parts and the unit changes into the shape of a character.

Description

Play toys and play toy sets

The present invention relates to a coin-type game toy in which deformation units are detachably accommodated and a game toy set including a plurality of the coin-type game toys.

Today, various deformed toys that can be enjoyed by changing the shape of the toy are provided, and various proposals regarding the deformed toys have been made. For example, in Japanese Patent Application Laid-Open No. 2007-215898 (Patent Document 1), when a spherical toy is rolled on a flat plate in which a magnetic body is incorporated at a predetermined position, the spherical toy is placed at the position of the magnetic body. Proposals have been made for toys that change from a spherical shape to a predetermined character shape when they arrive.

JP 2007-215898 A

In recent years, various deformable play toys have been provided, and the play methods are various. An object of the present invention is to provide a play toy having a form different from that of a conventionally proposed deformable play toy, and a play toy set capable of playing a new game using a plurality of the play toys. It is said.

The play toy according to the present invention includes a deformable unit constituted by a plurality of constituent members connected to each other so as to be rotatable and an elastic member arranged at the rotatable connecting portion, and an accommodation capable of accommodating the deformable unit. A case portion configured to have a disk shape having at least a space and an opening formed so as to allow the deformation unit to enter and exit, and the deformation unit is detachably mounted in the housing space. The plurality of component members are folded into a disk shape having a size accommodated in the accommodation space when folded, and the elastic member is deployed from the state in which the plurality of component members are folded into the disk shape. The plurality of structural members are folded into a disk shape against the elastic force of the elastic member, and the folded deformation unit is moved forward. By accommodating in the accommodation space from the opening of the case portion, the deformation unit is maintained in a disk shape against the elastic force of the elastic member by the inner wall of the case portion, and the deformation unit is accommodated. When the case portion constitutes a play equipment and the deformation unit is released from the accommodation space, the plurality of structural members rotate and unfold with respect to each other by the urging force of the opened elastic member and deform from the disk shape to the character shape. It is the structure which was made to do.
Further, in the play toy of the present invention, the case portion includes the opening portion on a side surface, and further includes an extrusion operation hole for extruding the deformation unit accommodated in the case portion, and the extrusion operation hole is provided on the side surface. The plurality of component members are formed at positions opposed to the openings smaller than the openings, and when the operation of pushing out the deformation unit from the push-out operation holes is performed, the biasing force of the elastic members released Are configured such that they rotate and unfold to each other and deform from the disk shape to the character shape.
In the play toy of the present invention, the case portion includes the opening portion on a lower surface, and the opening portion can be mounted with the deformation unit configured by the plurality of constituent members folded into the disk shape. The deformation unit is formed in a size, and can be accommodated in the accommodation space by being attached to the folded deformation unit from above, and when an impact is applied to the case portion, In some cases, the deforming unit pops out and the plurality of constituent members rotate and unfold with each other by the urging force of the opened elastic member and deform from the disk shape to the character shape.
And the play toy of this invention is comprised by the disk shape provided with the accommodation space, and the case part provided with the 1st hole and the 2nd hole on the side surface, and the direction parallel to the said disk-shaped upper surface or bottom face A plurality of components that are pivotably connected to each other and are formed in a shape including a circle or an arc when viewed from above and are formed to have a thickness that can be accommodated in the accommodation space when viewed from the side, and are disposed in the rotatable connection portion And a deformable unit configured to be elastically biased between the component members in the rotation direction, and the plurality of component members are elastic in the rotation direction parallel to the disk-shaped top or bottom surface. When folded according to a procedure including a plurality of rotational operations performed against the elastic force of the member, the member is folded into a disk shape having a size accommodated in the accommodating space, and the elastic member is A plurality of component members in the disk The first hole is arranged so as to be urged in a direction to rotate and expand from a state folded into a shape, and the first hole is formed by a plurality of constituent members folded into the disk shape. The second hole is formed to be smaller than the first hole at a position facing the first hole, and the plurality of constituent members are formed as the elastic member. Folding the deformed unit folded into a disc shape against the elastic force of the first and second detachable housings in the housing space, the deforming unit is supported by the inner wall of the case portion and the elastic member. The case portion that is maintained in a disk shape against the elastic force of the housing and that houses the deformation unit constitutes a play equipment, and an operation of pushing out the deformation unit from the second hole is performed. When broken, the plurality of constituent members are simultaneously rotated and unfolded by the urging force of the released elastic member, and developed from the disk shape to a surface parallel to the top surface or the bottom surface of the disk shape to be transformed into a character shape. It is the structure which was made to do.
In addition, the play toy of the present invention further includes at least one component that rotates in a direction perpendicular to the upper surface or the bottom surface of the disc-shaped case portion.
Furthermore, in the play toy of the present invention, the component member and the elastic member are divided into two stages: a first unfolded state that is expanded from the case portion, and a second unfolded state that is further unfolded from the first unfolded state. It is configured to be deployable.
In the game toy according to the present invention, the case portion has a thick disk shape imitating a coin, and at least an upper surface of the disk shape is printed or engraved with a pattern imitating a coin.
The play toy set of the present invention is characterized in that a plurality of any of the above-described play toys are made into a set, and each of them is configured to be movable by playing with a finger.

According to the present invention, by making a play toy configured by a deformable unit and a disc-shaped case portion that removably accommodates the case, the case portion itself that is easy to carry and accommodates the deformable unit is provided. It is possible to play a game as a playground equipment, and it is possible to develop a game with a new taste by causing the deformation unit to jump out of the case part.
In addition, it is easy to carry by making the outer shape of the case part a coin type, and it is easy to carry because children all over the world have seen coins, and furthermore, it has the fun that characters jump out of coins Therefore, it is possible to provide a play toy having a new taste that can provide a new fun to the player. In addition, by printing or imprinting a pattern imitating the coins of each country, it will be possible to play with children's desire to collect.
The deformation unit (protruding portion) constituting the play toy of the present invention is capable of rotating a plurality of constituent members connected to each other so as to be rotatable (formed so as to become constituent elements of the character when deployed). Folding is configured to be assembled in accordance with a predetermined procedure against the elastic force of the elastic member arranged at the connection part, and the state in which the elastic member is urged by the inner wall of the case part when it is housed in the disk-shaped case part is maintained. It is possible to provide a play toy with a new taste by storing it in a state and pushing the deformation unit outward from the case at a predetermined timing. Then, by making the appearance a shape and pattern imitating a coin, it is possible to provide a toy having an unprecedented new appearance that a character appears from a coin.
In addition, an opening having a size capable of mounting the deformed unit in a folded state is provided on one side surface of the case portion, and an extrusion operation hole smaller than the opening portion is provided at a side surface facing the opening portion in a folded state. The deformation unit accommodated in the housing is formed in such a size that the deformation unit is not dropped out and can be pushed by a finger or an operating rod. In addition to being able to be mounted inside, the mounted deformation unit can be easily pushed out from the push-out operation hole, so that it is possible to provide a play toy that is easy to use and has an unprecedented new taste.
Furthermore, a new coin play is enabled by providing a plurality of the play toys as a set.

FIG. 1 is a perspective view showing an unfolded state of a case part and a deformation unit (protruding part) in a play toy according to an embodiment of the present invention.
FIG. 2 is a plan view showing a developed state of the deformation unit of the play toy.
FIG. 3 is a rear perspective view showing a developed state of the deformation unit of the play toy.
FIG. 4 is a plan view, partly broken, showing a folded state of the deformable unit of the play toy.
FIG. 5 is an operation explanatory view of the above-mentioned play toy.
FIG. 6 is a perspective view showing a developed state of another play toy according to the embodiment of the present invention.
FIG. 7 is a plan view showing a folded state of the deformation unit of the other play toy.
FIG. 8 is a perspective view showing a developed state of another play toy according to the embodiment of the present invention.
FIG. 9 is a plan view showing a folded state of the deformation unit of the other play toy.
FIG. 10 is an explanatory view for explaining the unfolded state and operation of yet another game toy according to the embodiment of the present invention.
FIG. 11 is a perspective view showing a developed state of still another play toy according to the embodiment of the present invention.
FIG. 12 is a plan view showing a folded state of the deformation unit of the still another play toy.
FIG. 13 is a perspective view of another case portion of the play toy according to the embodiment of the present invention.

Hereinafter, modes for carrying out the present invention will be described. FIG. 1 is a front perspective view of a case unit 5 constituting a game toy 1 according to one embodiment of the present invention and a deformed unit 10 that is released from the case unit 5 and is in an expanded state. FIG. 2 is a plan view of the deformation unit 10, and FIG. 3 is a rear perspective view of the deformation unit 10.
The play toy 1 according to the present embodiment is stored in the housing space of the case portion 5 in a folded state with the case portion 5 (case unit) having the housing space, and the folded state is stored in the case portion 5. And the deformation unit 10 to be maintained. And the case part 5 with which the deformation | transformation unit 10 of the folding state was mounted | worn in the accommodation space has a coin-shaped structure itself that can be used for various games as a play equipment. Further, when an operation of releasing the deformation unit 10 from the case portion 5 is performed, the deformation unit 10 jumps out of the housing space of the case portion 5 while the respective constituent members rotate and unfold as shown in FIG. Further, the deforming unit 10 in the expanded state is deformed into a shape imitating a monster character by each of the rotationally expanded components. That is, this game toy 1 can enjoy a game using the case unit 5 in which the deformation unit 10 is accommodated, and a game in which the deformation unit 10 is released from the case unit 5 by a release operation. It is for games.
The case portion 5 has a hollow disk shape, includes an accommodating space for accommodating the deformation unit 10 therein, and includes a first hole 6 and a second hole 7 on the side surface. The first hole 6 is formed in a size that allows the deformation unit 10 folded into a disk shape to be attached (withdrawal), and constitutes an opening for the accommodation space. In other words, the first hole 6 is formed such that a straight line connecting both side surfaces 6a and 6b on the side surface side is close to the center of the case portion 5 and does not exceed the center when viewed from the opening side. The second hole 7 is an extrusion operation hole used to push out the deformation unit 10 accommodated in the accommodation space of the case portion 5 from the first hole 6, and a case engagement portion 41 g of the deformation unit 10 described later. , 42g are also engaged with each other. The second hole 7 is smaller than the first hole 6 at a position facing the first hole 6 on the side surface of the case portion 5 and can apply a pressing force to the deformation unit 10 with a finger or an operating rod. It is formed to a size of about. The size of the case portion 5 is not particularly limited, but as an example, the diameter is about 40 mm, the height is about 14 mm, and the thickness (the thickness of the top plate, the bottom plate, and the side plate) is about 2.5 mm. Is formed.
The deformation unit 10 includes a plurality of constituent members connected to each other so as to be rotatable and a plurality of elastic members mounted at positions where the respective constituent members are connected to each other so as to be rotatable. The plurality of constituent members are configured to be folded into a substantially disk shape having a size accommodated in the accommodating space of the case portion 5 when folded. Moreover, the elastic member is arrange | positioned so that a several component member may be urged | biased in the direction expanded from the state folded in the disk. Then, the plurality of structural members are folded into a disk shape against the elastic force of the elastic member, and the deformed unit 10 in the folded state is accommodated in the accommodating space from the first hole 6 of the case portion 5. 10 is maintained in a disk shape against the elastic force of the elastic member by the top, bottom and side surfaces of the inner wall of the case portion 5. The deformation unit 10 has a character shape such as a monster in the unfolded state.
Next, a specific configuration of the deformation unit 10 will be described. In the following description, the direction in which the first hole 6 of the case portion 5 in FIG. 1 is located is the front, the direction in which the second hole 7 is located is the rear, and the direction in which the back portion of the deformation unit 10 is located. The direction in which the upper part (upper surface) and the abdominal part are located is the lower part (bottom surface). As shown in FIGS. 1 to 3, the deformation unit 10 has a shape imitating a bird monster (or a bird dinosaur) in the unfolded state, and rotates around the trunk 23 and the front end of the trunk 23. The head portion 21 that is movably connected, the wing portion 25 that is rotatably connected to both sides of the body portion 23 in a plane direction (a direction parallel to the upper surface or the bottom surface of the case portion 5), and the rear portion of the body portion 23 The tail 27 is connected to the end so as to be rotatable in the plane direction.
As shown in FIG. 2, the body portion 23 extends rearward from a fan-shaped body plate 31 and a side surface portion (side surface portion positioned behind the body plate 31) located in the vicinity of the fan-shaped center point of the body plate 31. The rear projecting plate 32 provided is integrally formed. Further, on both sides of the boundary portion between the body plate 31 and the rear protruding plate 32, feet 33 imitating bird's feet are formed. The body plate 31 has a head storage hole 31a in which the head 21 is stored on the upper surface, and a head axis on which the head 21 is pivotally mounted at a front end portion of the head storage hole 31a. A branch portion 31b is formed. Further, as shown in FIG. 3, the fuselage plate 31 has a wing portion in which side surfaces in the vicinity of both ends of the arc are notched and the connection plates 41e and 42e of the wing portion 25 are rotatably inserted. A connecting groove 31d is provided, and the wing portion 25 is pivotally attached to the body plate at the connecting plates 41e and 42e.
The rear protruding plate 32 includes curved guide walls 32a that come into contact with wings 43 and 44 and a tail 27, which will be described later, when the deformation unit 10 is folded, on both sides of the connecting portion with the body plate 31, and the rear side surface. Is provided with a tail coupling groove 32b on which the tail 27 is pivotally mounted. Further, the rear protruding plate 32 is formed thinner than the thickness of the body plate 31, and the foot 33 is formed thinner than the thickness of the rear protruding plate 32.
The head portion 21 is pivotally mounted so as to be pivotally mounted on the front end of the body portion 23 and protrude forward of the body portion 23. That is, the head portion 21 rotates in a direction perpendicular to the upper surface or the bottom surface of the disk-shaped case portion 5. It is possible to move. The head 21 includes a neck member 35 whose one end is pivotally attached to the body portion 23 and a head member 37 which is pivotally attached to the other end of the neck member 35.
The neck member 35 is pivotally attached to the head shaft support portion 31b of the body plate 31, and the first torsion spring 61 is wound around the shaft so that the neck member 35 rises from the body portion 23, that is, upward. The first torsion spring 61 is biased by the elastic force (spring force). The head member 37 includes facial parts such as a heel and eyes, and is pivotally attached to the neck member 35. The second torsion spring 62 is wound around the shaft so that the head member 37 rises from the neck member 35. The second torsion spring 62 is biased by the elastic force. That is, the head 21 is urged by the elastic force of the elastic body (the first torsion spring 61 and the second torsion spring 62) in the direction of rising with respect to the body 23, and is folded against the elastic force to be the body plate. It can be stored in the head storage hole 31a. Further, when opened, the neck member 35 and the head member 37 are developed upward and forward from the head housing hole 31a by the elastic force of the elastic body.
The tail 27 is formed to imitate the tail of a bird, and is pivotally attached to the upper surface and the bottom surface of the rear protrusion plate 32 in the tail connection groove 32b of the rear protrusion plate 32 of the trunk portion 23.
The wing part 25 is configured symmetrically with respect to the trunk part 23, and has a fan-shaped first wing part main plate 41 and a second wing part main plate 42 pivotally attached to the trunk part 23, and a first wing part main plate 42. The first wing 43 and the second wing 44 are pivotally attached to the wing main plate 41 and the second wing main plate 42 in a rotatable manner.
The first wing portion main plate 41 and the second wing portion main plate 42 are provided with hollow portions 41a and 42a that are formed in a hollow through a plane direction from the central point portion of the sector plate to the vicinity of the arc, and near one end of the arc. On the side surface of the radius side (straight line portion), connecting plates 41e and 42e projecting outward are provided, and are pivotally attached to the body plate 31 by the connecting plates 41e and 42e. Further, the first wing part main plate 41 and the second wing part main plate 42 are provided with hands 41b and 42b which are protrusions imitating fingers on the side surface of the arc part and in the vicinity of the connection part with the body part 23, Case engaging portions 41g and 42g projecting outward so as to extend the radius portion are provided at the end of the arc portion opposite to the side where the hands 41b and 42b are formed. The case engaging portions 41g and 42g are portions that are engaged with the second hole 7 when the deformation unit 10 is folded and accommodated in the case portion 5, and the first wing portion main plate 41 and the second wing portion. This is a part on which the main plate 42 is pivotally mounted.
The case engaging portions 41g and 42g are formed on the radial straight portions 41h and 42h located on the extended lines of the radial portions of the first wing portion main plate 41 and the second wing portion main plate 42, and the radial side straight portions 41h and 42h. The arc-side straight portions 41i, 42i projecting from the arc portions of the first wing portion main plate 41 and the second wing portion main plate 42, and the end portions of the radial-side straight portions 41h, 42h and the arc-side straight portions 41i, 42i are connected in parallel. Arc portions 41j, 42j to be formed. The case engaging portions 41g and 42g are formed as openings from the radial side straight portions 41h and 42h to a part of the arc portions 41j and 42j, and the length of the arc side straight portions 41i and 42i is the thickness of the case portion 5. Are formed substantially the same.
And each wing | blade main plate 41 and 42 is the state where the tip vicinity of connecting plate 41e, 42e was inserted in the wing | blade part connection groove | channel 31d of the fuselage board 31, and the tip vicinity of connecting plate 41e, 42e is the fuselage board 31. It is connected to the body 23 by being pivotally attached to the upper and lower surfaces. Further, a third torsion spring 63 and a fourth torsion spring 64 are respectively wound around the shaft that is pivotally attached to the body plate 31, and each elastic body is opened in the opening direction, that is, in the left-right direction where the wings are opened away from the body portion 23. It is biased by the elastic force of (63, 64). The first wing 43 and the second wing 44 are pivotally attached to the upper and lower surfaces within the case engaging portions 41g and 42g of the wing portion main plates 41 and 42, and the fifth and sixth torsion springs 65 and 66 are respectively attached to the shafts. Is energized in the opening direction.
Thus, the wing part 25 is urged by the elastic force of each elastic body in the direction in which both wings open with respect to the body part 23. When the wing part 25 is folded, the wings 43 and 44 are moved to the fifth torsion spring 65. And, it is folded into the hollow portions 41a, 42a of the wing portion main plates 41, 42 against the elastic force of the sixth torsion spring 66, and then the wing portion main plates 41, 42 are directed toward the body portion 23 against the elastic force. As shown in FIG. 4, it can be folded into a disk shape by the body plate 31 and the two wing portion main plates 41 and 42 (three fan-shaped plates). At this time, the rear protruding plate 32, the foot 33, and the tail 27 of the body portion 23 are accommodated in the hollow portions 41a and 42a. When released from the folded state, the wing part main plates 41 and 42 and the wings 43 and 44 are rotated in the opening direction by the elastic force of the torsion springs 63 to 66, and as shown in FIGS. The wings are spread on both sides.
Next, the folded state of the deformation unit 10 will be described. As shown in FIG. 4, the deformed unit 10 in the folded state is a third in which an arcuate body plate 31 and first and second wing main plates 41 and 42 are wound around respective shafts. And the disk shape is comprised by folding up against the elastic force of the 4th torsion springs 63 and 64. At this time, in the hollow portions 41a, 42a of the first and second wing main plates 41, 42, the tail 27 rotates (rotates counterclockwise) to the right side (second wing main plate 42 side) in FIG. Is in contact with the guide wall 32a of the rear protruding plate 32 of the body portion 23. The second wing 44 is positioned between the tail 27 and the arc portion of the hollow portion 42 a in the hollow portion 42 a of the second wing portion main plate 42, and the tail 27 is moved by the elastic force of the sixth torsion spring 66. It is in a state of being pressed against the guide wall 32a. Further, the first wing 43 is housed in the hollow portion 41 a of the first wing main plate 41 and positioned above the foot 33, and the tip thereof is the left side of the rear protruding plate 32 by the elastic force of the fifth torsion spring 65. It rotates until it contacts the guide wall 32a. Further, the left and right case engaging portions 41g and 42g are in a state where the radial side straight portions 41h and 42h are combined, and the arc side straight portions 41i and 42i and the arc portions 41j and 42j form one projecting portion. Yes.
Further, the neck member 35 and the head member 37 of the head 21 are folded against the elastic force of the first and second torsion springs 61 and 62, and are housed in the head housing holes 31 a of the body plate 31. ing. In addition, the size of the deformation unit 10 in the folded state is a size that can be accommodated in the accommodating space of the case portion 5, and specifically, the folded state from the arc portions 41i and 42i of the case engaging portions 41g and 42g. The distance (d1 in FIG. 4) from the center of the deformation unit 10 to the arc portion of the body plate 31 is not particularly limited, but is about 40 mm, from the vicinity of the back of the hand 41b to the vicinity of the back of the hand 42b through the center. The distance (d2 in FIG. 4) is about 35 mm and the height is about 8 mm.
And this deformation | transformation unit 10 of the folded state hold | suppresses both wing | blade part main plates 41 and 42 from both sides in the state which accommodated the 1st wing | blade 43, the 2nd wing | blade 44, and the tail 27 inside the wing | blade part main plates 41 and 42, The folded state can be maintained against the elastic force by pressing the head 21 accommodated in the head accommodating hole 31a from above, and when each is opened, it is deformed to the expanded state It is.
The folded deformation unit 10 is folded from the first hole 6 of the case portion 5 after folding the plurality of constituent members in accordance with a procedure including a plurality of rotation operations performed against the elastic force of the plurality of elastic members. The wing portion main plates 41 and 42 are inserted into the housing space from the case engaging portions 41g and 42g side, and the hand 41b (42b) is placed on the end surface 6a (6b) of the case portion 5 as shown in FIG. It can be accommodated in the case part 5 by pushing in until it comes into contact. At this time, the case engaging portions 41 g and 42 g are engaged with the inside of the second hole 7 of the case portion 5, and the arc-side straight portions 41 i and 42 i are engaged with both side end surfaces of the second hole 7. . As a result, the case engaging portions 41g and 42g are closed by the second hole 7, so that the deformed unit 10 in the folded state is maintained in the folded state against the elastic force of the plurality of elastic bodies. Will be.
The deforming unit 10 accommodated in the case portion 5 pushes the case engaging portions 41g and 42g from the second hole 7 of the case portion 5 to the first hole 6 side, and the case engaging portions 41g and 42g It can be made to jump out of the case part 5 by releasing the engagement state with the hole 7. That is, when the case engaging portions 41g and 42g of the deformation unit 10 are disengaged from the second hole 7 of the case portion 5, the center of the deformation unit 10 is more than the straight line connecting the both end faces 6a and 6b of the first hole 6. 5 (b), the wing part 25 starts to be deployed in the case part 5, and the urging force (force to be deployed) applied to the wing part 25 is the case as shown in FIG. The force that pushes the side surface of the portion 5 causes the deformation unit 10 to pop out forward vigorously as shown in FIG. 5C.
As described above, the play toy 1 according to the present embodiment includes a deformable unit 10 in which a plurality of constituent members are rotatably connected and an elastic body is attached to a predetermined connection portion, and a case portion 5 having an accommodation space. And. And the game toy 1 becomes a coin-shaped toy by accommodating the deformation | transformation unit 10 in the folding case part 5. FIG. Further, in a state where the deformation unit 10 is accommodated in the case portion 5, the deformation unit 10 is pushed outward from the second hole 7, and the deformation unit 10 is popped out from the case portion 5 while being unfolded. Become a toy. That is, the play toy of the present embodiment is a toy having a new taste that can be played as a coin-shaped toy and can also be played as a pop-out toy. Hereinafter, several different embodiments as a play toy will be described.
FIG. 6 is a perspective view showing a developed state of another game toy 100 according to the present invention, and FIG. 7 is a plan view showing a folded state of the deformation unit 110 constituting the game toy 100. As shown in FIGS. 6 and 7, the game toy 100 includes a case portion 105 having a first hole 106 and a second hole 107, and a deformation unit 110, similar to the game toy 1 described above. Is done. Since the case part 105 is the same as the above, description is abbreviate | omitted. The deformable unit 110 has a shape imitating a knight in the unfolded state. The deformable unit 110 has a torso plate 111 in which the torso and the head are integrated, and is pivotable in a planar direction on both sides of the torso plate 111. A right arm portion 115 and a left arm portion 116 worn;
The body plate 111 includes a fan-shaped lower surface plate 111a, an arc wall 111b that rises vertically from an arc portion of the lower surface plate 111a, and an upper surface plate that is parallel to the lower surface plate 111a and is attached to the upper end side of the arc wall 111b. 111c, and a substantially fan-shaped plate having a space surrounded by the lower surface plate 111a, the upper surface plate 111c, and the arc wall 111b. Further, as shown in FIG. 7, the upper surface plate 111c includes a knight's head 125 at a center position when the deformation unit 110 is folded into a disk shape. In addition, on the two radial portions forming the fan shape in the lower surface plate 111b (straight line portions extending from the fan-shaped central portion to both ends of the arc), the figurative objects 126 and 127 simulating a part of the armor are outwardly provided. It is formed to protrude.
The right arm portion 115 is a substantially fan-shaped plate having a space, like the body plate 111, and a right main plate 131 shaped like an armor that protects the right arm of the knight, and a pivotally attached to the right main plate 131. The right hand 133 is formed integrally with the sword 135 in a state where the right hand 133 holds the sword 135. A torsion spring is wound around the rotation shaft of the right hand 133, and is urged in the opening direction (the direction of rotation from the inside of the right main plate 131 to the front) by an elastic force. The right main plate 131 includes an arc-shaped lower surface plate 131b, an arc wall 131c that rises vertically from the arc portion of the lower surface, and an upper surface plate 131d that is provided to face the lower surface plate 131b from the upper end side of the arc wall 131c. And a connecting rod 138 simulating the right arm of a human being formed so as to protrude outward from the inside of the right main plate 131. The right main plate 131 is connected to the body plate 111 by a connecting rod 138. One end of the connecting rod 138 is pivotally mounted in the body plate 111, and a torsion spring (not shown) is wound around the shaft. It is biased in a direction away from 111.
Further, the upper surface plate 131d of the right main plate 131 has a notch formed at a position where it engages with the head 125 of the body plate 111 in the folded state. The right main plate 131 can be rotated until the connecting rod 138 comes into contact with the side plate forming the arc portion of the body plate 111. In the deployed state, the right main plate 131 is deployed forward of the body plate 111. .
The left arm portion 116 is a substantially fan-shaped plate having a space like the right main plate 131, and is configured by a left main plate 141 shaped like an armor protecting the left arm of the knight. The left main plate 141 is connected to the body plate 111 by a connecting rod 143 formed so as to protrude outward from the inside of the left main plate 141, and one end of the connecting rod 143 is pivotally attached to the body plate 111, and the shaft A torsion spring is wound around and biased away from the body plate 111. The left main plate 141 has a left hand 145 formed thereon. The left main plate 141 is rotatable until the connecting rod 143 enters the arcuate wall 111b of the body plate 111. In the deployed state, the left main plate 141 is deployed rearward from the body plate 111. Note that the upper surface of the left main plate 141 is also formed with a notch at a position where the upper surface of the left main plate 141 engages with the head 125 of the body plate 111 in the folded state.
The right main plate 131 and the left main plate 141 are provided with case engagement portions 131a and 141a similar to the case engagement portions 41g and 42g formed in the deformation unit 10 of the above-described play toy 1 at one end of the arc wall. Yes.
In the unfolded state of the deformation unit 110, the right arm 115 is positioned in front of the body plate 111, and the left arm 116 is positioned on the rear side of the body plate 111, so that the knight points the sword toward the enemy ahead. It looks like it is ready. That is, the deformable unit 10 of the game toy 1 shown in FIGS. 1 to 3 has a shape in which the wings 25 are symmetrically expanded with respect to the trunk 23 in the unfolded state. The unit 110 is in a state in which the right arm 115 and the left arm 116 spread asymmetrically with respect to the body plate 111 in the unfolded state.
In the folded state of the deformation unit 110, as shown in FIG. 7, the right main plate 131 and the left main plate 141 rotate so as to be close to the body plate 111 against the elastic force of the elastic body (torsion spring). The body plate 111, the right main plate 131, and the left main plate 141 form a disk shape. Further, a notch formed on the upper surfaces of the right main plate 131 and the left main plate 141 is engaged with the peripheral edge of the head 125 of the body plate 111. Further, inside the right main plate 131 in the folded state, although not shown, the right hand 133 (including the sword 135) is housed in a state of being rotated against the elastic force, and further, the body plate The figure 126 and the left hand 145 formed on the left main plate 141 are also accommodated. A figurine 127 protruding from the body plate 111 is housed inside the left main plate 141 in the folded state.
The deformation unit 110 can also be accommodated in the case portion 105 by being folded in the same manner as the deformation unit 10 described above. In the accommodated state, the case engagement portions 131a and 141a are engaged with the second hole 107. is doing. Further, when the deformable unit 110 is pushed forward from the second hole 107 of the case portion 105 in the accommodated state and the engagement state of the case engaging portions 131a and 141a engaged with the second hole 107 is released, the right arm portion 115 and the left arm portion 116 are elastically applied to the deformation unit 10 so that the deformation unit 10 is projected forward from the case portion 105. Further, when the deformation unit 10 jumps out of the case portion 105, the difference in the amount of expansion of the both arm portions 115, 116, that is, the amount of expansion of the left arm portion 116 is larger, so that it rotates clockwise when viewed from above. While jumping forward. Thus, unlike the deformation unit 10 that projects straight out, the deformation unit 110 projects forward while rotating.
Another game toy 200 according to the present invention will be described. FIG. 8 is a perspective view showing an unfolded state of another play toy 200, and FIG. 9 is a plan view showing a folded state of the deformation unit 210 provided in the play toy 200. As shown in FIG. 8, the play toy 200 also includes a case unit 205 having a first hole 206 and a second hole 207, and a deformation unit 210. The deforming unit 210 is formed in a shape imitating a turtle monster in the unfolded state, and includes a body plate 221, a head 211 connected to the vicinity of the front end of the body plate 221 so as to be vertically rotatable, and a body plate The forefoot part 215 is connected to the 221 so as to be rotatable in the planar direction, and the tail 217 is connected to the rear end of the body plate 221 so as to be rotatable in the planar direction.
The body plate 221 is located at the front end and bends forward, the front bend portion 221a, the inner bend portions 221b and 221c that extend rearward from both ends of the front bend portion 221a and bend inward. The hatched portions 221d and 221e are formed obliquely from the rear ends of the inner curved portions 221b and 221c toward the rear inner side, and the rear straight portion 221f connecting the rear ends of the hatched portions 221d and 221e. . In addition, a head storage hole 221g for storing the head 211 is formed on the upper surface of the body plate 221, and the side surface of the front curved portion 221a is penetrated inward, and a connecting rod for a forefoot portion 215 described later. It is formed as a connecting rod storage groove 221h in which 244 and 245 are stored. Further, although not shown, an opening is formed on the side surface of the rear straight portion 221f of the body plate 221, and legs 223 and 224 protruding outward are formed on the inner curved portions 221b and 221c of the body plate 221. Has been.
The forefoot portion 215 includes two forefoot main plates 241 and 242 and connecting rods 244 and 245 that connect the forefoot main plates 241 and 242 and the body plate 221. The two front foot main plates 241 and 242 have a substantially semicircular shape formed in a hollow shape, and a side surface of a straight portion (a portion formed by a plurality of straight lines connecting both ends of the arc) is an opening, and a connecting rod 244, The body plate 221 is connected to the body plate 221 so as to be rotatable in a plane direction by H.245. Further, the forefoot main plates 241 and 242 are formed to be thicker than the body plate 221, and the body plate 221 can be inserted into the internal space. One end of each of the connecting rods 244 and 245 is pivotably mounted in the connecting rod receiving groove 221 h of the body plate 221, and the other end is pivotally mounted in the internal space of the front foot main plates 241 and 242. A torsion spring is wound around each shaft to urge the connecting rods 244 and 245 and the front foot main plates 241 and 242 in the opening direction.
In addition, a notch that engages with the head member 233 in the folded state is formed in the center part of the semicircles of the front foot main plates 241 and 242, and further, it engages with the neck member 231 forward from the notch. A notch is formed. In addition, case engaging portions 241a and 242a are formed on the free end portions of the front foot main plates 241 and 242 as in the case of the toy toys 1 and 100 described above.
The head 211 includes a neck member 231 rotatably connected to the vicinity of the front end of the head housing hole 221g of the body plate 221, and a head member 233 rotatably connected to the other end of the neck member 231. Prepare. Further, a torsion spring is wound around each shaft, and the neck member 231 and the head member 233 are urged in a direction that rises from a plane. The head 211 is folded against the elastic force to be housed in the head housing hole 221g of the body plate 221. When the head 211 is opened, the head 211 is unfolded forward and upward from the head housing hole 221g by the elastic force of the spring. Is.
The tail 217 includes a tail 217 imitating the tail of a turtle, and is pivotally attached to the opening of the rear straight part 221f of the body plate 221.
The deformation unit 210 stores the head 211 in the head storage hole 221g of the body plate 221 against the elastic force of the elastic body, and folds the front foot main plates 241 and 242 against the elastic force of the elastic body. As a result, it can be folded into a disc shape as shown in FIG. 9, and the body plate 221 and the tail 217 are accommodated in the front foot main plates 241 and 242. That is, in each of the deformation units 10 and 110 shown in FIG. 1 and FIG. 6 described above, the folded state is a disk shape by combining three fan-shaped plates. The folded state becomes a disk shape by combining the half disks.
Similarly to the above-described embodiment, the deformation unit 210 can be accommodated in the case portion 205 from the first hole 206 of the case portion 205 in the folded state, and in the accommodated state, the case engaging portion is inserted into the second hole 207. 241a and 242a are engaged. Then, the deformed unit 210 in the accommodated state pushes the deformed unit 210 forward from the second hole 207 and releases the engaged state between the case engaging portions 241a and 242a and the second hole 207, and the front foot portion 215 It jumps forward while deploying by this urging force.
Next, still another game toy 300 according to the present invention will be described. FIG. 10 is an explanatory diagram for explaining the operation of the play toy 300. As shown in FIG. 10, this play toy 300 is also composed of a case portion 305 having a first hole 306 and a second hole 307, and a deformation unit 310. However, the game toy 300 has a first unfolded state 310a that unfolds when the deformable unit 310 jumps out of the case unit 305, and a second unfolded state 310b that unfolds further when the release button 309 hits a predetermined object after popping out. It is characterized in that it can be developed in two stages.
The play toy 300 includes a body plate 313 having a substantially disk shape, two legs 315 and 316 connected to the vicinity of the rear end of the body plate 313 so as to be rotatable in a plane direction, and a front end portion of the body plate 313. And an attack plate 317 connected to be pivotable in the vertical direction.
The torso plate 313 is formed such that a figurine 313a imitating the face of a monster protrudes upward on the upper surface, and a case engaging portion 313b protrudes rearward on the side surface portion of the rear end. . The two legs 315 and 316 are formed in an arc shape having a U-shaped cross section, and are pivotally attached near the rear end of the body plate 313, and a torsion spring as an elastic body is wound around the shaft. And is biased in the opening direction. The two legs 315 and 316 can be folded so as to be close to the side surface of the body plate 313 against the elastic force of the elastic body, and in the folded state, the body plate 313 is inside the legs 315 and 316. It will be in the state where the side entered.
The attack plate 317 is a circular plate, and is pivotally mounted in the vicinity of the front end of the body plate 313 so as to be pivotable in the vertical direction. A torsion spring is wound around the shaft and biased in the opening direction. The body plate 313 includes a holding mechanism for holding the attack plate 317 in a closed state, and a release button 309 for releasing the holding state of the holding mechanism is formed on the side surface of the front end.
The deforming unit 310 has a disk shape when all of the deformation unit 310 is folded. In the first unfolded state 310a, only the legs 315 and 316 are rotated and spread to both sides of the body plate 313. Further, in the second deployed state 310b, the attack plate 317 is rotated in front of the body plate 313 in addition to the legs 315 and 316.
The deformation unit 310 can be accommodated in the accommodating space of the case portion 5 in a folded state, and in the accommodated state, the case engaging portion 313b of the body plate 313 is engaged with the second hole 307 of the case portion 5. It becomes a state. In addition, when the deformation unit 310 is pushed forward from the second hole 307 in the housed state, the legs 315 and 316 are rotated by the elastic force of the torsion spring and jumped forward from the case portion 5. Become. Further, when the deformation unit 310 jumps out of the case portion 5 and the release button 309 hits a predetermined object, the holding mechanism is released and the attack plate 317 is vigorously rotated forward.
Another game toy 400 according to the present invention will be described. FIG. 11 is a perspective view showing a developed state of the game toy 400, and FIG. 12 is a plan view showing a folded state of the deformation unit 410 provided in the game toy 400. As shown in FIG. 11, the game toy 400 also includes a case portion 405 having a first hole 406 and a second hole 407, and a deformation unit 410. However, the play toy 400 is characterized in that the deformation unit 410 is split into two main characters 410a and 410b, which are two characters in the unfolded state.
The first main body 410a is formed in the shape of a monster that imitates a spider in the unfolded state, and includes a semicircular shell member 411, and two spears 413 and 414 that are rotatably connected to the shell member 411. . In the shell member 411, the side surface of the arc portion is an opening, and parts such as eyelids and feet are formed on the side surface of the radius portion. A case engaging portion 411 a that engages with the second hole 407 of the case portion 405 is formed on the rear end side surface of the shell member 411.
Each of the collars 413 and 414 has a symmetrical shape, and is pivotally attached to the arm portions 413a and 414a that are axially attached at positions where the radius and the arc portion of the shell member 411 intersect, and the other ends of the arm portions 413a and 414a. Arc-shaped flanges 413b and 414b. Further, a torsion spring is wound around each shaft, and the flanges 413 and 414 are urged in the opening direction by an elastic force. The collars 413, 414 first rotate the collar parts 413b, 414b against the elastic force to bring the arm parts 413a, 414a and the collar parts 413b, 414b close to each other, and then move the arm parts 413a, 414a to the elastic force. It is folded by rotating it against the arm and storing it in the opening part of the shell member 411.
The second main body 410b is formed in the shape of a monster that imitates a spear, and has a semicircular body 433, a head member 431 that is rotatably connected to the upper part of the body 433, and can rotate to the body 433. Two legs 435 and 436 connected to each other. The body 433 includes a head housing hole 31a on the upper surface, and a radius portion is an opening.
The head member 431 is pivotally attached to the side surface of the head receiving hole 433a of the body 433, and a torsion spring is connected to the shaft so that the head member 431 is biased in a direction protruding from the center of the arc portion of the body 433 by elastic force. Has been. The head member 431 can be folded into the head housing hole 433a of the trunk 433 by rotating against the elastic force. Further, although not shown, the head member 431 includes a locking mechanism that locks with the first main body 410a in the folded state and releases the locked state in the deployed state.
The legs 435 and 436 are members simulating the legs of a heel with a sucker or the like, are formed in an arc shape, are pivotally attached to the intersecting portion of the arc portion and the radius portion of the body 433, and are twisted on the shaft. A spring is connected and biased in the opening direction by an elastic force. The legs 435 and 436 can be stored in the opening portion on the side surface of the body 433 by rotating against the elastic force.
Then, as shown in FIG. 12, the first main body 410a and the second main body 410b can be folded into a disk shape by matching the radius portions in a state in which the respective parts are folded. The first main body 410a and the second main body 410b are connected by a locking mechanism provided in the head member 431 of 410b. The deformed unit 410 in the folded state is stored in the case portion 405 through the first hole 406 of the case portion 405, so that the disk shape is maintained against the elastic force of each elastic body. . At this time, since the head member 431 is also folded against the elastic force, the connection state between the first main body 410a and the second main body 410b is also maintained in the case portion 405.
When the deformation unit 410 is pushed forward from the second hole 407 while being accommodated in the case portion 405, the flanges 413 and 414 of the first main body 410a are rotated by elastic force, so that the deformation unit 410 jumps forward. When the second main body 410b jumps out of the case portion 405, the head member 431 expands to release the connection state between the first main body 410a and the second main body 410b, and the legs 435 and 436 of the second main body 410b are released. Due to the urging force, the first main body 410a and the second main body 410b are split.
Next, an example of the game method of the game toys 1,100, 200, 300, and 400 having such a configuration will be described. Each of the players holds a set of play toys that house the deformation units, and each of the play toys is used as a play equipment in the game. For example, the upper surface of the case portion is an attack surface and the lower surface is a defense surface. In this case part, the name of the character of the stored transformation unit and the attack skill possessed are described on the attack surface, and a sticker of a predetermined color is affixed to the defense surface.
Then, two to four players prepare a set of, for example, three play toys, and arrange them on their base with the defensive side facing up. At this time, it is assumed that the color of the defensive surface is unified for each player. Next, the game toys are sequentially directed toward other gamers' toys with fingers or the like, and when the game toys collide with each other, the attack is started. When the attack is started, turn over each other's play toys and face the attack surface. At this time, for example, if “attack twice” is described in the attack skill, it is possible to attack twice in a row, and if “attempt first attack” is described in the attack skill, it is possible to attack first. To do.
Then, a player who can attack first pushes the opponent's play toy out of the field so that the deformable unit pops out toward the opponent's play toy, and if the opponent's play toy jumps out by the deformed unit When pushed out of the field, the play toy on the pushed side cannot be used.
In this order, each player repeats the attack in order, plays until all the opponent's play toys are pushed out of the field, and finally the player who pushes all enemies out of the field wins . As described above, the play toy (pop-out toy) according to the present embodiment can be played as a piece game piece. In other words, the game toy according to the present embodiment can be played with the addition of a new fun that the deforming unit pops out of the case part to the existing camp game and pushes out the enemy piece with the jumped toy. It will be possible to provide an unprecedented game toy. Then, a plurality of play toys as described above can be provided as a set and provided as a play toy set for playing with a finger. Note that the play method of the play toy is not limited to this play method, and the surface of the case portion may be similar to a coin.
Moreover, it is not limited to the case part which has the 1st hole and the 2nd hole as mentioned above, It can also be set as the play toy provided with the other case part. For example, as shown in FIG. 13, a case portion 505 having a circular hole 508 which is a housing space (and an opening) for housing the deformation unit on the lower surface of the disk can be used. The case portion 505 can be kept in the folded state of the deformable unit and can hold the deformable unit by covering the deformed unit in the folded state.
The game toy provided with such a case portion 505 can be played such that a plurality of players rotate their respective game toys so that coins (coins) are rotated, and play by hitting the game toys. Specifically, when the rotated game toys collide with each other, the deformation unit pops out from the housing space of the case portion 505, and the player who the deformation units that have protruded collide further and finally the deformation unit turns over, loses, Alternatively, a game method in which the player who rides on the board wins is possible. That is, a game in which a new taste is added to the game of playing by hitting classic coins is possible.
As described above, the game toy according to the present embodiment has a configuration in which the deformation unit pops out from the coin-shaped case portion while being deformed, thereby adding a new taste to a game using coins that has conventionally existed. And play is possible.
And according to this embodiment, since it is a coin shape, carrying around is easy, and when playing with a plurality of players, it is very convenient to bring together play toys, and anyone in the world Because it is a familiar coin shape, it is possible to provide a toy that is familiar to everyone.
In addition, since a plurality of constituent members are rotated and deployed by an elastic body from a state of being folded into a disk shape and deformed to a deployed state, the shape of the deployed state may be any character shape. By configuring the deformation unit with various types of characters, it is possible to provide the enjoyment of collecting characters to consumers.
The present invention is not limited to the above-described embodiment, and various design changes can be made without changing the gist of the invention. For example, a pattern imitating a coin is printed or engraved on the upper surface and / or the bottom surface of the case portion, and the folded deformation unit is housed in the case portion, so that it may be formed to look like a real coin. Good. Further, a dressing plate for changing the pattern of the upper surface and / or the bottom surface may be provided, and the appearance of the case unit 5 may be configured to be changeable by changing the dressing plate.

According to the present invention, by making a play toy configured by a deformable unit and a disk-shaped case part that accommodates the deformable unit, the case part itself that is easy to carry and accommodates the deformable unit is provided. It is possible to play a game as a playground equipment and to develop a game with a new taste by causing the deformation unit to jump out of the case part.

DESCRIPTION OF SYMBOLS 1 Game toy 5 Case part 6 1st hole 6a End surface 6b End surface 7 2nd hole 10 Deformation unit 21 Head 23 Body 25 Wing part 27 Tail 31 Body board 31a Head accommodation hole 31b Head axis support part 31d Wing part Connection groove 32 Back protrusion plate 32a Guide wall 32b Tail connecting groove 33 Foot 35 Neck member 37 Head member 41 Wing main plate 41a Hollow portion 41b Hand 41g Case engaging portion 41e Connecting plate 41h Radial side straight portion 41i Arc side straight portion 41j Arc Part 42 wing part main plate 42a hollow part 42b hand 42g case engaging part 42e connecting plate 42h radial side straight part 42i arc side straight part 42j arc part 43 first wing 44 second 61 1st torsion spring 62 2nd torsion spring 63 3rd torsion spring 64 4th torsion spring 65 5th torsion spring 66 6th torsion spring 100 game toy 105 case part 106 1st hole 107 2nd hole 110 deformation | transformation unit 111 Body plate 111a Lower surface plate 111b Arc wall 111c Upper surface plate 115 Right arm portion 116 Left arm portion 125 Head 126 Elephant object 127 Elephant object 131 Right main plate 131a Case engaging portion 131b Lower surface plate 131c Arc wall 131d Upper surface plate 133 Right hand 135 Sword 138 Connecting rod 141 Left main plate 141a Case engaging portion 143 Connecting rod 145 Left hand 200 Play toy 205 Case portion 206 First hole 207 First Two holes 210 Deformation unit 211 Head 215 Forefoot 217 Tail 221 Body plate 221a Front curve 221b Inner curve 221c Inner curve 221d Oblique line 221e Oblique line 221f Rear straight part 221g Head storage hole 221h Connecting rod storage groove 223 Leg 224 Foot 231 Neck member 233 Head member 241 Forefoot main plate 241a Case engaging portion 242 Forefoot main plate 242a Case engaging portion 244 Connecting rod 245 Connecting rod 300 Play toy 305 Case portion 306 First hole 307 Second hole 309 Release button 310 Deformation unit 310a First unfolded state 310b Second unfolded state 313 Body plate 313a Hieroglyph 313b Case Engaging portion 315 foot 316 foot 317 attack plate 400 game toy 405 case portion 406 first hole 407 second hole 410 deformation unit 410a first main body 410b second main body 411 shell member 411a case engaging portion 413 ４ 413a arm portion 413b collar 414 collar 414a arm 414b collar 431 head member 433 body 433a head storage hole 435 foot 436 foot 505 case portion 508 circular hole

Claims (8)

1. A deformation unit constituted by a plurality of constituent members connected to each other in a rotatable manner and an elastic member arranged in the rotatable connecting portion;
   It is configured in a disk shape having at least an accommodation space in which the deformation unit can be accommodated and an opening formed in a size that allows the deformation unit to enter and exit, and the deformation unit is detachably mounted in the accommodation space. A case part of the configuration;
   With
   The plurality of component members are configured to be folded into a disk shape having a size accommodated in the storage space when folded, and the elastic member expands the plurality of component members from a state of being folded into the disk shape. Arranged to bias in the direction,
   The plurality of structural members are folded into a disk shape against the elastic force of the elastic member, and the deformed unit is accommodated in the accommodating space from the opening of the case portion, so that the deformable unit is The inner wall of the case portion is maintained in a disk shape against the elastic force of the elastic member, and the case portion in which the deformation unit is accommodated constitutes a play equipment,
   When the deformation unit is released from the accommodation space, the plurality of constituent members are rotated and deployed with each other by the urging force of the released elastic member, and are deformed from the disk shape to the character shape. Play toys.
2. The case portion includes the opening on the side and further includes an extrusion operation hole on the side for extruding the deformation unit accommodated in the case.
   The extrusion operation hole is formed smaller than the opening at a position facing the opening,
   When an operation of pushing out from the push-out operation hole to the deformation unit is performed, the plurality of constituent members rotate and unfold with respect to each other by the urging force of the opened elastic member, and deformed from the disk shape to the character shape; The deformed toy according to claim 1, wherein
3. The case portion includes the opening portion on a lower surface, and the opening portion is formed in a size that allows the deformation unit configured by the plurality of constituent members folded into the disk shape to be mounted, The deformed unit is accommodated in the housing space by mounting the deformed deformed unit from below the case part,
   A configuration in which the deformation unit pops out from the accommodation space when an impact is applied to the case portion, and the plurality of structural members rotate and unfold with respect to each other by the urging force of the opened elastic member to deform from the disk shape to the character shape The deformed toy according to claim 1, wherein
4. A case having a disk shape with a housing space, and having a first hole and a second hole on a side surface;
   A plurality of components that are connected to each other in a direction parallel to the disk-shaped top surface or bottom surface, are formed in a shape that includes a circular shape or an arc shape when viewed from above, and have a thickness that can be accommodated in the accommodation space when viewed from the side surface. A deformation unit composed of a member and an elastic member that urges between the constituent members arranged in the rotatable connection portion in a rotation direction;
   With
   The plurality of constituent members are accommodated in the accommodating space when folded according to a procedure including a plurality of rotational operations performed against the elastic force of the elastic member in a rotational direction parallel to the disk-shaped top surface or bottom surface. The elastic member is urged in a direction in which the plurality of structural members are rotated and deployed from the state of being folded into the disk shape. Has been placed,
   The first hole is formed to have a size capable of mounting the deformation unit constituted by a plurality of constituent members folded into the disc shape, and the second hole is opposed to the first hole. Formed at a position smaller than the first hole,
   The plurality of structural members are folded into a disk shape against the elastic force of the elastic member, and the deformed unit is detachably accommodated in the accommodating space from the first hole, whereby the deformable unit is The disc portion is maintained against the elastic force of the elastic member by the inner wall of the case portion, and the case portion in which the deformation unit is housed constitutes a play equipment,
   When an operation of pushing out from the second hole to the deformation unit is performed, the plurality of constituent members are simultaneously rotated and unfolded by the urging force of the released elastic member, so that the disk shape changes from the disk shape to the disk shape. A game toy characterized in that it is developed on a surface parallel to the top surface or the bottom surface and deformed into a character shape.
5. The play toy according to any one of claims 1 to 4, further comprising at least one constituent member that rotates in a direction perpendicular to an upper surface or a bottom surface of the disc-shaped case portion.
6. The component member and the elastic member are configured to be deployable in two stages: a first deployed state that is projected out of the case portion and deployed, and a second deployed state that is further deployed from the first deployed state. The play toy according to any one of claims 1 to 5, characterized in that:
7. 7. The case according to claim 1, wherein the case portion has a thick disk shape simulating a coin, and a pattern simulating a coin is printed or stamped on at least the upper surface of the disk shape. The play toy according to the item.
8. A play toy set comprising a plurality of play toys according to any one of claims 1 to 7, each of which is configured to be movable by playing with a finger.

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