CN112090092A

CN112090092A - Action toy, article and toy combination

Info

Publication number: CN112090092A
Application number: CN202010951081.9A
Authority: CN
Inventors: 斋藤洋太; 小林史弥
Original assignee: Bandai Co Ltd
Current assignee: Bandai Co Ltd
Priority date: 2017-07-12
Filing date: 2018-06-29
Publication date: 2020-12-18
Anticipated expiration: 2038-06-29
Also published as: CN108786131B; CN108786131A; CN112090092B; JP2019017511A; HK1258325A1; JP6439015B1

Abstract

The invention provides an action toy, an article and a toy combination. The action toy improves the playability. The action toy (10) is used for a game using an article (20). The action toy (10) comprises a main body part (11), an opening and closing part (12) arranged on the main body part (11), and an action part (13) arranged on the main body part (11). The operation unit (13) has a 1 st surface (MS) on which the article (20) can be mounted and a 2 nd surface (NMS) different from the 1 st surface, and is configured so as to be displaceable from a 1 st state in which the 1 st surface is not exposed to a 2 nd state in which the 1 st surface MS is exposed, in accordance with the opening of the opening/closing unit (12).

Description

Action toy, article and toy combination

The application is a divisional application of an application with application date of 2018, 6 and 29, application number of 201810722347.5, and invention name of action toy, article and toy combination.

Technical Field

The present invention relates to an action toy used for a game using an article, an article applicable to an action toy, and a toy combination including a combination of an action toy and an article.

Background

Patent document 1 listed below discloses a can toy configured to: the claw protruding from the bottom plate of the can body is pressed against a desk or the like to disengage the claw from the claw hole of the bottom plate, so that the plate body is pushed up by the force of the spring and the image opens the cover and jumps out of the can body.

However, the main body of the game of the pot toy is to jump the figure out of the pot body, and the task of restoring the jumped figure is troublesome, and therefore, from the viewpoint of repeatedly enjoying the game, there is room for improvement in terms of improvement in playability. In addition, the canned toy is a simple motion in which the character is pushed out and jumped out from the state of entering the canned toy, and the playability is further improved.

Patent document 1: registered utility model No. 3033825

Disclosure of Invention

Problems to be solved by the invention

The present invention addresses the problem of providing an action toy with improved playability, an article suitable for the action toy, and a toy combination including a combination of the action toy and the article.

Means for solving the problems

In order to solve the above problem, the present invention relates to an action toy for a game using an article, the action toy including a main body, an opening/closing portion provided in the main body, and an action portion provided in the main body, the action portion having a 1 st surface to which the article can be attached and a 2 nd surface different from the 1 st surface, and being configured to be displaceable from a 1 st state in which the 1 st surface is not exposed to a 2 nd state in which the 1 st surface is exposed in accordance with opening of the opening/closing portion.

The present invention also relates to an article to be applied to the above-described action toy, wherein the article includes an attachment means for detachably attaching to the 1 st surface of the action portion of the action toy.

Furthermore, the invention relates to a toy set comprising a combination of an action toy as described above and an article as described above. The present invention also relates to a toy set including the above-described action toy, the above-described article, and a house toy, wherein the house toy includes a house main body and a house opening/closing unit provided in the house main body, and the house main body includes the 1 st house opening/closing unit and a 2 nd house opening/closing unit different from the 1 st house opening/closing unit.

ADVANTAGEOUS EFFECTS OF INVENTION

The present invention can provide an action toy with improved playability, an article suitable for the action toy, and a toy combination including a combination of the action toy and the article.

Drawings

Fig. 1 (a) is a front view of the action toy according to the present invention, fig. 1 (B) is a right side view of fig. 1 (a), fig. 1 (C) is a left side view of fig. 1 (a), and fig. 1 (D) is a plan view of fig. 1 (a).

Fig. 2 (a) is a plan view showing a state where the 2 nd surface mounting surface of the operating unit (including the 2 nd shaft and the torsion spring) shown in fig. 1 faces upward, fig. 2 (B) is a plan view showing a state where the 1 st surface of the operating unit faces upward, fig. 2 (C) is a view excluding the 2 nd member from fig. 1 (a), fig. 2 (C) is a view excluding the 1 st member from fig. 1 (B), fig. 2 (E) is a cross-sectional view taken along line S1-S1 of fig. 2 (a), and fig. 2 (F) is a left side view of fig. 2 (a).

Fig. 3 is an explanatory view of the operation toy shown in fig. 1.

Fig. 4 is an explanatory view of the operation toy shown in fig. 1.

Fig. 5 is an explanatory view of the operation toy shown in fig. 1.

Fig. 6 is an explanatory view of the operation toy shown in fig. 1.

Fig. 7 (a) is a front view of an article according to the present invention, fig. 7 (B) is a right side view of fig. 7 (a), fig. 7 (C) is a rear view of fig. 7 (a), fig. 7 (D) is a cross-sectional view taken along line S2-S2 of fig. 7 (a), fig. 7 (E) is a top view of fig. 7 (a), and fig. 7 (F) is a bottom view of fig. 7 (a).

Fig. 8 is an explanatory view of the mounting operation of the article shown in fig. 7.

Fig. 9 (a) and 9 (B) are explanatory views of the mounting operation of the article shown in fig. 7.

Fig. 10 is an explanatory view of a game method of the action toy after the article shown in fig. 8 is attached.

Fig. 11 is an explanatory diagram of a game method of the action toy after the article shown in fig. 8 is attached.

Fig. 12 is an explanatory diagram of a game method of the action toy after the article shown in fig. 8 is attached.

Fig. 13 is an explanatory diagram of a game method of the action toy after the article shown in fig. 8 is attached.

Fig. 14 (a) is a plan view of a house toy according to the present invention, and fig. 14 (B) is a front view of the house toy.

Fig. 15 (a) is a plan view showing a state where the 1 st opening/closing part and the 2 nd opening/closing part of the house toy shown in fig. 14 are opened, and fig. 15 (B) is a front view showing a state where the house opening/closing part of the house toy is opened.

Fig. 16 is an explanatory diagram of a method of playing the house toy shown in fig. 14.

Fig. 17 is an explanatory view of another play method of the house toy shown in fig. 14.

Description of the reference numerals

10. An action toy; 11. a main body portion; 11b, the 1 st groove part; 11c, groove 2; 11d, an elastic part; 11f, an engaged part; 12. an opening/closing section; 12a, the 1 st connecting part; 12b, a pressing part; 12c, the 2 nd connecting part; 12d, an abutting portion; 12f, a support portion; 13. an operation section; MS, No. 1; NMS, face 2; 13a, an engaging part; 13b, an engaging part; 13c, a pressed part; 13d, a positioning part; 13e, a magnetic member; 14. a 1 st axis; 15. a 2 nd axis; 16. a torsion spring; 20. an article; 21. a trunk portion; 24. a leg portion; 25. a void; 26. a permanent magnet; 27. a magnetic member; 30. a house toy; 31. a main body portion; 32. the 1 st opening and closing part; 33. the 2 nd opening/closing part; 34. a 1 st axis; 35. a 2 nd axis; 36. a magnetic member.

Detailed Description

Action toy 10: FIGS. 1 to 6

First, the structure of the action toy 10 according to the present invention will be described with reference to fig. 1 and 2. In this description, for convenience, the near side of fig. 1 (a) is denoted as front, the depth side is denoted as rear, the left side is denoted as left, the right side is denoted as right, the upper side is denoted as upper, the lower side is denoted as lower, and the other drawings are directed as reference marks in this manner.

The action toy 10 includes a main body 11, an opening/closing unit 12, and an action unit 13. Fig. 1 shows a state in which the opening/closing section 12 is closed and the 1 st surface MS of the operating section 13 is not exposed.

The main body 11 is formed of synthetic resin such as polypropylene or ABS resin. As shown in fig. 1D, the main body 11 has a substantially semicircular shape when viewed from above, and a bottom portion 11a having a substantially circular shape when viewed from above is provided at a lower end of the main body 11 (see fig. 4 described later). As shown in fig. 1 (C), a 1 st groove portion 11b for receiving a 1 st link portion 12a described later and a 2 nd groove portion 11C for receiving a 2 nd link portion 12C described later are provided at a left end portion of the body portion 11 with a gap in the vertical direction. The shape of the 1 st groove part 11b and the shape of the 2 nd groove part 11c are both substantially rectangular when viewed from the left. As shown in fig. 1 (C), an elastic portion 11d for suppressing the opening angle of the opening/closing portion 12 is provided between the 1 st groove portion 11b and the 2 nd groove portion 11C at the left end portion of the main body portion 11. The elastic portion 11d has a substantially rectangular shape when viewed from the left, and the elastic portion 11d has a band-shaped portion (reference numeral omitted) that can be elastically deformed and a raised portion (reference numeral omitted) provided on the front side of the outer surface of the band-shaped portion. As shown in fig. 1 (a) and 1 (D), a protrusion 11e that can be fitted into the recess 12e of the opening/closing portion 12 is provided at the right end of the body 11. As shown in fig. 1 (D), engaged portions 11f having a substantially triangular shape as viewed from above are provided on the left side and the right side of the inner surface of the main body portion 11 so as to be bilaterally symmetrical. In addition, a shaft hole (reference numeral omitted) into which a 1 st shaft 14 to be described later is inserted is provided in the vertical direction at the left end portion of the body 11 (excluding the 1 st groove 11b, the 2 nd groove 11c, and the elastic portion 11 d). In addition, shaft holes (reference numerals are omitted) for inserting a 2 nd shaft 15 to be described later are provided in the left and right directions in the left and right end portions of the upper portion of the main body 11.

The opening/closing portion 12 is formed of synthetic resin such as polypropylene or ABS resin. As shown in fig. 1 (D), the opening/closing portion 12 has a substantially semicircular shape when viewed from above, and the vertical dimension of the opening/closing portion 12 corresponds to the vertical dimension of the bottom portion 11a subtracted from the vertical dimension of the main body portion 11. Further, a 1 st link 12a is provided at a left end portion of the opening/closing portion 12 so as to protrude rearward. The 1 st link portion 12a has a substantially rectangular shape when viewed from the left, and the 1 st link portion 12a has a shaft hole (reference numeral omitted). Further, the pressing portions 12b protruding to the left and rear sides are provided on the outer surface of the 1 st connecting portion 12 a. The pressing portion 12b is for pressing the pressed portion 13c of the operating portion 13 in response to the opening of the opening/closing portion 12, and the outer surface of the pressing portion 12b is curved, so that the pressing can be performed smoothly. Further, a 2 nd link 12c is provided at a left end portion of the opening/closing portion 12 so as to protrude rearward, and the 2 nd link 12c is spaced apart from the 1 st link 12a in the vertical direction. The 2 nd connecting portion 12c has a substantially rectangular shape when viewed from the left, and the 2 nd connecting portion 12c has a shaft hole (reference numeral omitted) vertically facing the shaft hole of the 1 st connecting portion 12 a. Further, an abutting portion 12d for suppressing the opening angle of the opening/closing portion 12 is provided between the 1 st connecting portion 12a and the 2 nd connecting portion 12c at the left end of the opening/closing portion 12. The contact portion 12d has a substantially rectangular shape when viewed from the left, and the contact portion 12d has a raised portion (reference numeral omitted) capable of contacting the raised portion of the elastic portion 11d of the main body portion 11. A recess 12e into which the projection 11e of the body 11 can be fitted is provided at the right end of the body 11. A support portion 12f formed in a substantially arcuate shape as viewed from above is provided on the inner surface of the opening/closing portion 12.

The opening/closing unit 12 is attached to the main body 11 by: after the 1 st joint 12a of the opening/closing portion 12 is inserted into the 1 st groove 11b of the body 11 and the 2 nd joint 12c is inserted into the 2 nd groove 11c of the body 11, the 1 st shaft 14 is inserted into the shaft hole for the 1 st shaft 14 of the body 11 from above or below, and the 1 st shaft 14 is inserted into the shaft hole of the 1 st joint 12a and the shaft hole of the 2 nd joint 12 c. The 1 st shaft 14 is made of metal such as stainless steel. That is, the mounted opening/closing unit 12 can rotate about the axis of the 1 st shaft 14.

The operating portion 13 is formed of synthetic resin such as polypropylene or ABS resin. The shape of the operating portion 13 is substantially elliptical (a shape obtained by cutting out both left and right sides of a circle in parallel) when viewed from above, and the operating portion 13 has a 1 st surface MS and a 2 nd surface NMS different from the 1 st surface. In fig. 1 (D) and 2 (a), the upper surface is a 2 nd surface NMS, and the lower surface is a 1 st surface MS (a surface suitable for mounting an article 20 described later, see fig. 2 (B)). As is clear from fig. 2E and 2F, the operating portion 13 is formed by integrating two members (the 1 st member 13-1 and the 2 nd member 13-2) divided up and down by screw fastening, adhesion, or the like.

Engaging portions (2 nd engaging portions) 13a formed in a substantially triangular shape as viewed from above are provided on the left front lower portion and the right front lower portion of the operating portion 13 in left-right symmetry. The engaging portions 13a are engageable with the engaged portions 11f of the main body 11. An engaging portion (1 st engaging portion) 13b formed in a substantially rectangular shape when viewed from above is provided on the upper portion of the rear side on the left side of the operating portion 13. The engaging portion 13b is engageable with the left engaged portion 11f of the main body 11. A pressed portion 13c having a substantially rectangular shape when viewed from above is provided on a lower portion of the rear side of the left surface of the operating portion. The pressed portion 13c is pressed by the pressing portion 12b of the 1 st link portion 12a in accordance with the opening of the opening/closing portion 12, and the position and the size of the pressed portion 13c in the vertical direction correspond to the position and the size of the pressing portion 12b of the 1 st link portion 12a in the vertical direction.

The 1 st surface MS of the operating portion 13 is provided with a positioning portion 13d (see fig. 2B) for determining the mounting position of the article 20 to be described later. In the present embodiment, the positioning portion 13d is a recess having an outer shape corresponding to an outer shape of a leg portion 24 of the article 20 to be described later, and into which a part of the leg portion 24 is inserted. A magnetic member 13e made of stainless steel (except austenite) or the like, for example, a ferromagnetic member (see fig. 2C) is provided on the inner side of the 1 st surface MS of the operating portion 13. The magnetic member 13e has a substantially circular outer shape and is fixed to the inner surface of the 1 st component 13-1 by adhesion. Of course, the magnetic member 13e may have a ring shape or a rectangular shape.

A substantially semi-cylindrical groove 13f and a groove 13g are provided in substantially the center of the 1 st member 13-1 and the 2 nd member 13-2 constituting the operating portion 13 on the left and right sides. The

grooves

13f and 13g are used as shaft holes when the 1 st member 13-1 and the 2 nd member 13-2 are integrated (see fig. 1C and 1D). The size of the groove 13f is larger than that of the groove 13g, which is considered for receiving the torsion spring 16 externally mounted to the 2 nd shaft 15 with a margin. A shaft support portion 13h (see fig. 2D) for rotatably supporting the 2 nd shaft 15 is provided on the inner surface of the 2 nd member 13-2. The shaft support portion 13f supports the 2 nd shaft 15 so as to be rotatable between the two projections. That is, the position of the 2 nd shaft 15 in the operating portion 13 is determined by the shaft hole (combination of the grooves 13 g) on the left side and the shaft support portion 13 h.

One end 16a of the torsion spring 16 mounted on the 2 nd shaft 15 is hooked by the lower surface of the engaged portion 11f on the right side of the body 11 (see fig. 1D). The other end 16b of the torsion spring 16 is hooked on a projection 13i provided on the inner surface of the 2 nd member 13-2 (see fig. 2D).

The operation unit 13 is attached to the main body 11 by: the torsion spring 16 is disposed on the 2 nd member 13-2, the 2 nd member 13-2 is integrated with the 1 st member 13-1, and then, the 2 nd shaft 15 is inserted into the shaft hole for the 2 nd shaft 15 of the main body portion 11 from the left or right direction, and the 2 nd shaft 15 is inserted into the shaft hole (combination of the grooves 13 g) on the left side of the operating portion 13, the shaft support portion 13h, and the torsion spring 16 (see fig. 1) after being positioned on the inner upper portion of the main body portion 11. The 2 nd shaft 15 and the torsion spring 16 are made of metal such as stainless steel.

In the state shown in fig. 1 (the state in which the opening/closing portion 12 is closed and the 1 st surface MS of the operating portion 13 is not exposed), the torsion spring 16 exerts a force in the clockwise direction (circumferential direction) on the operating portion 13 as viewed from the right, and exerts a force in the left direction (axial direction) on the operating portion 13 as viewed from the top. That is, the operating portion 13 is biased clockwise by the torsion spring 16 when viewed from the right, but is biased leftward by the torsion spring 16 when viewed from above, so that the engaging portion 13b is engaged with the engaged portion 11f on the left side of the main body portion 11, and therefore, the operating portion 13 can be maintained in a state where the 1 st surface MS is not exposed. In this state, since the support portion 12f of the opening/closing portion 12 is positioned below the front side of the lower surface of the operating portion 13 (the front side of the 1 st surface MS), even if an external force in the counterclockwise direction as viewed from the right is applied by pressing the front side of the 2 nd surface NMS downward, the operating portion 13 does not rotate in the counterclockwise direction as viewed from the right. Fig. 2 shows an example in which one torsion spring 16 serves both as the circumferential biasing and the axial biasing, but the torsion spring 16 may be used by being divided into a 1 st spring member dedicated to the circumferential biasing and a 2 nd spring member dedicated to the axial biasing.

Next, the operation of the operation toy 10 will be described with reference to fig. 3 to 6. In this description, for convenience, the near side of fig. 3 is indicated as upper, the depth side is indicated as lower, the left side is indicated as left, the right side is indicated as right, the upper side is indicated as rear, the lower side is indicated as front, and the other drawings are directed as reference marks.

In the state shown in fig. 1 (the state where the opening/closing portion 12 is closed and the 1 st surface MS of the operating portion 13 is not exposed), the cooperation of the main body portion 11, the opening/closing portion 12, and the operating portion 13 defines an article accommodating space (reference numeral omitted).

When the opening/closing portion 12 is opened from the state shown in fig. 1, as shown in fig. 3, the opening angle of the opening/closing portion 12 can be temporarily suppressed after the abutting portion 12d abuts against the elastic portion 11d of the main body portion 11. Fig. 3 shows a case where the opening angle of the opening/closing portion 12 is suppressed after the rotation by about 90 degrees, and the opening angle of the opening/closing portion 12 can be suppressed at an angle larger than 90 degrees and smaller than 90 degrees by changing the positional relationship between the contact portion 12d and the elastic portion 11 d.

When the opening/closing portion 12 is further opened against the resistance due to the elasticity of the elastic portion 11d of the main body portion 11 in the state shown in fig. 3, as shown in fig. 4, the pressing portion 12b of the 1 st connecting portion 12a of the opening/closing portion 12 enters the inside of the main body portion 11 and presses the pressed portion 13c of the operating portion 13 in the right direction, and the operating portion 13 is displaced in the right direction (see an arrow) against the axial direction urging force of the torsion spring 16 by the pressing, and the engagement of the engaging portion 13b with the left engaged portion 11f of the main body portion 11 can be released by the displacement. In fig. 4, the engagement between the engaging portion 13b and the engaged portion 11f can be released by the rotation of more than 20 degrees and less than 20 degrees by changing the positional relationship between the abutting portion 12d and the elastic portion 11d when the engagement between the engaging portion 13b and the engaged portion 11f is released after the rotation is further rotated by about 20 degrees.

When the engagement of the engaging portion 13b of the operating portion 13 with respect to the left engaged portion 11f of the main body portion 11 is released, the operating portion 13 rotates clockwise by about 180 degrees as viewed from the right by the circumferential urging force of the torsion spring 16 as shown in fig. 5. This rotation is stopped after the engagement portions 13a of the operating portion 13 come into contact with the engaged portions 11f of the main body portion 11, and the 1 st surface MS of the operating portion 13 is exposed.

When the opening/closing unit 12 is closed from the state shown in fig. 5, as shown in fig. 6, the support portion 12f of the opening/closing unit 12 is advanced below the front side of the lower surface of the operating unit 13 (the front side of the 2 nd surface NMS), and the opening/closing unit 12 is completely closed after the concave portion 12e of the opening/closing unit 12 is fitted into the convex portion 11e of the main body 11. In this state, the operating portion 13 is biased clockwise when viewed from the right by the torsion spring 16, and the engaging portions 13a of the operating portion 13 engage with the engaged portions 11f of the main body portion 11, so that the operating portion 13 can be maintained in a state where the 1 st surface MS is exposed. In this state, since the support portion 12f of the opening/closing portion 12 is positioned below the front side of the lower surface of the operating portion 13 (the front side of the 1 st surface MS), even if the front side of the 1 st surface MS is pressed downward and an external force in the counterclockwise direction as viewed from the right is applied, the operating portion 13 does not rotate in the counterclockwise direction as viewed from the right.

Article 20: FIGS. 7 to 13

First, the structure of the article 20 according to the present invention (the article 20 used in the action toy 10) will be described with reference to fig. 7. In this description, for convenience, the near side of fig. 7 (a) is denoted as front, the depth side is denoted as rear, the left side is denoted as left, the right side is denoted as right, the upper side is denoted as upper, the lower side is denoted as lower, and the other drawings are directed as reference marks in this manner.

The article 20 is a human-shaped article having a body portion 21, a head portion 22, arm portions 23, and leg portions 24, and is formed of synthetic resin such as polypropylene or ABS resin. Fig. 7 shows a structure in which the body portion 21, the head portion 22, the arm portion 23, and the leg portion 24 are integrated, and may be configured by a plurality of members, and the head portion 22, the arm portion 23, and the like may be configured to be rotatable. In fig. 7, a human figure is shown as the article 20, and the article may be an article imitating an animal, an article imitating a character appearing in a moving picture, a cartoon, a novel, or the like, or may be a structure having a shape such as a cylinder or a rectangular parallelepiped.

As described above, the outer shape of the leg portion 24 corresponds to the outer shape of the recess 13d of the operation portion 13 of the operation toy 10. A substantially cylindrical cavity 25 is provided in the trunk and the leg 24, and a substantially cylindrical permanent magnet 26 is provided in the cavity 25 so as to be movable in the vertical direction. In order to prevent an article 20 attached to the 1 st surface MS of the operating portion 13 described later from coming off when the operating portion 13 rotates, it is preferable that a high-magnetic-force neodymium magnet, a samarium-cobalt magnet, or the like be used as the permanent magnet 26. A magnetic member 27, for example, a ferromagnetic member, made of stainless steel (except austenite) or the like is provided above the cavity 25. The magnetic member 27 has a rod shape and is fixed to the article 20 by insertion. Of course, the magnetic member 27 may be a screw to be screwed into the article 20 (including a screw used when assembling the article 20 composed of a plurality of parts) or a plate-like object to be embedded in the article 20.

Since the permanent magnet 26 is vertically movable and the magnetic member 27 is disposed above the permanent magnet 26, the permanent magnet 26 is attracted by the magnetic member 27 and positioned above the cavity 25 in a state where the article 20 is not attached to the 1 st surface MS of the operation portion 13 of the operation toy 10, as shown in fig. 7 (D). As will be described later, the force with which the magnetic member 27 of the article 20 attracts the permanent magnet 26 is smaller than the force with which the magnetic member 13e of the operation portion 13 of the operation toy 10 attracts the permanent magnet 26 when the article 20 is attached to the 1 st surface MS of the operation portion 13.

Next, the operation of attaching the article 20 to the 1 st surface MS of the operation portion 13 of the operation toy 10 will be described with reference to fig. 8 and 9. In this description, for convenience, the near side of fig. 8 is indicated by an upper mark, the deep side is indicated by a lower mark, the left side is indicated by a left mark, the right side is indicated by a right mark, the upper side is indicated by a rear mark, the lower side is indicated by a front mark, and the reference mark is oriented in this manner in other drawings.

When the article 20 is attached to the 1 st surface MS of the operation portion 13 of the operation toy 10, the state shown in fig. 6 is obtained (the state where the opening/closing portion 12 is closed and the 1 st surface MS of the operation portion 13 is exposed). Then, as shown in fig. 8 and 9, the article 20 is attached so that a part of the leg portion 24 is inserted into the recess 13d of the 1 st surface MS.

As shown in fig. 9 (a), when the article 20 is separated from the operation portion 13, the permanent magnet 26 is attracted by the magnetic member 27 and positioned above the hollow 25. On the other hand, as shown in fig. 9 (B), when the article 20 is attached to the 1 st surface MS of the operating portion 13, the permanent magnet 26 is attracted by the magnetic member 13e of the operating portion 13 and moves to the lower portion of the cavity 25. The reason why the permanent magnet 26 moves to the lower portion of the cavity 25 at the time of mounting is that: the force with which the magnetic member 13e of the action portion 13 attracts the permanent magnet 26 is larger than the force with which the magnetic member 27 of the article 20 attracts the permanent magnet 26. Further, since the collision sound is generated when the permanent magnet 26 of the article 20 moves from the upper portion to the lower portion of the cavity 25, the player can also visually confirm the attachment of the article 20 to the 1 st surface MS of the operation portion 13 by the collision sound. Here, since the recess 13d is provided on the 1 st surface MS of the operating portion 13, the article 20 can be disposed on the 1 st surface MS so that the positional relationship in the vertical direction between the permanent magnet 26 provided on the article 20 and the magnetic member 13e provided on the 1 st surface MS corresponds to each other. Further, by attaching the article 20 to the 1 st surface MS so as to be inserted into the recess 13d, the movement of the article 20 in the direction along the surface of the 1 st surface MS due to the rotation of the operating portion 13 can be restricted, and therefore, the detachment of the article from the attachment surface 20 can also be suppressed. Further, the article 20 can be attached to the 2 nd surface NMS, but since the magnetic member 13e is provided at the position of the operation portion 13 on the 1 st surface MS side, the force with which the magnetic member 13e of the operation portion 13 attracts the permanent magnet 26 is smaller in the case where the article 20 is attached to the 2 nd surface NMS than in the case where the article 20 is attached to the 1 st surface MS. That is, the article 20 can be attached to the 2 nd NMS, but the attachment of the article 20 to the operation unit 13 is unstable compared to the 1 st MS.

Next, a game method after the article 20 is attached to the action toy 10 will be described with reference to fig. 10 to 13. In this description, for convenience, the near side of fig. 10 is indicated as upper, the depth side is indicated as lower, the left side is indicated as left, the right side is indicated as right, the upper side is indicated as rear, the lower side is indicated as front, and the other drawings are directed as reference marks.

After the article 20 is attached to the 1 st surface MS of the operating portion 13, as shown in fig. 10, the opening/closing portion 12 is opened until the abutting portion 12d abuts against the elastic portion 11d of the main body portion 11. As described above, the opening angle at this time can be adjusted.

After the opening/closing portion 12 is opened, as shown in fig. 11, the front side of the operating portion 13 is pressed downward by the fingertips against the urging force of the torsion spring 16, and the operating portion 13 is rotated counterclockwise by about 180 degrees as viewed from the right. At the end of this rotation, the operating portion 13 moves rightward against the axial urging force of the torsion spring 16 so that the engaging portion 13b of the operating portion 13 passes over the left engaged portion 11f of the main body portion 11, and after passing over the engaged portion 11f, the operating portion 13 moves leftward and the engaging portion 13b engages with the left engaged portion 11f of the main body portion 11 by the axial urging force of the torsion spring 16. Then, the article 20 attached to the 1 st surface MS of the operating portion 13 is reversed by the rotation of the operating portion 13 and enters the main body portion 11.

After the operation unit 13 is rotated, as shown in fig. 12, the opening/closing unit 12 is closed until the concave portion 12e of the opening/closing unit 12 is fitted into the convex portion 11e of the main body 11. In this state (the state in which the opening/closing portion 12 is closed and the 1 st surface MS of the operating portion 13 is not exposed), the article storage space is defined inside by the cooperation between the main body portion 11, the closing portion 12, and the operating portion 13, and therefore the article 20 that has been turned over and entered into the main body portion 11 is stored in the article storage space.

When the article 20 is exposed in the state shown in fig. 12 (the state in which the opening/closing portion 12 is closed and the 1 st surface MS of the operating portion 13 is not exposed), the opening/closing portion 12 is opened until the engagement of the engaging portion 13b with the engaged portion 11f is released, and then the opening/closing portion 12 is closed until the concave portion 12e of the opening/closing portion 12 is fitted into the convex portion 11e of the main body portion 11 as described above (see fig. 13).

That is, since the operation of changing the article 20 attached to the 1 st surface MS of the action portion 13 from the exposed state to the accommodated state and the operation of changing the article 20 from the accommodated state to the exposed state can be repeated, the player can enjoy a repetitive game using the operations. In the state shown in fig. 8 and 9, since the article 20 attached to the 1 st surface MS can be replaced with another type of article 20, the repeated game can be enjoyed by the replacement. Further, since the article 20 attached to the 1 st surface MS is exposed from the article housing space to the outside of the action toy 10 according to the rotation of the 1 st surface MS, the entertainment is excellent in the aspect of the manner of exposure of the article 20, as compared with a simple action such as the article being ejected to the outside only from the article housing space, and the interest of the action toy 10 according to the article 20 is further enhanced.

The house toy 30: FIGS. 14 to 16

First, the structure of a house toy 30 according to the present invention will be described with reference to fig. 14 and 15. In this description, for convenience, the near side of fig. 14 (B) is indicated as front, the depth side is indicated as rear, the left side is indicated as left, the right side is indicated as right, the upper side is indicated as upper, the lower side is indicated as lower, and the other drawings are directed as reference marks.

The house toy 30 includes a body 31, a 1 st opening/closing part 32, and a 2 nd opening/closing part 33. Fig. 14 shows a state in which the 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 are closed, and fig. 15 shows a state in which the 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 are opened.

The main body 31 is formed of synthetic resin such as polypropylene or ABS resin. The body portion 31 has a substantially semicircular shape when viewed from above, a top portion 31a formed in a substantially circular shape when viewed from above is provided at the upper end of the body portion 31, and a bottom portion 31b formed in a substantially circular shape when viewed from above is provided at the lower end of the body portion 31. A partition portion 31c formed in a substantially semicircular shape as viewed from above is provided at a substantially center of the body portion 31 in the vertical direction. Further, shaft holes (reference numerals are omitted) for inserting a 1 st shaft 34 described later are provided in the vertical direction on the left side of the top portion 31a and the left side of the bottom portion 31b, and shaft holes (reference numerals are omitted) for inserting a 2 nd shaft 35 described later are provided in the vertical direction on the right side of the top portion 31a and the right side of the bottom portion 31 b.

The 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 are formed of synthetic resin such as polypropylene, ABS resin, or the like. The shape of the 1 st opening/closing portion 32 is approximately 1/4 circles (approximately a quarter circle) when viewed from above, and a shaft hole (reference numeral omitted) for inserting the 1 st shaft 34 described later is provided in the vertical direction at the left end portion of the 1 st opening/closing portion 32. The 2 nd opening/closing portion 33 has a shape of an approximately 1/4 circle (an approximately quarter circle) when viewed from above, and a shaft hole (reference numeral omitted) for inserting a 2 nd shaft 35 described later is provided in the vertical direction at the right end portion of the 2 nd opening/closing portion 33. Further, a shelf portion 33a formed in a substantially semicircular shape as viewed from above is provided inside the 2 nd opening/closing portion 33 so as to correspond to the partition portion 31c in the vertical direction.

The 1 st opening/closing unit 32 is attached to the main body 31 by: after the shaft hole of the 1 st opening/closing portion 32 is positioned between the left shaft holes of the top portion 31a and the bottom portion 31b of the body portion 31, the 1 st shaft 34 is inserted into these shaft holes from above or below. The 2 nd opening/closing unit 33 is attached to the main body 31 by: after the shaft hole of the 2 nd opening/closing portion 33 is positioned between the shaft holes on the right side of the top portion 31a and the bottom portion 31b of the body portion 31, the 2 nd shaft 35 is inserted into these shaft holes from above or below. The 1 st shaft 34 and the 2 nd shaft 35 are made of metal such as stainless steel. That is, the 1 st opening/closing portion 32 after being attached can be rotated about the axis of the 1 st shaft 34, and the 2 nd opening/closing portion 33 after being attached can be rotated about the axis of the 2 nd shaft 35. That is, the 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 can be left-right opened (Japanese: open/double open/. The 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 can be formed in a single opening/closing portion as in the above-described action toy 20, for example, by excluding shaft holes for the 1 st opening/closing portion 32, the 1 st shaft 34, and the 2 nd shaft 35, and by forming the 2 nd opening/closing portion 33 in a substantially semicircular shape when viewed from above.

Further, a plurality of magnetic members 36, for example, ferromagnetic members, made of stainless steel (except austenite) or the like are provided on the inner and outer surfaces of the house toy (the inner and outer surfaces of the body 31, the inner and outer surfaces of the 1 st opening/closing part 32, and the inner and outer surfaces of the 2 nd opening/closing part 33). The magnetic member 36 is a screw and is fixed to the inner and outer surfaces of the body 31, the inner and outer surfaces of the 1 st opening/closing part 32, and the inner and outer surfaces of the 2 nd opening/closing part 33 by screwing. Further, the screw as the magnetic member 36 can be used to connect the 1 st structural member (for example, a wall member, a hinge member, a floor member (japanese: bed material), a decorative member, etc.) and the 2 nd structural member (for example, a wall member, a hinge member, a floor member, a decorative member, etc.) which constitute the house toy. Of course, the magnetic member 36 may be a rod-like or plate-like member embedded in the inner and outer surfaces of the body 31, the inner and outer surfaces of the 1 st opening/closing part 32, and the inner and outer surfaces of the 2 nd opening/closing part 33.

Next, a method of playing the house toy 30 will be described with the effect of the adulteration operation, using fig. 16. In this description, for convenience, the near side of fig. 16 is indicated as front, the depth side is indicated as rear, the left side is indicated as left, the right side is indicated as right, the upper side is indicated as upper, and the lower side is indicated as lower.

In the state shown in fig. 14 (the state where the 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 are closed), two upper and lower article accommodating spaces (reference numerals are omitted) having the 1 st placing portion and the 2 nd placing portion are defined inside by cooperation of the main body portion 31, the 1 st opening/closing portion 32, and the 2 nd opening/closing portion 33. In the state shown in fig. 15 (the state where the 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 are opened), two upper and lower article accommodating spaces (reference numerals are omitted) are opened.

Since the article 20 shown in fig. 7 includes the permanent magnet 26, a plurality of magnetic members 36, for example, ferromagnetic members provided on the inner surface and the outer surface of the house toy 30 can be selectively used and attached to the article 20. For example, in the state shown in fig. 16 (the state where the 1 st opening/closing portion 32 and the 2 nd opening/closing portion 33 are opened), the article 20 can be attached vertically at the position where the magnetic member 36 is provided on the bottom portion 31b, and the article 20 can be attached vertically at the position where the magnetic member 36 is provided on the partition portion 31 c. Further, it is also possible to remove one article 20 of the two articles 20 and mount the article 20 in the vertical direction at the position of the shelf portion 31c where the magnetic member 36 is provided.

Further, since the magnetic member 36 is provided at a position other than the above-described position of the house toy 30, the article 20 can be laterally attached to the position where the magnetic member 36 is provided, regardless of the state where the 1 st opening/closing part 32 and the 2 nd opening/closing part 33 are opened and the state where the 1 st opening/closing part 32 and the 2 nd opening/closing part 33 are closed, and regardless of the inner surface and the outer surface of the house toy 20.

That is, the house toy 30 can be used to accommodate the article 20, and can enjoy a game in which the article 20 is selectively attached to the inner surface and the outer surface at other positions where the magnetic members 36 are provided.

Next, referring to fig. 17, another play method of the house toy 30 will be described in effect of adulteration. In this description, for convenience, the near side of fig. 17 is indicated as front, the depth side is indicated as rear, the left side is indicated as left, the right side is indicated as right, the upper side is indicated as upper, and the lower side is indicated as lower.

Fig. 17 is a view showing the operation toy 20 shown in fig. 12 detachably attached to the house toy 30 shown in fig. 14. In this mounting method, in addition to fitting between the convex portion provided on one side and the concave portion provided on the other side, attraction between the permanent magnet provided on one side and the magnetic member provided on the other side, and the like, connection between the two using a dedicated connection member can be adopted. In fig. 17, the operation toy 20 is shown as being provided on the housing toy 30, and the operation toy 20 may be attached to the outer surface of the body 31, the outer surface of the 1 st opening/closing unit 32, and the outer surface of the 2 nd opening/closing unit 33.

The play method and the operation and effect of the action toy 20 shown in fig. 17 are as described above, and the play method and the operation and effect of the house toy 30 shown in fig. 17 are as described above, and therefore, the description thereof is omitted here.

Supplements associated with toy combinations

As a preferable toy set for the player, the following toy sets can be cited: (1) a toy combination including a combination of the action toy 10 and the article 20; (2) a toy set comprising a combination of said action toy 10, said item 20, said house toy 30. In the case of the toy combination (1), the above-described game using the motion toy 10 and the article 20 can be played, and in the case of the toy combination (2), the above-described game using the article 20 and the house toy 30 can be played in addition to the above-described game using the motion toy 10 and the article 20. While in either case one such item 20 may suffice, combining multiple categories can increase the enjoyment and interest of the game.

Claims

1. An action toy for a game using an article, wherein,

the action toy comprises a main body part, an opening and closing part arranged on the main body part and an action part arranged on the main body part,

the operation portion has a 1 st surface to which the article can be attached and a 2 nd surface different from the 1 st surface, and is configured to be displaceable from a 1 st state in which the 1 st surface is not exposed to a 2 nd state in which the 1 st surface is exposed, in accordance with opening of the opening/closing portion.

2. The action toy of claim 1,

the opening/closing part is provided to the main body part so as to be rotatable,

the operating portion is rotatably provided in the main body portion.

3. The action toy according to claim 1 or 2,

the body portion is provided with a biasing member that biases the operating portion so that the operating portion is in the 1 st state.

4. The action toy of claim 3,

the main body is provided with an engaged portion that is engageable with a 1 st engaging portion provided on the operating portion, and the operating portion is maintained in the 1 st state.

5. The action toy of claim 4,

the biasing member biases the 1 st engaging portion to engage with the engaged portion when the operating portion is in the 1 st state.

6. The action toy according to claim 4 or 5,

the opening and closing part is provided with a pressing part,

the operating portion is provided with a pressed portion which can be pressed by the pressing portion,

the 1 st engaging portion is engageable with the engaged portion and is disengageable by pressing the pressing portion against the pressed portion in response to the opening of the opening/closing portion.

7. The action toy of claim 6,

an opening suppressing portion that suppresses opening of the opening/closing portion at a predetermined angle or more is provided in the main body portion,

the 1 st engaging portion is disengaged from the engaged portion when the opening/closing portion exceeds the predetermined angle.

8. The action toy of claim 7,

the opening restraining part is composed of an elastic part,

the opening/closing portion is provided with an abutting portion that abuts against the elastic portion in an open state at the predetermined angle or more.

9. The action toy according to any one of claims 4 to 8,

the operating portion is provided with a 2 nd engaging portion, and the 2 nd engaging portion is engageable with the engaged portion, so that the operating portion is maintained in the 2 nd state.

10. The action toy according to any one of claims 1 to 9,

the opening/closing portion has a support portion capable of supporting the operation portion when the opening/closing portion is closed in the 1 st state and the 2 nd state.

11. The action toy according to any one of claims 1 to 10,

a magnetic member is provided on the inner side of the 1 st surface of the operating portion.

12. The action toy according to any one of claims 1 to 11,

the 1 st surface of the operating portion is provided with a positioning portion that determines the attachment position of the article.

13. An article for use in the action toy of any one of claims 1 to 12,

the article has a mounting portion for detachably mounting to the 1 st surface of the operation portion of the operation toy.

14. The article of claim 13, wherein,

the article is human-shaped having at least a torso portion and a leg portion.

15. The article of claim 13 or 14,

the mounting portion includes a permanent magnet provided to the article,

the article is configured to be attachable to the 1 st surface of the operation portion by the permanent magnet being attracted by a magnetic member provided on an inner side of the 1 st surface of the operation portion.

16. The article of claim 15, wherein,

the permanent magnet is provided inside the article so as to be movable in the mounting direction of the article,

a magnetic member for attracting the permanent magnet to a side opposite to the mounting direction is provided inside the article,

the force with which the magnetic member attracts the permanent magnet is smaller than the force with which the magnetic member of the action part attracts the permanent magnet when the article is attached to the 1 st surface of the action part of the action toy.

17. A toy combination, wherein,

the toy combination comprises a combination of an action toy according to any one of claims 1 to 12 and an article according to any one of claims 13 to 16.

18. A toy set comprising a combination of an action toy according to any one of claims 1 to 12, an article according to any one of claims 13 to 16 and a house toy, wherein,

the house toy includes a house main body and a house opening/closing portion provided in the house main body, and the house main body has a 1 st placement portion on which the article is placed and a 2 nd placement portion different from the 1 st placement portion.

19. The toy combination of claim 18,

the toy assembly includes an attachment portion for detachably attaching the action toy to the housing toy.

20. The toy combination of claim 18 or 19,

the article comprises a permanent magnet which is,

the house toy is provided with a plurality of magnetic members, and the magnetic members are configured to allow the article to be selectively attached to a position where the magnetic members are provided.

21. The toy combination of claim 20,

the housing toy comprises a 1 st structural member and a 2 nd structural member,

the magnetic member is a connecting portion connecting the 2 nd structural member and the 1 st structural member.