阅读说明：本技术 演出输出玩具 (Performance output toy ) 是由 冈田惠二 胜野真弥 佐佐木克也 古谷纯平 于 2021-09-15 设计创作，主要内容包括：本发明提供一种演出控制的准确性优异且趣味性较高的演出输出玩具。演出输出玩具(1)包括：副玩具体(30),其具备启动演出的启动按钮(37)；以及主玩具体(10),其能够供副玩具体(30)装卸,主玩具体(10)包含：按钮动作突起(61),其构成为能够相对于供副玩具体(30)安装的安装部(22)突出、没入,用于按压启动按钮(37)而使其进行动作；以及连动突起(62),其突出高度设为低于按钮动作突起(61)的突出高度,且构成为能够相对于安装部(22)突出、没入,连动突起(62)和按钮动作突起(61)构成为,与连动突起(62)自安装部(22)的退避连动地,按钮动作突起(61)自安装部(22)退避。(The invention provides a performance output toy which is excellent in performance control accuracy and high in interestingness. The show output toy (1) includes: a sub toy body (30) provided with a start button (37) for starting the performance; and a main toy body (10) which can be loaded and unloaded by the auxiliary toy body (30), the main toy body (10) comprising: a button operation protrusion (61) which can protrude from and sink into the mounting part (22) to which the auxiliary toy body (30) is mounted, and is configured to press the start button (37) to operate the same; and an interlocking projection (62) having a projection height lower than that of the button operation projection (61) and configured to be capable of projecting and sinking with respect to the mounting portion (22), wherein the interlocking projection (62) and the button operation projection (61) are configured such that the button operation projection (61) is retracted from the mounting portion (22) in conjunction with the retraction of the interlocking projection (62) from the mounting portion (22).)

1. A show output toy in which, in a play output toy,

the show output toy includes:

a vice toy body provided with a starting part for starting performance; and

a main toy body which can be assembled and disassembled with the auxiliary toy body,

the main toy specifically comprises: an operation portion configured to be capable of protruding from and sinking into a mounting portion to which the auxiliary toy body is mounted, and configured to press and operate the activation portion; and an interlocking part, the protruding height of which is lower than that of the action part and is configured to protrude and sink relative to the installation part,

the interlocking portion and the operating portion are configured such that the operating portion retracts from the mounting portion in interlocking with the retraction of the interlocking portion from the mounting portion.

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

the operating portion and the interlocking portion are urged to return to initial positions by an urging member.

3. The show output toy of claim 1 or 2,

the show output toy includes a lock portion that restricts return of the action portion to an initial position.

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

the locking portion is urged to return to an initial position by an urging member.

5. A show output toy according to claim 3 or 4,

the locking portion is engaged with the sub toy body and moves in a thickness direction of the sub toy body, and restricts return of the operation portion.

6. A show output toy according to claim 3 or 4,

the locking portion is engaged with the sub toy body and moves in the width direction of the sub toy body, and restricts the return of the operation portion.

7. A show output toy according to any one of claims 1 to 6,

the action part and the linkage part are arranged on a linkage arm which swings with a rotatable supporting shaft part as a fulcrum,

the distance from the interlocking part to the support shaft part is smaller than the distance from the operating part to the support shaft part.

8. A show output toy according to any one of claims 3 to 6,

the action part and the linkage part are arranged on a linkage arm which swings with a rotatable supporting shaft part as a fulcrum,

the lock portion exposed from the main toy body is set as one end of a lock member disposed so as to be movable inside the main toy body,

and the other end of the locking component is provided with a clamping part which can clamp the linkage arm.

9. A show output toy according to any one of claims 1 to 8,

the main toy body further comprises another mounting part for mounting the auxiliary toy body besides the mounting part.

Technical Field

The invention relates to a performance output toy.

Background

Conventionally, as a play output toy, a play output toy that generates sound or the like based on a predetermined operation is known (for example, see patent document 1). The presentation output toy described in patent document 1 includes a case portion including a tag reading portion, a motion output portion, a storage portion, a control portion, a cover portion, and the like, and an independent member provided with an IC tag, and the like. Further, the performance output toy is a sounding toy configured to: by bringing the separate member having the IC tag close to the tag reading portion of the housing portion, information of the IC tag can be read, and a sound can be generated.

Patent document 1: japanese patent laid-open publication No. 2019-146784

Disclosure of Invention

Problems to be solved by the invention

Patent document 1 discloses a configuration in which information of an IC tag is read by bringing two independent members close to each other. In the play output toy in which a button is operated to start a predetermined play by bringing the independent member close to or into contact with the toy, play output control of the toy is often performed by electronic control. However, in such a play output toy, there is a problem that a specific play is repeatedly performed by a predetermined electronically controlled routine, and a play that does not meet the intention of the operator is performed. In an attempt to solve such a problem by software development, not only much time is required for software development, but also there is a risk of erroneous operation, and therefore a highly interesting rendering output toy capable of solving such a problem without relying on electronic control is desired.

The invention aims to provide a performance output toy which is reliable in control of performance output and high in interestingness.

Means for solving the problems

The show output toy of the present invention comprises: a vice toy body provided with a starting part for starting performance; and a main toy body which can be loaded and unloaded by the auxiliary toy body, the main toy body comprising: an operation portion configured to be capable of protruding from and sinking into a mounting portion to which the auxiliary toy body is mounted, and configured to press and operate the activation portion; and an interlocking portion having a projection height lower than that of the operating portion and configured to be capable of projecting and sinking with respect to the mounting portion, wherein the interlocking portion and the operating portion are configured such that the operating portion is retracted from the mounting portion in conjunction with retraction of the interlocking portion from the mounting portion.

In the play output toy of the present invention, the operation portion and the interlocking portion may be biased to return to the initial positions by a biasing member.

In the play output toy of the present invention, the play output toy may include a lock portion that restricts return of the operation portion to an initial position.

In the play output toy of the present invention, the lock portion may be biased to return to the initial position by a biasing member.

In the play output toy according to the present invention, the lock portion may be engaged with the auxiliary toy body and moved in a thickness direction of the auxiliary toy body to restrict the return of the operation portion.

In the play output toy according to the present invention, the lock portion may be engaged with the auxiliary toy body and moved in the width direction of the auxiliary toy body to restrict the return of the operation portion.

In the play output toy of the present invention, the operating portion and the interlocking portion may be provided in an interlocking arm that swings about a rotatable support shaft portion as a fulcrum, and a distance from the interlocking portion to the support shaft portion may be smaller than a distance from the operating portion to the support shaft portion.

In the play output toy according to the present invention, the operation portion and the interlocking portion may be provided in an interlocking arm that swings with a support shaft portion that is rotatable as a fulcrum, the lock portion exposed from the main toy body may be one end of a lock member disposed so as to be movable inside the main toy body, and an engagement portion that is capable of engaging with the interlocking arm may be provided at the other end of the lock member.

In the play output toy of the present invention, the main toy body may include another mounting portion to which the auxiliary toy body is mounted, in addition to the mounting portion.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the present invention, it is possible to provide a performance output toy with excellent accuracy of performance control and high interest.

Drawings

Fig. 1 is a perspective view of the show output toy of embodiment 1 of the present invention.

Fig. 2 is a perspective view of a sub-toy body of the show output toy shown in fig. 1.

Fig. 3 is a bottom view showing a bottom surface of the auxiliary toy body shown in fig. 2.

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

Fig. 5 is a perspective view of the main toy body of the show output toy shown in fig. 1 as viewed from the left side.

Fig. 6 is a partially cut-away side view of a main part of the play output toy shown in fig. 1, in order to show an internal structure of a mounting portion of a sub-play body.

Fig. 7 is an exploded perspective view showing an internal structure of the mounting portion of the sub toy body shown in fig. 6.

Fig. 8 is an exploded perspective view showing an initial operating state of the link mechanism shown in fig. 7.

Fig. 9 is an exploded perspective view showing a state in the middle stage of operation of the link mechanism shown in fig. 7.

Fig. 10 is an exploded perspective view showing a state in which the auxiliary toy body is attached at the later stage of the operation of the link mechanism shown in fig. 7.

Fig. 11 is an exploded side view showing an initial state of the operation when the subsidiary toy body shown in fig. 10 is removed.

Fig. 12 is a perspective view of the show output toy according to embodiment 2 of the present invention as viewed from below.

Fig. 13 is a perspective view of the main toy body shown in fig. 12, viewed from the left side surface direction.

Fig. 14 is a bottom view of the main toy body shown in fig. 13, as viewed from the underside of the toy.

Fig. 15 is a partial cut-away side view of a main part of the mounting portion of the sub toy body according to embodiment 2 to show the internal structure thereof.

Fig. 16 is an exploded perspective view showing an internal structure of a mounting portion of the sub toy body shown in fig. 14.

Fig. 17 is an exploded perspective view showing a state before the subsidiary toy body is attached to the attachment portion shown in fig. 14.

Fig. 18 is an exploded perspective view showing a state in which the subsidiary toy body is attached to the attachment portion shown in fig. 14.

Description of the reference numerals

1. A performance output toy; 10. swords (main toy body); 22. 1 st mounting part (mounting part); 23. the 2 nd mounting part (the other mounting part); 30. a book (auxiliary toy body); 37. a 3 rd start button (start button); 60a, a linkage arm; 60c, a support shaft portion; 61. a button actuation protrusion; 62. a linkage protrusion; 71. 91, locking projection; 73. 93, a locking part; p4, P5, P7, P8, compression spring (urging member).

Detailed Description

(embodiment 1)

Next, a play output toy 1 according to embodiment 1 of the present invention will be described with reference to fig. 1 to 11.

Fig. 1 is a perspective view showing the whole of a play output toy 1 according to embodiment 1.

As shown in fig. 1, when the presentation output toy 1 is roughly divided in structure, the presentation output toy 1 is a structure including: a main toy body 10 (hereinafter referred to as "sword 10") imitating the shape of a sword having a hand grip 12 and a blade 11; and a sub-toy body 30 (hereinafter referred to as "book 30") which imitates a rectangular-shaped book and has identification information. The show output toy 1 is a toy in which a book 30 is attached to a main toy body 10 imitating a sword used by fighting heros, for example, to play a game. The play output toy 1 is a toy that can play a game by attaching and detaching the book 30 to and from the attachment portion of the book 30, and includes, for example, a 1 st attachment portion 22 (see fig. 4) on the upper side of the sword 10 and a 2 nd attachment portion 23 (see fig. 5) as another attachment portion, which is the left side surface of the sword 10 (left and right in a state where the sword 10 is held and the tip of the sword is directed forward), as the attachment portion of the book 30.

In the following description, when describing the orientation of the components of the presentation output toy 1, basically, the orientation is the direction when the user views the sword 10 in a state where the user holds the grip portion 12 of the sword 10 with his hand, and the sword tip is directed forward and the blade 11 is placed vertically (in the case of a double-edged type, the operation trigger is set to the lower state). For example, the vertical direction is referred to as the upper, lower, upper side, and lower side, and the horizontal direction is referred to as the left, right, left side, and right side, and the thickness direction of the sword. The front-rear direction is referred to as sword front, sword rear, or front and rear sides, and is also referred to as the sword tip side and tip direction. In the direction of the book 30, since the book shape is a rectangular parallelepiped, the direction of the side with the longest length among the three sides of the rectangular parallelepiped is referred to as the longitudinal direction or the longitudinal direction, the direction of the side with the medium length is referred to as the width direction, and the direction of the side with the shortest length is referred to as the thickness direction.

Fig. 2 is a perspective view of the book 30, and fig. 3 is a bottom view showing a bottom surface of the book 30.

As shown in fig. 2, the book 30 includes: a main body part 30 b; and an opening/closing portion 30a that can be opened and closed with respect to the main body portion 30b by a hinge portion 30h having an opening/closing shaft 30 sf. The opening/closing portion 30a is biased in the rotational direction by a torsion spring 38t disposed between the opening/closing portion and the main body portion 30 b. For example, the configuration is a substantially rectangular parallelepiped shape simulating the form of a hingable book that automatically opens by operating the 2 nd start button 38 f. Further, a vertical groove 30g is provided on an end surface opposite to the side where the opening/closing shaft 30sf is provided, and the vertical groove 30g is opened along the longitudinal direction of the end surface and on the bottom surface 30bb of the book 30.

The book 30 is opened when the opening/closing portion 30a is opened. The open page can show, for example, a predetermined character and a special image of information. In addition, the book 30 has an IC tag in which identification information unique to the book is stored.

As shown in fig. 3, on the bottom surface 30bb of the main body portion 30b of the book 30, as start buttons (start portions) for starting the rendering of the book 30, for example, a 1 st start button 36b and a 3 rd start button 37 as sound buttons, and a 2 nd start button 38f for performing an opening operation of the opening/closing portion 30a are provided. Mainly, the 1 st start button 36b and the 3 rd start button 37 output sounds based on predetermined information in the book. The 2 nd start button 38f is configured to automatically open the opening/closing portion 30a when pressed.

Fig. 4 is a perspective view of the sword 10 of the show output toy 1 viewed from the right side direction, and fig. 5 is a perspective view of the sword 10 viewed from the left side direction.

As shown in fig. 4 and 5, the sword 10 has, for example, a single-blade 11, a grip 12, and the 1 st and 2 nd mounting portions 22 and 23 described above as mounting portions for the book 30. The sword 10 includes therein a detection unit, not shown, capable of detecting information of the book 30, a power supply, and a control unit. When the book 30 is mounted on the 2 nd mounting portion 23, the identification information held by the book 30 can be read by the detection portion. When the book 30 is attached to the 1 st attaching part 22, a play without reading the identification information of the book 30 is performed.

The sword 10 is provided with a power switch and an operation trigger 16 on the outside thereof as a part to be operated. The operation trigger 16 is provided on the front side of the grip portion 12 so as to be operable with the fingertips while the grip portion 12 is held.

The sound output unit is not particularly limited in its arrangement, and is disposed, for example, in a portion where the width of the blade 11 is the widest. The light output unit can perform a light emission performance of the sword 10 by disposing a light source such as an LED at an appropriate position of the blade 11.

As shown in fig. 4, the 1 st attaching part 22 is provided on the sword upper side (upper side in the case of grasping the sword 10) between the grip part 12 and the blade part 11 of the sword 10, and is configured such that the book 30 is vertically erected on the upper side of the sword 10 (see fig. 1). The 1 st mounting portion 22 is provided with, for example, three projections which can project into and project from a wall surface defining the 1 st mounting portion 22. Two of the projections are provided on the bottom wall surface 22b, and the other projection is provided on the side wall surface 22w facing the tip end side of the sword 10.

The protrusions provided on the bottom wall surface 22b are a button operation protrusion (operation portion) 61 capable of pressing the 3 rd start button 37 of the book 30 and an interlocking protrusion (interlocking portion) 62 interlocking with the button operation protrusion 61. The button operation protrusion 61 and the interlocking protrusion 62 are configured to be partially protruded from and retractable into the bottom wall surface 22b of the button operation member 60, which will be described later. The interlocking projection 62 and the button actuation projection 61 are configured as an integral unit, and the two projections 61 and 62 are configured to be able to retreat (move) inward of the bottom wall surface 22b when the book 30 is attached and pressed by the book 30, which will be described later in detail. Here, the protrusion heights of the button operation protrusion 61 and the interlocking protrusion 62 from the bottom wall surface 22b are set to be lower than the protrusion height of the interlocking protrusion 62 from the bottom wall surface 22b, and the details will be described later.

Further, the 3 rd projection projecting toward the tip end side of the sword 10 engages with one end surface in the width direction of the book 30 when the book 30 is attached to the 1 st attaching part 22. That is, the 3 rd projection is engaged with the outer surface of the book 30 and moves so as to retreat from the side wall surface 22w, and the 3 rd projection is formed as a lock projection (lock portion) 71 of the lock member 70 that locks the movement of the button operation member 60 by the movement.

As shown in fig. 5, the 2 nd attaching part 23 is configured to attach the book 30 to the left side surface of the sword 10 in the longitudinal direction. The book 30 attached to the 2 nd mounting portion 23 is operated by button operating portions (operating portions) 46 and 48 exposed to the 2 nd mounting portion 23 by a link mechanism (not shown) by, for example, the first operation of the operation trigger 16. The button operating units 46 and 48 can open the opening/closing unit 30a of the book 30 at the same time as the voice output of the book 30 by pressing the 1 st start button (start unit) 36b and the 2 nd start button (start unit) 38f of the book 30. When the book 30 is attached to the 2 nd attaching part 23, the identification information of the book 30 can be read, and a predetermined performance can be performed by the operation of the operation trigger 16. The book 30 can be presented by the first operation of the operation trigger 16, but the button operation portions 46 and 48 are locked by a mechanism not shown in the drawings in the second and subsequent operations, and only the presentation on the sword 10 side is performed while avoiding unnecessary repetitive presentation of the book 30. The locked state of the button operating portions 46 and 48 can be released by pressing the lock release member 50R.

Hereinafter, the structures of the button operations member 60 and the locking member 70 will be described with reference to fig. 6 and 7.

Fig. 6 is a partially cut-away side view of the sword 10 in which the main part is cut away to show the internal structure of the 1 st mounting part 22 of the show output toy 1. Fig. 7 is an exploded perspective view showing the internal structure of the 1 st mounting part 22.

As shown in fig. 6, in the sword 10, a button operation member 60 having a button operation protrusion (operation portion) 61 and an interlocking protrusion (interlocking portion) 62, and a lock member 70 having a lock protrusion (lock portion) 71 are provided inside (lower side and left side in the drawing) the 1 st mounting portion 22.

The button operation member 60 includes a linking arm 60a extending rearward of the sword in the radial direction of rotation from a support shaft portion 60C that is rotatable about a rotation axis C6, and the linking arm 60a is provided with a button operation protrusion 61 and a linking protrusion 62 extending upward of the sword 10 in the direction of rotation. The interlocking projection 62 is formed at the middle position in the extending direction of the interlocking arm 60a, and the button operation projection 61 is formed at the tip position of the interlocking arm 60 a. The distance from the interlocking projection 62 to the support shaft portion 60c is set to be smaller than the distance from the button operation projection 61 to the support shaft portion 60 c. Further, an engagement arm 63 engageable with the lock member 70 extends downward (downward in the drawing) of the sword 10 opposite to the button operation projection 61. As shown in fig. 7, two openings 22h for allowing the button operation projection 61 and the interlocking projection 62 to pass through are provided in the bottom wall surface 22 b.

As shown in fig. 7, the engagement arm 63 includes a recess 63c recessed in the thickness direction of the sword 10 on the distal end side thereof. The recess 63c can engage with the locking portion 73 of the lock member 70. Further, a compression spring P4 as an urging member disposed in parallel with the engagement arm 63 abuts against the interlocking arm 60a from the lower side in the drawing. Thereby, the button operation member 60 is always biased in a direction to return the button operation protrusion 61 and the interlocking protrusion 62 to a position (initial position) exposed from the opening 22 h. Therefore, when the book 30 is attached, the button operation protrusion 61 and the interlocking protrusion 62 abut against the book 30. Further, the interlocking arm 60a is provided with a switch pressing portion 64 extending leftward in the thickness direction of the sword 10 on the side opposite to the extending side of the interlocking projection 62. The switch pressing portion 64 can press the rubber contact switch 10si provided to face the switch pressing portion 64. The rubber contact switch (activation portion) 10si functions as a switch for sound rendering and light rendering on the sword 10 side.

The lock member 70 includes a slide portion 70c extending in the front-rear direction of the sword 10 and a lock arm portion 70b extending from one end side of the slide portion 70c toward the upper side of the sword 10, and is configured in a substantially L-letter shape in side view, for example. In addition, the locking member 70 is held to be movable in the front-rear direction of the sword 10, i.e., in the direction along the sliding portion 70 c. An engaging portion 73 is provided near the tip of the slide portion 70c, and the engaging portion 73 protrudes rightward in the thickness direction of the sword 10, engages with the engaging arm 63, and engages with the movement of the interlocking arm 60 a. The lock arm portion 70b has a lock projection 71 at its distal end projecting toward the distal end of the sword 10.

The lock projection 71 is configured such that the tip end face 71e and the tip tapered face 71t thereof can be exposed from the side wall face 22 w. In addition, the locking projection 71 has a thickness having a width close to the width of the side wall surface 22w (the width in the left-right direction of the sword 10).

Further, a compression spring P5 as an urging member is provided in the long hole 70h provided in the slide portion 70 c. The compression spring P5 is provided such that one end side (right side in the figure) thereof presses the sliding portion 70 c. Thus, the lock member 70 is always urged toward the distal end of the sword 10 by the compression spring P5. As a result, when the book 30 is removed, the lock projection 71 can return to the initial position where the tip end face 71e and the tip tapered face 71t are exposed from the side wall face 22 w. On the tip side of the slide portion 70c, the above-described locking portion 73 is located closer to the tip side (right side in the figure) of the sword 10 than the concave portion 63c of the engaging arm 63.

The locking portion 73 is provided movably in the thickness direction (the left-right direction of the sword) with respect to the sliding portion 70 c. The locking portion 73 is held slidably in the sliding portion 70c in the left-right direction of the sword 10. The locking portion 73 is pressed by a compression spring P6 (see fig. 8) from the back side (left side of the sword 10) of the sliding portion 70 c. Therefore, as described later, when the locking portion 73 is engaged with the concave portion 63c of the engaging arm 63, the protruding height of the locking portion 73 can be changed by having an elastic force.

The operations of the push button operation member 60 and the lock member 70 during attachment/detachment of the cartridge 30 will be described below with reference to fig. 8 to 11.

Fig. 8 is an exploded perspective view showing an initial state of operation of the button operations member 60 and the lock member 70 when the book 30 is attached. Fig. 9 is an exploded perspective view showing a state in the middle stage of operation when the button operation member 60 and the lock member 70 are attached. Fig. 10 is an exploded perspective view showing a state at the later stage of operation when both the members 60 and 70 are attached. Fig. 11 is an exploded side view showing the state of the operation of the button operation member 60 and the lock member 70 when the book 30 is removed.

When the book 30 is attached, the bottom surface 30bb is press-fitted into the 1 st attaching part 22. At this time, as shown in fig. 8, the button operation member 60 is first pushed in against the urging force of the compression spring P4 by the button operation protrusion 61 coming into contact with the 3 rd start button 37 provided on the bottom surface 30 bb. The 3 rd start button 37 is pushed in by the abutment of the button operation protrusion 61, and the book 30 is opened and closed. The button operation projection 61 of the button operation member 60 is pressed to start the rotation (counterclockwise in the drawing) with the support shaft portion 60c as a fulcrum. In the initial state of press-fitting of the book 30, the one end 30be of the corner of the bottom surface 30bb contacts the tip tapered surface 71t of the lock projection 71. Thereby, the lock member 70 starts moving to the rear side of the sword 10 (to the left in the figure) against the urging force of the compression spring P5.

Subsequently, the book 30 is further pressed in. Thereby, as shown in fig. 9, the bottom surface 30bb contacts the interlocking projection 62. When the interlocking projection 62 comes into contact with the bottom surface 30bb, the button actuation projection 61 starts to separate from the 3 rd start button 37. Mainly, by pressing the interlocking projection 62 closer to the support shaft portion 60c than the button operation projection 61, the button operation projection 61 moves by a distance greater than the movement distance of the interlocking projection 62 and separates from the 3 rd start button 37.

By pushing the book 30 in, the distal end portion 63e of the engagement arm 63 moves in a direction approaching the locking portion 73 of the lock member 70. Further, the lock member 70 is pushed by the one end 30be of the book 30 to slide rearward of the sword 10, and the locking portion 73 moves in a direction to contact the distal end portion 63e of the engaging arm 63 as shown in fig. 9. Here, the tip end inclined surface 63t is provided on the side of the tip end portion 63e facing the engaging portion 73, and the inclined surface 73t is provided on the side of the engaging portion 73 facing the tip end inclined surface 63 t. Therefore, when the tip inclined surface 63t and the inclined surface 73t move closer to each other from the state shown in fig. 9, the inclined surfaces 63t and 73t contact each other and rub against each other, and the engagement portion 73 is fitted into the recess 63 c. Further, when the locking portion 73 is fitted, the locking portion 73 can be elastically moved so as to reduce the protruding height thereof, and thus the fitting can be smoothly performed.

When the pressing of the book 30 is completed, as shown in fig. 10, the tip end face 71e of the lock projection 71 abuts against one end side face of the book 30. Thereby, the lock member 70 is maintained in a state where the lock projection 71 is retracted from the side wall surface 22 w. The locking portion 73 is fitted into the recess 63 c. As a result, the button operations member 60 is maintained in a state in which the button actuation protrusion 61 is separated from the 3 rd start button 37.

In the above-described series of operations for attaching the book 30, the 3 rd start button 37 is pressed for a short time (for a short time) for the presentation of the book 30, and therefore, the presentation corresponding to the switch is performed only once. Further, the rubber contact switch (activating portion) 10si is also pressed by the attachment of the book 30. Thereby, the sword 10 performs light rendering for emitting light and also performs sound output rendering on the sword 10 side. The performance of the sword 10 may be only a light performance or only a sound performance.

The operation of the button operation member 60 and the lock member 70 when the book 30 is removed from the 1 st attaching part 22 will be described.

As shown in fig. 11, first, in the initial state when the book 30 is pulled out, even if the book 30 moves upward, the lock member 70 is maintained in the state in which the book 30 is pushed in against the urging force of the compression spring P5 while the distal end face 71e of the lock projection 71 abuts against the book 30. Therefore, in the initial state of the operation of removing the book 30, the return operation of the button operation member 60 is restricted. Then, when the book 30 is further pulled out and the book 30 is separated from the tip end face 71e of the locking projection 71, the locking member 70 moves to the initial position side (the right side in fig. 11). Thereby, the engagement between the locking portion 73 and the recess 63c is released. As a result, the button operations member 60 returns to the initial position by the urging force of the compression spring P4. In this way, the return operation of the button operation member 60 starts moving after the book 30 is separated from the 1 st attaching part 22 by a predetermined distance, and therefore, the 3 rd start button 37 is not pressed by the return operation of the button operation protrusion 61, and unnecessary performance is not performed.

Hereinafter, a play method of the show output toy 1 will be briefly described.

The book 30 can be operated as a single body to play a game while outputting sound, but the play output toy 1 is mainly played by being attached to the sword 10. In this case, after the power switch of the sword 10 is operated, the book 30 is installed. For example, as described above, the book 30 is attached to the 1 st attaching part 22, immediately pulled out, and then attached to the 2 nd attaching part 23.

When the operation trigger 16 is operated in a state where the book 30 is attached to the 2 nd attaching part 23, the 1 st start button 36b and the 2 nd start button 38f of the book 30 are pressed by the button operating parts 46 and 48. This causes the opening/closing unit 30a to rotate and simultaneously output sound from the book 30. Then, by operating the operation trigger 16, it is possible to output a sound different from the initial sound output from the main toy body 10, and it is also possible to perform a light emission performance from the main toy body 10.

As described above, according to the play output toy 1 of the present embodiment, the height of the interlocking projection 62 that protrudes from and sinks into the 1 st mounting portion 22 to which the book 30 is mounted and interlocks with the button operation projection 61 in the same direction can be set lower than the height of the button operation projection 61. Thus, when the book 30 is mounted on the 1 st mounting portion 22, the button operation projection 61 can press the 3 rd start button 37 to perform the drawing of the book 30 in the initial mounting state.

Further, since the distance from the support shaft portion 60c to the interlocking projection 62 is smaller than the distance from the support shaft portion 60c to the button operation projection 61, the moving distance of the button operation projection 61 is increased by the interlocking projection 62 coming into contact with the book 30, and therefore, in the post-installation state, the button operation projection 61 can be separated from the 3 rd start button 37. As a result, the performance due to the short-press of the 3 rd start button 37 can be performed, and another performance due to the long-press of the 3 rd start button 37 can be avoided.

Further, when the book 30 is removed from the 1 st attaching part 22, the engagement arm 63 is locked by the locking part 73 to the button operation projection 61, and the timing of the return movement is restricted to a delay, so that the 3 rd start button 37 is not operated when the book 30 is removed. Thus, the performance of the book 30 can be performed only once when the book 30 is attached to the 1 st attaching part 22. As a result, it is possible to avoid a decrease in interest due to unnecessary performances of the book 30, which are different from the intention of the user, and to provide a toy with excellent operability and high interest.

In the play output toy 1 of the present embodiment, the button operation protrusion 61 and the interlocking protrusion 62 are integrated by the interlocking arm 60a and are biased by the compression spring P4, and therefore, by removing the book 30, the button operation protrusion 61 and the interlocking protrusion 62 can return to the initial positions protruding in the first mounting portion 22.

In the play output toy 1 of the present embodiment, the lock member 70 having the lock projection 71 is biased in the direction of the initial position by the compression spring P5, and therefore, the lock member 70 can move in conjunction with the removal of the book 30, and can be operated so as to return the lock projection 71 to the initial position projecting in the 1 st mounting part 22.

In the play output toy 1 of the present embodiment, the operation is performed in conjunction with the attachment and detachment of the book 30, and the lock projection 71 can press the book 30 in the width direction when the book 30 is attached, so that the operation feeling of attaching and detaching the book can be generated.

In the play output toy 1 of the present embodiment, the main toy body 10 includes the 1 st mounting part 22 and the 2 nd mounting part 23 to which the book 30 is mounted, and therefore, the play form of the book 30 can be further increased.

(embodiment 2)

Hereinafter, the main toy body 10 according to embodiment 2 of the present invention will be described with reference to fig. 12 to 18. In the present embodiment, the same components as those in embodiment 1 are denoted by the same reference numerals, and description thereof is omitted. Fig. 12 is a perspective view of the sword 10 of embodiment 2 as viewed from the lower side. Fig. 13 is a perspective view of the sword 10 viewed from the left side surface direction.

In the sword 10 of the present embodiment, as shown in fig. 12 and 13, the sword 10 differs from the sword 10 of embodiment 1 in that it is of a double-edged type, and the mounting portions 1, 22 and 23 differ in structure. Further, since the sword 10 of embodiment 2 is of a double-edged type, the side on which the operation trigger 16 is provided is set to the lower side with respect to the upper and lower sides of the sword 10. The other directions are described in the same manner as in embodiment 1.

As shown in fig. 12 and 13, the 2 nd attaching part 23 is provided on the upper side of the sword 10, and is configured to attach the book 30 in a state of being horizontally placed in the front-rear direction of the sword (with the main body part 30b being inside). In the book 30 attached to the 2 nd attaching part 23, for example, by the first operation of the operation trigger 16, the 1 st start button (1 st start part) 36b and the 2 nd start button (2 nd start part) 38f are pressed as in the embodiment 1, and the opening/closing part 30a of the book 30 is opened to the sword left side while the voice output of the book 30 is performed. The identification information of the book 30 is read by being attached to the 2 nd attaching part 23, and a predetermined performance can be performed by the operation of the operation trigger 16. In the present embodiment, the book 30 is not operated in the second and subsequent operations of the operation trigger 16, but the operation trigger 16 is unlocked by, for example, the unlocking member 40R, and the unlocking member 40R can be projected and retracted from the 2 nd attaching part 23 by attaching and detaching the book 30.

Fig. 14 is a bottom view of the sword 10 as viewed from below, and fig. 15 is a side view of the sword 10 partially cut in a main part thereof to show the internal structure of the 1 st mounting part 22. Fig. 16 is an exploded perspective view showing an internal structure of the 1 st mounting part 22.

As shown in fig. 14, the 1 st attaching part 22 is formed in a rectangular shape having a predetermined depth with four sides surrounded by wall surfaces, and can vertically stand diagonally rearward toward the lower portion of the sword 10. The bottom wall surface 22b is provided with a button operation protrusion 61 and an interlocking protrusion 62 that can protrude from and retract into the bottom wall surface 22 b. Further, a lock projection 91 projecting toward the tip end side of the sword 10 is provided on the side wall surface 22 w.

As shown in fig. 15 and 16, in the button operation member 60 of the present embodiment, as in embodiment 1, a button operation protrusion (operation portion) 61 and an interlocking protrusion (interlocking portion) 62 are provided on an interlocking arm 60a that is rotatable about a support shaft portion 60 c. However, unlike embodiment 1, the interlocking arm 60a extends toward the rear of the sword 10. That is, the push button operation protrusion 61 and the interlocking protrusion 62 are provided on the interlocking arm 60a extending in the sword tip direction from the support shaft portion 60C that is rotatable about the rotation axis C8 provided on the hand grip portion 12 side. In addition, unlike embodiment 1, the engaging arm 63 extends from the support shaft portion 60c in the same direction as the button operation protrusion 61. Further, the lock member 90 including the lock projection (lock portion) 91 is not configured to protrude from and sink into the side wall surface 22w as in embodiment 1, but is configured to slidably move in the sword thickness direction in a state of protruding from the side wall surface 22w as described below. The lock member 90 is provided at a position overlapping the engagement arm 63 in the thickness direction of the sword 10. Further, the switch pressing portion 64 provided on the opposite side to the protruding side of the interlocking projection 62 presses the rubber contact switch (actuating portion) 10si in the same manner as in embodiment 1.

The structure and operation of the push button operation member 60 and the lock member 90 will be described below. Fig. 17 is an exploded perspective view showing a state before the operation of the button operation member 60 and the lock member 90. Fig. 18 is an exploded perspective view showing a state after the operation of the button operation member 60 and the lock member 90.

As shown in fig. 17, the lock member 90 has a main portion 92 slidably movable in the sword thickness direction along the side wall surface 22w, a lock projection 91 is provided on the side surface side (front side in the figure) of the main portion 92, and an engaging portion 93 is provided on the tip end side (left side in the figure) of the main portion 92. The lock projection 91 penetrates the side opening 22i of the side wall surface 22w and projects from the 2 nd attaching part 22. The locking portion 93 protrudes toward the engaging arm 63 through a through hole 98h of the housing wall portion 98 that regulates the position of the lock member 90. The lock member 90 is biased in a direction of separating from the engagement arm 63 (in a direction of returning to the initial position) by a compression spring P8 as a biasing member provided between the lock member and the housing wall portion 98. The locking projection 91 has a rectangular cross-sectional shape that can be inserted into a vertical groove 30g (see fig. 2 and 3) provided in the book 30, and the locking projection 91 includes an upper end inclined surface 91t inclined in the width direction of the sword 10 at the upper end.

Hereinafter, operations of the button operation member 60 and the lock member 90 at the time of attachment/detachment of the specification 30 will be described.

First, in a state before the book 30 is attached, as shown in fig. 16 and 17, the button operation protrusion 61 and the interlocking protrusion 62 are located at initial positions where the openings 22h are penetrated. As shown in fig. 17, the lock projection 91 is located on one end side (on the right side in fig. 17) of the side opening 22 i.

Then, when the book 30 is attached, the bottom surface 30bb of the book 30 is press-fitted into the 1 st attaching part 22. At this time, in the button operation member 60, the button operation protrusion 61 first comes into contact with the 3 rd start button 37 and is pushed in against the urging force of the compression spring P7, thereby opening and closing the book 30, as in embodiment 1. At the same time, the button operation member 60 starts to rotate about the support shaft portion 60c as a fulcrum. In an initial state in which the book is pushed in, the upper end inclined surface 91t of the lock projection 91 engages with the bottom surface 30bb (more precisely, the edge portion on one end side of the vertical groove 30 g), and the lock projection 91 starts to move while being pressed in the sword thickness direction (leftward in fig. 17) against the urging force of the compression spring P8.

By continuing to push the book 30, the bottom surface 30bb comes into contact with the interlocking projection 62, and the button operation projection 61 is separated from the bottom surface 30bb to complete the book attachment, as in embodiment 1. Here, in a state where the book is completely attached, as shown in fig. 18, the locking portion 93 of the lock member 90 protrudes rearward (toward the hand grasping portion 12) of the rear end wall 63w of the engaging arm 63 to lock the engaging arm 63. The locking timing is performed by the engagement arm 63 being displaced from the contact position with the locking portion 93. Mainly, the state in which the lock projection 91 is completely inserted into the vertical groove 30g, that is, the state in which the one end surface 91e of the lock projection 91 is pressed by the inner surface wall of the vertical groove 30g is completed before the end of the attachment of the book, and the sliding movement of the trunk portion 92 is completed. However, while the locking portion 93 is in contact with the side surface (the right side surface in the figure) of the engagement arm 63 facing in the thickness direction, the locking portion 93 is restricted from moving (moving leftward in the figure) while being pressed (pressed leftward in the figure) by the compression spring P9. Therefore, when the interlocking arm 60a rotates by a predetermined angle with the insertion of the book 30, the engaging arm 63 is disengaged from the distal end surface of the locking portion 93. As a result, the locking portion 93 protrudes rearward of the rear end wall 63w of the engagement arm 63 to lock the push button operation member 60.

In the present embodiment, when the book 30 is removed, the engagement between the one end surface 91e of the lock projection 91 and the vertical groove 30g is maintained until the book 30 is being pulled out, and therefore, the start timing of the return of the interlinking arm 60a can be delayed as in embodiment 1. This can avoid interference of the 3 rd start button 37 by the button operation protrusion 61.

In the present embodiment, the same effects as those of embodiment 1 can be obtained. In the present embodiment, the lock projection 91 can also be used to press the book 30 in the thickness direction when the book 30 is attached and detached. Therefore, the user can feel the operation feeling when loading or unloading the book. In the present embodiment, the engagement arm 63 extends from the support shaft portion 60c, and the lock member 90 is configured to engage with the button operation member 60 by moving in a direction intersecting the rotational direction of the button operation member 60, so that the lock member 90 can be made compact.

While the embodiments 1 and 2 of the present invention have been described above, the present invention can be modified as appropriate within the scope of the technical idea thereof. For example, the shapes of the button operation member 60 and the lock members 70 and 90 are not limited to the illustrated shapes, and can be appropriately changed.

In the above embodiment, in many cases, the book 30 is attached to the 1 st attaching portion 22 by inserting the book 30 in a state of being held by a hand and then directly pulling out the book after outputting sound, and therefore, a book holding structure constituted by a locking unit is not particularly necessary in order to facilitate the attaching and detaching operation. However, as described above, the lock projections 71 and 91 may be held by friction engagement with other portions or friction engagement with other portions, or a structure in which another holding mechanism is separately provided may be employed.

In the above embodiment, the book 30 is attached to the sword 10, but the present invention is not limited to this. For example, the following structure is also possible: a buckle part of a waist belt for a user to wrap around the waist is provided with a 1 st attaching part 22 and a 2 nd attaching part 23. In this case, the following configuration is also possible: the buckle portion is provided with a reading portion for reading identification information of the book 30, and an operation portion corresponding to the operation trigger 16.