CN114307195B - Performance output toy - Google Patents

Abstract

The invention provides a performance output toy with high interest. The performance output toy (1) comprises: a main toy body (10) having a first main toy body (11) and a second main toy body (12) that can be opened and closed with respect to the first main toy body (11); a sub toy body mounting part (15) provided on the first main toy body (11) for mounting the sub toy body (20); and a performance output unit (65) configured so that the auxiliary toy body (20) can rotate while being attached to the auxiliary toy body attachment unit (15), and the second main toy body (12) is configured so that the auxiliary toy body (20) attached to the auxiliary toy body attachment unit (15) can be changed from the closed state to the open state by using the change in the rotational position of the auxiliary toy body.

Description

Performance output toy

Technical Field

The invention relates to a performance output toy.

Background

Conventionally, among performance output toys, a performance output toy that emits a sound or the like based on a predetermined operation is known. As for the performance output toy, for example, patent document 1 discloses a cosmetic box toy including: the toy comprises a sound generating member, a light emitting member, two switches for operating the sound generating member and the light emitting member, and a ring-like ornament attachable to and detachable from the toy body, wherein one of the two switches is directly operated by a hand of a user, and the other switch is turned on and off by attaching and detaching the ornament. According to this cosmetic box toy, the user can operate not only one switch but also another switch by attaching and detaching the ornament, thereby operating the sound generating member and the light emitting member.

Prior art literature

Patent literature

Patent document 1: japanese patent publication No. 7-30069

Disclosure of Invention

Problems to be solved by the invention

In patent document 1, although a plurality of performances can be obtained, the types of performances are kept at a level corresponding to the number of switches provided in the toy body, and the parts for performing the performances are simply provided with a bulb and a sound generator in the toy body. In recent years, in the course of an interesting toy, the structure of patent document 1 lacks interest.

The invention aims to provide a performance output toy with high interest.

Solution for solving the problem

The performance output toy of this technical scheme includes: a main toy body having a first main toy body and a second main toy body openable and closable with respect to the first main toy body; the auxiliary toy body installation part is arranged on the first main toy body and used for installing the auxiliary toy body; and a performance output unit configured to be rotatable in a state of being attached to the sub-toy body attachment unit, wherein the second main toy body is configured to be changeable from a closed state to an open state by a change in a rotational position of the sub-toy body attached to the sub-toy body attachment unit.

In the performance output toy according to the present aspect, the sub toy body may include: a base portion; an insertion portion provided at one end side of the base portion and inserted into the sub toy body mounting portion; and a rotation operation unit rotatably supported by the base unit on a side opposite to the insertion unit with the base unit therebetween.

In the performance output toy according to the present aspect, the rotation operation portion may be provided with a maximum protrusion having a maximum diameter in a rotation radial direction thereof, and a tip end portion of the maximum protrusion may push up the locking portion in the closed state of the second main play object (cover member) to be in the open state by rotation of the rotation operation portion.

In the performance output toy according to the present aspect, when the second main toy body is rotated from the open state to the closed state in a state in which the sub toy body is attached to the sub toy body attachment portion, the locking portion may have an inclined structure capable of abutting against an edge portion of the tip portion of the maximum protrusion on the sub toy body attachment portion side.

In the performance output toy according to the present aspect, the insertion portion may be provided with a portion having a different shape, and the auxiliary toy body mounting portion may be provided with a mounting hole having a shape corresponding to the insertion portion.

In the performance output toy according to the present aspect, an inclination prevention mounting mechanism may be provided between the base portion and the sub toy body mounting portion, the inclination prevention mounting mechanism preventing the sub toy body from being mounted in an inclined state when the sub toy body is mounted.

In the performance output toy according to the present aspect, the performance output toy may be provided with a stopper mechanism for restricting the rotational position of the rotational operation unit.

In the performance output toy according to the present invention, the rotation operation portion may be provided with a maximum protrusion having a maximum diameter in the rotation radial direction, and the rotation operation portion may be provided with a protrusion protruding in the rotation radial direction independently of the maximum protrusion.

In the play toy according to the present aspect, the protruding portion may protrude so as to be non-contact with a portion of the second main play object, which is in contact with the tip end portion of the largest protrusion.

In the performance output toy according to the present aspect, the protruding portion may be offset from the tip end portion of the maximum protrusion in a direction away from the sub toy body attachment portion.

In the performance output toy according to the present aspect, the sub toy body mounting portion may be provided with a flat area at a position outside the position of the outer peripheral end face of the sub toy body.

In the performance output toy according to the present aspect, a temporary locking mechanism may be provided around an axis of the rotary support shaft of the second main toy body, the temporary locking mechanism being capable of maintaining at least an open state of the second main toy body.

In the performance output toy according to the present aspect, the sub toy body may be provided with a recognition protrusion unique to the sub toy body that can perform by the performance output unit, and the main toy body may be provided with a detection unit that detects the recognition protrusion.

In the performance output toy according to the present aspect, the identification projection may be formed to have a projection height equal to or lower than the peripheral projection wall.

In the performance output toy according to the present aspect, the number of the recognition protrusions of the sub-toy body may be set to be greater than the number of the detection portions of the main toy body.

In the performance output toy according to the present aspect, the 2 nd auxiliary toy body may be included independently of the auxiliary toy body, and the 2 nd auxiliary toy body may be capable of performing performance in conjunction with performance of the main toy body.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the invention, the entertainment output toy with high interest can be provided.

Drawings

Fig. 1 is a perspective view showing the whole of the performance output toy of the present invention.

Fig. 2 is a perspective view of the show output toy shown in fig. 1 with the cover opened.

Fig. 3 is an enlarged side view showing the locking structure in the closed state of the lid.

Fig. 4 is a perspective view of the auxiliary toy body of the show output toy shown in fig. 1, viewed from the side.

Fig. 5 is a perspective view of the sub-toy body shown in fig. 4, as seen from the back side.

Fig. 6 is a perspective view showing a rear side of the sub-toy body shown in fig. 4 with the insertion protrusion removed.

Fig. 7 is an enlarged perspective view showing a sub toy mounting part of the main toy body shown in fig. 1.

Fig. 8 is an exploded perspective view of the secondary play object.

Fig. 9 is an enlarged front perspective view showing an initial state in which the sub toy body is mounted on the main toy body.

Fig. 10 is an enlarged side view showing an initial state of installation of the sub-toy body.

Fig. 11 is an enlarged front view showing a state in which the rotating operation of the sub-toy body is completed.

Fig. 12 is an enlarged side view showing an operation when the lid is opened.

Fig. 13 is an enlarged cross-sectional view showing a main portion of the structure of the hinge portion.

Fig. 14 is an enlarged side view of the main portion when the cover is closed.

Fig. 15 is a perspective view showing the 2 nd play object.

Fig. 16 is a block diagram of a control system.

Description of the reference numerals

1. Performing an output toy; 10. a main toy body; 11. a main body (first main body); 11i, a pressing part (temporary locking mechanism); 11sp, a pressing spring (temporary locking mechanism); 11g, locking convex part (temporary locking mechanism); 12. a cover (second main play body); 14p, a detection unit; 15. a mounting portion (sub toy body mounting portion); 15c, mounting holes; 15e, a flat surface (flat area); 18. a hinge portion; 18c, an outer surface recess (temporary locking mechanism); 18d, flat portion (temporary locking mechanism); 20. finger ring members (auxiliary toy body); 21. a base portion; 21i, locking concave part (inclination preventing mounting mechanism); 21w, protruding wall portion (inclination prevention mounting mechanism); 22. inserting the protruding part; 23. a rotation operation unit; 23b, maximum protrusion; 23c, protruding portions (protruding portions); 21p, identification protrusions; 30. a brush member; 55. a stop mechanism; 70. a sound output unit (presentation output unit); 80. light output section (show output section).

Detailed Description

A performance output toy according to an embodiment of the present invention will be described below with reference to fig. 1 to 16.

The show output toy 1 shown in fig. 1 is an example of the makeup toy of the present invention, and is a toy in the shape of a cosmetic box carried by a male and female hero, which is a female fighter who fights, and simulates a host of a television program or the like. The hero is set in the program as follows: by attaching various attachment bodies to the cosmetic case, a ring, a cosmetic brush, or the like is used, and sound, light, or a change in shape is emitted from the cosmetic case. The term "change" as used herein means that the hero's make-up, hairstyle, clothing, shoes, jewelry, etc. are changed. The user plays the hero with the cosmetic toy, and is a toy capable of playing a so-called "play game".

Fig. 1 is a perspective view showing the whole of the performance output toy 1.

As shown in fig. 1, when roughly divided, the show output toy 1 (hereinafter, simply referred to as "toy") includes: a main toy body 10 formed by simulating a portable cosmetic container (so-called cosmetic case); a sub toy body 20 (hereinafter, simply referred to as a "ring member") configured to be attachable to and detachable from the main toy body 10, and to simulate a ring that can be worn on a finger; and a 2 nd toy body (brush member 30 (see fig. 13) described later) which simulates a cosmetic brush. The main toy body 10 includes: a cylindrical main body 11 as a first main toy body, and a sub toy body attachment portion 15 (hereinafter, simply referred to as "attachment portion") to which the ring member 20 is attached is provided on a front surface thereof; and a bowl-shaped spherical segment-shaped cover 12 as a second main play object, which can be opened and closed with respect to the main body 11. Further, the main body 11 is provided with a sound output unit 70 and a light output unit 80 (see fig. 2) as performance output units, and predetermined performance of light and sound can be performed based on operations described later.

Here, a plurality of ring members 20 having different colors, shapes, patterns, etc. are prepared (only one example is shown), and the ring members 20 each have different identification information described later. Accordingly, the ring member 20 is attached to the attachment portion 15, and a desired performance corresponding to the ring member 20 can be performed.

Fig. 2 is a perspective view of the show output toy shown in fig. 1 with the cover opened.

In use, the toy 1 is used in a state in which the lid 12 is opened while the lid 12 is opened, which will be described later. As shown in fig. 2, a relatively large main trigger button 11a and a sub button 11b for performing an operation are provided on the upper surface of the main body 11 at the center thereof. The power switch 11s (see fig. 16) is provided on the rear surface side of the main body 11, for example. A circular mirror 12m is provided inside the cover 12. The trigger button 11a is formed in a shape slightly raised from the upper end surface of the main body 11, and is made of a transparent or translucent material. For example, a light output unit 80 including a light emitting member such as an LED is disposed inside the trigger button 11 a. Thus, the trigger button 11a or its surroundings are lighted by the light emission of the light output section 80. The sound output unit 70 is also disposed at an appropriate position.

The lid 12 is configured to be openable and closable with respect to the main body 11 via a hinge 18. The cover 12 is at least partially made of a light-transmitting member. The closed state of the lid 12 is maintained by the locking portion 12t provided at the tip end on the opposite side of the hinge portion 18. As shown in fig. 2, the opening operation of the cover 12 is changed from the closed state to the open state by rotation of the ring member 20 attached to the attachment portion 15, which will be described later.

Fig. 3 is an enlarged side view showing the locking structure in the closed state of the lid.

As shown in fig. 3, the locking portion 12t protrudes outward in the circumferential direction (leftward in the drawing) than the outer peripheral edge 12g of the cover portion 12 and also protrudes toward the main body portion 11. Mainly, the locking portion 12t protrudes so as to face the flat surface 15e of the mounting portion 15. Further, the engagement recess 12c is provided so as to open to the flat surface 15e. Further, a cover locking protrusion 11t protruding radially outward of the body 11 is provided at an upper end of the flat surface 15e. Thus, in the closed state of the lid 12, the lid locking protrusion 11t is engaged with the engagement recess 12c, and the closed state of the lid 12 is maintained.

Fig. 4 is a perspective view of ring member 20 from the side.

As shown in fig. 4, the ring member 20 is provided with an insertion protrusion 22 on one end side (right side in the drawing) in the thickness direction of the base portion 21 around the substantially disk-shaped base portion 21, and a rotation operation portion 23 on the opposite side of the insertion protrusion 22 from the base portion 21. The insertion protrusion 22 is a portion to be inserted into the mounting hole 15c (see fig. 1) of the mounting portion 15, and is fixedly provided in the base portion 21. The rotation operation unit 23 is rotatable about a rotation axis CL with respect to the base unit 21.

The insertion protrusion 22 extends along the rotation axis CL with the 1 st protrusion 22a and the 2 nd protrusion 22b. The 1 st projection 22a and the 2 nd projection 22b are formed in a curved shape that can be worn on a finger. In addition, the 1 st projection 22a and the 2 nd projection 22b are slightly different in shape. For example, the width (D2) of the 2 nd protrusion 22b is smaller than the width (D1) of the 1 st protrusion 22 a.

The rotation operation portion 23 is formed in a substantially disk-like shape, and has a pattern and color matching corresponding to the male and female roles on the surface side thereof, for example. For example, the outer peripheral edge portion of the rotation operation portion 23 is appropriately provided with a concave-convex shape as a part of the decoration. One of the concave-convex shapes is provided with a maximum protrusion 23b having a maximum diameter (D3) from the rotation axis CL. The rotation operation portion 23 is provided with a plurality of protruding portions 23c (see fig. 5) protruding in the rotation radial direction independently of the maximum protrusion 23b. The distance (D4) of the tip portion of the protruding portion 23c from the rotation axis CL is constituted to be slightly smaller than the maximum protrusion 23b.

The protruding position of the protruding portion 23c is shifted from the maximum protrusion 23b by a predetermined dimension (h) in the direction of the rotation axis CL. That is, the protruding position of the protruding portion 23c is offset from the maximum protrusion 23b in a direction away from the mounting portion 15. Thus, the fingertip is easy to be hooked. The protruding portion 23c is configured so as not to contact the locking portion 12t that is in contact with the tip end portion 23e of the maximum protrusion 23b.

Fig. 5 is a perspective view of ring member 20 from the back side. Fig. 6 is a perspective view of the ring member 20 with the insertion protrusion 22 removed from the rear surface side.

As shown in fig. 5 and 6, a plurality of substantially cylindrical recognition protrusions 21p are provided on the back surface side of the base portion 21 of the ring member 20 so as to protrude in an aligned manner on both sides of the insertion protrusion 22. In addition, a protruding wall portion 21w is provided at a position close to the recognition projection 21p so as to be bent slightly outward substantially along the direction in which the recognition projections 21p are arranged. The protruding wall portion 21w is provided with an engagement recess 21i recessed inward on the outer surface thereof. In the protruding wall portion 21w, for example, the protruding wall portion 21w on the right side in the drawing is also configured as the recognition projection 21p on both end sides thereof. Further, between the protruding wall portions 21w, other protruding wall portions 21r are provided at positions sandwiching the insertion protrusion 22.

In addition, the identification protrusion 21p is desirably of such a structure: the protruding height (H1) is equal to or lower than the surrounding protruding portions. For example, in the present embodiment, as shown in the figure, the configuration is the same as the peripheral protruding wall portion 21w. One of the other protruding wall portions 21r (left side in fig. 6) is a height (H2) higher than the height (H1) of the identification protrusion 21p.

Fig. 7 is an enlarged perspective view showing the mounting portion 15 of the main body 11.

As shown in fig. 7, the mounting portion 15 has a substantially circular recess 15a formed in a protruding portion slightly protruding radially outward from the outer peripheral surface of the main body portion 11, and a mounting hole 15c is provided in the circular recess 15 a. The protruding upper end surface of the mounting portion 15 is formed as a substantially flat surface 15e. The flat surface 15e is configured to have a size sufficient for the size of the ring member 20 (the size in the radial direction of the ring member) when the ring member 20 is attached. Mainly, the ring member 20 is configured to be free from obstruction during rotation operation.

A plurality of telescopic pin type detecting portions 14p for detecting the identifying protrusions 21p when the ring member 20 is attached are provided on both sides of the attachment hole 15c on the bottom surface portion of the circular recess 15 a. The detection unit 14p is turned on and off by being pressed by the identification protrusion 21p, for example. The detection signal of the detection unit 14p is sent to the control unit 60. A guide wall portion 15g for guiding the identification protrusion 21p to the detection portion 14p is provided around the detection portion 14p.

Here, the number of the detection units 14p is 5 in the present embodiment. As shown in fig. 5, 8 recognition protrusions 21p of the ring member 20 are provided, for example. In this regard, the ring member 20 has a recognition protrusion 21p that can also correspond to a member other than the body 11.

The protruding inner peripheral wall 15w that contacts and guides the protruding wall 21w of the ring member 20 is provided at four positions on the inner peripheral wall surface of the circular recess 15a, two at the left and right sides in the figure. The protruding inner peripheral wall 15w is provided corresponding to the protruding wall portion 21w of the ring member 20. Further, a locking hook 15f is provided adjacent to the protruding inner peripheral wall 15w, and the locking hook 15f is biased toward the center side of the circular recess 15a by a spring member (not shown). The locking hooks 15f are engaged with locking recesses 21i provided in the protruding wall portion 21w of the ring member 20. Mainly, when the ring member 20 is attached, engagement between the protruding inner peripheral wall 15w and the protruding wall 21w and engagement between the locking hooks 15f and the locking recesses 21i are performed. The engagement and fitting function as an inclination prevention mounting mechanism for preventing the ring member 20 from being mounted obliquely.

The mounting hole 15c has a keyhole shape with one end formed in a circular shape and the other end formed in a rectangular shape. The insertion protrusion 22 of the ring member 20 is configured to restrict the vertical position at the time of insertion by inserting the 1 st protrusion 22a having a wide width into one side of a circular shape, for example. The pair of protruding wall portions 21r provided at the positions across the insertion protrusion 22 may be configured to enter the mounting hole 15c, and the width of the pair of protruding wall portions 21r may be configured to have a size corresponding to the shape and width of the mounting hole 15c, so that erroneous insertion of the orientation can be avoided.

Fig. 8 is an exploded perspective view of ring member 20.

As shown in fig. 8, the rear surface side of the rotation operation portion 23 is configured as a recessed portion having a bottomed tubular shape, for example, and a rotation shaft portion 23f is provided along the rotation axis CL. The rotation shaft portion 23f is rotatably supported by the base portion 21 by being inserted into the support hole 21h of the base portion 21 and not being detached from the support hole 21h (a detachment prevention structure is not shown). Further, the circular arc-shaped protruding wall 23we on the back surface side of the rotation operation portion 23 engages with the circular step portion 21e of the base portion 21, and the rotation movement of the rotation operation portion 23 is smoothly performed.

The rotation operation portion 23 is provided with a stopper mechanism 55 for restricting the rotation position thereof. The stopper mechanism 55 is constituted by stopper pins 55b, 55d and position limiting walls 55a, 55 c. The stopper pins 55b and 55d are provided to protrude in parallel with the rotation shaft portion 23f in the rotation operation portion 23. The position regulating walls 55a and 55c are provided on the base surface 21m of the base portion 21. When the rotation operation portion 23 is rotated, the stopper mechanism 55 is stopped so that the rotation angle from the initial position before the rotation operation to the rotation operation end position (lid portion start position) is substantially 90 degrees. For example, when moving from the initial position to the lid actuation position, the stopper pin 55d abuts against the position restricting wall 55c to stop the rotation. When returning to the initial position, the stopper pin 55b abuts against the position regulating wall 55a to stop the rotation.

Fig. 9 is an enlarged front perspective view showing an initial state of the ring member 20 being attached. Fig. 10 is an enlarged side view showing an initial state of installation of ring member 20.

As shown in fig. 9, the ring member 20 is attached to the attachment portion 15. In this initial attachment state, the rotation operation portion 23 is attached such that the maximum protrusion 23b is located at a lateral position (a state of being laterally left in fig. 9). In this initial mounting state, one of the protruding portions 23c is positioned to overlap the locking portion 12t in the front-rear direction. However, as shown in fig. 10, the protruding portion 23c located on the upper side is located outside the locking portion 12t when viewed from the side surface direction, and is not in contact with the locking portion 12 t. The ring member 20 is attached in a state in which the rotation operation portion 23 is separated from the flat surface 15e of the attachment portion 15, and is attached in a state in which the rotation operation is easy.

The protruding portion 23c located at the lower side is located further inward (upward in fig. 9) than the lower end edge 15d of the flat surface 15e, and does not protrude downward of the main body 11 or come into contact with the mounting surface. In this way, the flat surface 15e of the attachment portion 15 is formed as a flat area that expands outward from the position of the outer peripheral end of the ring member 20, and is configured to facilitate the operation of the rotation operation portion 23.

Fig. 11 is an enlarged front view showing a state in which the rotation operation of ring member 20 is completed.

Next, as shown in fig. 11, from the initial state of the ring member 20 installation, the rotation operation part 23 is rotated by 90 degrees in the clockwise direction. With this rotation, the maximum projection 23b of the ring member 20 abuts against the locking portion 12t of the cover 12, and pushes the cover 12 upward in the opening direction. In this rotation completed state, the protruding portion 23c located on the lower side is also located inside the lower end edge 15d of the flat surface 15e.

The operation when the lid 12 is opened by the rotation operation unit 23 will be described.

Fig. 12 is an enlarged side view showing an operation when the lid 12 is opened.

As shown in fig. 12, in the closed state of the cover 12, the engagement recess 12c of the locking portion 12t is engaged with the cover locking protrusion 11t (see fig. 3), but in the final stage of the rotation operation of the ring member 20, the protrusion side surface 23bs (see fig. 11) of the maximum protrusion 23b starts to come into contact with the locking lower end surface 12ts of the locking portion 12 t. The abutment of the projection side surface 23bs against the locking portion lower end surface 12ts increases as the rotation proceeds, and the locking portion 12t is forcibly pushed up. This is guided by the recess inclined surface 12s of the engagement recess 12c and the inclined surface 11ts of the cover locking protrusion 11t, and the locked state of the cover locking protrusion 11t is released. As a result, the lid 12 is pushed up by the maximum protrusion 23b to release the locked state.

Fig. 13 is an enlarged cross-sectional view showing a main portion of the structure of the hinge portion 18.

As shown in fig. 13, the lid 12 is released from its locked state and can be opened centering on the hinge 18. In the hinge portion 18, a rotation shaft portion 18a is rotatably supported by a rotation support shaft 18 b. The rotation shaft portion 18a has two flat portions 18d on its outer peripheral surface at intervals in the circumferential direction about the axis line. Further, the flat portion 18d is provided with an outer surface concave portion 18c. The main body 11 is provided with a pressing portion 11i, and the pressing portion 11i has a flat portion and an engagement convex portion 11g corresponding to the flat portion 18d and the outer surface concave portion 18c. The pressing portion 11i is pressed toward the rotation support shaft 18b by the pressing spring 11 sp. Thus, the locking convex portion 11g is fitted into the outer surface concave portion 18c, and thus, a temporary locking mechanism capable of temporarily locking the lid 12 is provided. The pressing portion 11i faces a flat portion formed on the outer surface of the rotation shaft portion 18a, and can generate a click feeling at the time of rotation.

The locking protrusion 11g locks the lid 12 in a closed state and an opened state (illustrated state) of the lid 12. For example, when the cover 12 is opened from the closed state, the initial flat portion 18d rotates so as to deviate from the pressing portion 11i due to the rotation of the rotation shaft portion 18 a. Thus, the 2 nd flat portion 18e adjacent to the flat portion 18d is temporarily stopped at a position supported by the pressing portion 11i, and a so-called click operation is performed. This locking operation is performed when the locking state of the cover 12 is released by the ring member 20. Finally, in a state where the lid 12 is completely opened (state shown in the figure), the outer surface concave portion 18c is fitted into the locking convex portion 11g and locked.

Fig. 14 is an enlarged side view of the main portion when the cover 12 is closed.

When the normal operation is completed, the ring member 20 is removed from the main body 11, and the cover 12 is closed. However, it is also conceivable to close the cover 12 in a state where the ring member 20 is attached to the body 11. This will be described below.

When the cover 12 is closed with the ring member 20 attached to the attachment portion 15, as shown in fig. 14, the locking portion 12t of the cover 12 comes into contact with the maximum projection 23b of the ring member 20. At this time, the locking portion 12t is in inclined contact with the edge portion 23ek of the distal end portion 23e of the maximum protrusion 23b on the side of the main body portion 11. The edge 23ek is formed as an R-plane of an appropriate size. Thus, when the locking portion 12t comes into contact with the edge portion 23ek, the locking portion lower end surface 12ts presses the edge portion 23ek obliquely downward in a direction (left side in the drawing) toward the lower side and away from the mounting portion 15. Mainly, the force applied to the edge 23ek is pressed toward the obliquely lower left side (F1) as shown in the figure due to the oblique contact between the locking lower end surface 12ts and the edge 23 ek. Mainly, the horizontal component of the force (F1) pushing obliquely downward acts as a force in a direction to separate the ring member 20 from the mounting portion 15. As a result, the ring member 20 is disengaged, and the engagement recess 12c on the inner side of the engagement portion 12t immediately after the disengagement is caught by the cover engagement protrusion 11t and engaged (see fig. 3).

Here, in order to generate a force for releasing the ring member 20 by the above-described contact, the ring member may be brought into contact with the edge 23ek with a predetermined inclination as in the present embodiment, and the release mode of the ring member 20 may be adjusted by appropriately setting the inclination angle, the size of the R-plane, and the angle.

Fig. 15 is a perspective view showing brush member 30.

As shown in fig. 15, the brush member 30 has a shape that simulates a cosmetic brush, and has a grip portion 32 and a brush portion 31 on the distal end side in appearance. The brush member 30 can be accommodated in a fitting manner between a pair of brush attachment portions 12gt provided on the inner side of the cover portion 12. In playing the player game, the brush unit 31 can be used to perform a play linked to the play of the main body 11 as follows: an operation of pressing the trigger button 11a or the like of the main body 11 is performed. The brush member 30 may include a power source, a control unit, a show output unit, a communication unit, a switch, and the like. For example, the communication unit provided in the main toy body 10 may be wirelessly communicated with infrared rays or the like, and the self-brushing member 30 may output a performance (sound, light emission, or the like) corresponding to the type of the auxiliary toy body mounted in the main toy body 10. Alternatively, the performance may be output from the brush 31 by turning on a switch of the brush 31. In addition, when the brush 31 is configured as a light-emitting section, the range of the game mode can be widened as an operating member that emits light.

Fig. 16 is a block diagram showing a control system of toy 1.

As shown in fig. 16, a control unit 60 is provided inside the main body 11. The control unit 60 and a battery (not shown) are connected via a power switch 11s (for example, provided on the back surface side of the main body). Thus, when the power switch 11s is turned on, a current flows to the control unit 60 and control is started. The control unit 60 is connected to the detection unit 14p, the main trigger button 11a, the sub button 11b, the communication unit 11c, and the like. The storage unit 61 is connected to the control unit 60, and shows corresponding to the respective identification information of the ring member 20 are preset. The identification information of the ring member 20 detected by the detecting unit 14p is transmitted to the control unit 60. Based on the identification information, the control unit 60 performs a predetermined presentation by using the light output unit 80 and the sound output unit 70, which are presentation output units, via the driving unit 62. In addition, for the performance, for example, when the trigger button 11a is pressed, a predetermined performance based on the identification information is performed, and when the sub button 11b is operated, for example, a mode selection is performed to display a different performance. When the ring member 20 is removed, the control unit 60 stops the performance of the performance output unit.

An example of the play method of the toy 1 will be described below.

When playing a game using the toy 1, first, the power switch 11s is turned on. Thereby, the start sound is performed. Then, the ring member 20 is attached to the attachment portion 15 of the body 11. By this attachment, an attachment sound is emitted, and the inside of the main body 11 is made to emit light. Then, the rotation operation portion 23 of the ring member 20 is rotated to open the cover 12. In addition to the opening operation of the cover 12, a twisting sound of the rotation operation is outputted, and a speech of a character unique to the ring member 20 is started. Then, the standby sound is started, and the next operation is waited. Then, for example, various versions of makeup are performed using the brush member 30 for makeup, and further, a decorative performance, a self-presenting name performance, or the like is performed, whereby a variation performance of variation can be enjoyed to enjoy. The above changing performance is different depending on the ring members 20.

As described above, according to the toy 1 of the present embodiment, the cover 12 can be opened by the attachment and rotation of the ring member 20, and therefore, a performance with the operation of the cover 12 added to the performance output can be performed.

Further, according to the toy 1 of the present embodiment, since the ring member 20 is reliably held by the attachment portion 15 by the insertion projection portion 22 and the rotation operation portion 23 is rotated while being held by the base portion 21, the ring member can be accurately rotated, and the cover 12 can be reliably brought into the open state.

In the toy 1 of the present embodiment, the distal end portion 23e of the maximum projection 23b pushes up the locking portion 12t of the lid 12 to be in the open state by the change in the rotational position of the rotational operation portion 23, and therefore, a complicated structure for releasing the locking portion 12t is not required, and the structure can be simplified.

In the toy 1 of the present embodiment, when the cover 12 is rotated from the open state to the closed state, the locking portion 12t of the cover 12 has a structure capable of being brought into inclined contact with the edge portion 23ek of the ring member 20, so that the locking portion 12t can push the ring member 20 in the detachment direction from the attached state. As a result, the cover 12 can be closed with the ring member 20 attached. Further, by abutting obliquely against the edge 23ek, breakage of the ring member 20 can be avoided.

In addition, in the toy 1 of the present embodiment, since the insertion protrusion 22 of the ring member 20 is provided with portions having different shapes, and the mounting portion 15 is provided with the mounting hole 15c having a shape corresponding to the insertion protrusion 22, the mounting orientation of the ring member 20 can be made accurate.

In the toy 1 of the present embodiment, since the tilt-preventing attachment mechanism that prevents the ring member 20 from being attached in a tilt manner is provided between the base portion 21 and the attachment portion 15 of the ring member 20, the detection of the identification protrusion 21p can be accurately performed. Further, the rotation locus of the rotation operation of the ring member 20 is stable, and the closing state of the cover 12 can be released accurately.

In the toy 1 of the present embodiment, since the stopper mechanism 55 is provided to limit the rotational position of the rotational operation portion 23 of the ring member 20, the excessive rotation of the rotational operation portion 23 can be limited, and the rotational operation can be stabilized.

In addition, in the toy 1 of the present embodiment, since the protruding portion 23c protruding in the rotation radial direction independently of the maximum protrusion 23b is provided in the rotation operation portion 23, the portion where the fingertip is caught can be formed when the rotation operation portion 23 is rotated, and the rotation operation can be easily performed.

In the toy 1 of the present embodiment, since the protruding portion 23c does not contact the locking portion 12t of the cover 12, the ease of rotation of the rotation operation portion 23 can be improved, and only the maximum protrusion 23b can be a portion where the lock is released.

In the toy 1 of the present embodiment, since the protruding portion 23c is offset in a direction away from the mounting portion 15 at least with respect to the maximum protrusion 23b, even if the protruding dimension of the protruding portion 23c is the same as the maximum protrusion, it is not engaged with one end of the lid 12, and a structure that allows a finger to be easily caught can be provided.

In the toy 1 of the present embodiment, the mounting portion 15 is provided with a flat area on the outer side of the outermost diameter portion of the ring member 20, so that the ring member 20 can be easily rotated when rotated.

In the toy 1 of the present embodiment, since the temporary locking mechanism is provided around the hinge portion 18, the lid portion 12 can be temporarily locked during rotation, and the opening mode of the lid portion 12 can be enjoyed. In addition, a click feeling can be generated in the middle of the rotation, and the rotation operation feeling of the cover 12 can be improved.

In the toy 1 of the present embodiment, when the ring member 20 is attached to the attachment portion 15, the detection portion 14p detects the identification protrusion 21p, and therefore, a predetermined performance can be output by the information function of the identification protrusion 21p.

In the toy 1 of the present embodiment, the identification projection 21p is configured to have the same projection height as the peripheral projection wall portion 21w or lower than the peripheral projection wall portion 21w, and therefore the identification projection 21p can be protected.

In the toy 1 of the present embodiment, the number of the identification protrusions 21p is set to be greater than the number of the detection portions 14p of the body portion 11, so that the ring member 20 can have a greater number of identification patterns and can be used for other performance output toys.

In addition, in the toy 1 of the present embodiment, since the brush member 30 can be used to operate the main body 11, the range of the game mode can be widened. Further, since the performance can be performed in conjunction with the performance on the main body 11 side, the variety of performance outputs can be achieved.

While the above describes one embodiment of the present invention, the present invention can be appropriately modified within the scope of the technical idea. For example, the shape and structure of the main body 11, the cover 12, the ring member 20, and the like are not limited to those shown in the drawings, and can be changed as appropriate.

Claims (19)

1. A performance output toy, wherein,

the performance output toy includes:

a main toy body having a first main toy body and a second main toy body openable and closable with respect to the first main toy body;

the auxiliary toy body installation part is arranged on the first main toy body and used for installing the auxiliary toy body; and

a performance output unit for outputting the performance output result,

the auxiliary toy body comprises: a base portion; an insertion portion provided at one end side of the base portion and inserted into the sub toy body mounting portion; and a rotation operation portion rotatably supported on a side opposite to the insertion portion with respect to the base portion,

the rotation operation part of the auxiliary toy body is configured to be rotatable in a state of being mounted on the auxiliary toy body mounting part,

the second main toy body is configured to be changeable from a closed state to an open state by a change in a rotational position of the rotational operation portion attached to the sub toy body attachment portion.

2. The show output toy of claim 1, wherein,

the rotation operation portion is provided with a maximum protrusion having a maximum diameter in a rotation radial direction thereof, and a tip end portion of the maximum protrusion pushes up the locking portion in the closed state of the second main play object to be in the open state by rotation of the rotation operation portion.

3. The show output toy of claim 2, wherein,

when the second main toy body is rotated from the open state to the closed state in a state in which the sub toy body is attached to the sub toy body attachment portion, the locking portion has a structure capable of being brought into contact with an edge portion of the tip portion of the maximum protrusion on the sub toy body attachment portion side in an inclined manner.

4. The show output toy according to any one of claims 1 to 3, wherein,

the insertion portion is provided with portions having different shapes,

the auxiliary toy body mounting portion is provided with a mounting hole having a shape corresponding to the insertion portion.

5. The show output toy according to any one of claims 1 to 3, wherein,

an inclination prevention mounting mechanism is provided between the base portion and the auxiliary toy body mounting portion to prevent inclination when the auxiliary toy body is mounted.

6. The show output toy according to any one of claims 1 to 3, wherein,

the performance output toy is provided with a stop mechanism for limiting the rotation position of the rotation operation part.

7. The show output toy according to any one of claims 1 to 3, wherein,

the rotation operation part is provided with a maximum protrusion having a maximum diameter in the rotation radial direction,

the rotation operation portion is provided with a protrusion portion protruding in the rotation radial direction independently of the maximum protrusion.

8. The show output toy of claim 7, wherein,

the protruding portion protrudes so as to be non-contact with a portion of the second main play object that is in contact with a tip end portion of the largest protrusion.

9. The show output toy of claim 7, wherein,

the protruding portion is offset from the tip end portion of the largest protrusion in a direction away from the sub toy body mounting portion.

10. The show output toy according to any one of claims 1 to 3, wherein,

the auxiliary toy body mounting portion is provided with a flat area at a position outside the position of the outer peripheral end face of the auxiliary toy body.

11. The show output toy according to any one of claims 1 to 3, wherein,

a temporary locking mechanism is provided about an axis of the rotary support shaft of the second main play body, the temporary locking mechanism being capable of maintaining at least an open state of the second main play body.

12. The show output toy according to any one of claims 1 to 3, wherein,

the auxiliary toy body is provided with an identification protrusion specific to the auxiliary toy body capable of being played by the play output part,

the main toy body is provided with a detection part for detecting the identification protrusion.

13. The show output toy of claim 12, wherein,

the identification projection is configured such that its projection height is equal to or lower than the peripheral projection wall portion.

14. The show output toy of claim 12, wherein,

the number of the recognition protrusions of the sub-body is set to be greater than the number of the detection portions of the main body.

15. The show output toy according to any one of claims 1 to 3, wherein,

the show output toy includes a 2 nd auxiliary toy body independent from the auxiliary toy body,

the 2 nd auxiliary toy body can perform performance in linkage with the performance of the main toy body.

16. A performance output toy, wherein,

the performance output toy includes:

a main toy body having a first main toy body and a second main toy body openable and closable with respect to the first main toy body;

the auxiliary toy body installation part is arranged on the first main toy body and used for installing the auxiliary toy body; and

a performance output unit for outputting the performance output result,

the auxiliary toy body is provided with an identification protrusion specific to the auxiliary toy body capable of being played by the play output part,

the main toy body is provided with a detection part for detecting the identification protrusion,

at least part of the auxiliary toy body is configured to be rotatable in a state of being mounted on the auxiliary toy body mounting part,

the second main toy body is configured to be capable of being changed from a closed state to an open state by a change in at least a partial rotational position of the sub toy body attached to the sub toy body attachment portion.

17. The show output toy of claim 16, wherein,

the identification projection is configured such that its projection height is equal to or lower than the peripheral projection wall portion.

18. The show output toy of claim 16 or 17, wherein,

the number of the recognition protrusions of the sub-body is set to be greater than the number of the detection portions of the main body.

19. The show output toy of claim 16 or 17, wherein,

the show output toy includes a 2 nd auxiliary toy body independent from the auxiliary toy body,

the 2 nd auxiliary toy body can perform performance in linkage with the performance of the main toy body.