CN115177959A - Performance output toy - Google Patents

Abstract

The invention provides a performance output toy with high interestingness. The presentation output toy is provided with: a first toy body capable of performing a show output; a second player body capable of performing output of a performance; a control unit that controls the output of the performance; a first light receiving and emitting element which is arranged on the first toy body, can emit light and can receive the light emission of other light receiving and emitting elements; and a second light receiving and emitting element provided in the second toy body, capable of emitting light and capable of receiving light emission of the other light receiving and emitting elements, wherein the first light receiving and emitting element is capable of transmitting the first motion information, the second light receiving and emitting element is capable of transmitting the second motion information, and the light receiving and emitting portion of the first light receiving and emitting element is opposed to the light receiving and emitting portion of the second light receiving and emitting element, whereby the first motion information and the second motion information can be transmitted and received between the first toy body and the second toy body, and the output of the performance can be performed based on at least one of the first motion information and the second motion information.

Description

Performance output toy

Technical Field

The invention relates to a performance output toy.

Background

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

Documents of the prior art

Patent document

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

Disclosure of Invention

Problems to be solved by the invention

In patent document 1, when the IC tag is brought close to the sound generation toy, the sound generation toy only generates sound, and the amusement is low.

The invention aims to provide a playing output toy with higher interestingness.

Means for solving the problems

The present invention provides a presentation output toy, for example, comprising: a first toy body capable of performing a show output; a second toy body capable of performing a show output; a control unit that controls the output of the performance; a first light receiving and emitting element provided in the first toy body, and capable of emitting light and receiving light emitted by the other light receiving and emitting elements; and a second light receiving and emitting element provided in the second toy body, the second light receiving and emitting element being capable of emitting light and receiving light emitted by another light receiving and emitting element, the first light receiving and emitting element being capable of transmitting first motion information, the second light receiving and emitting element being capable of transmitting second motion information, the light receiving and emitting unit of the first light receiving and emitting element being opposed to the light receiving and emitting unit of the second light receiving and emitting element, whereby the first motion information and the second motion information can be transmitted and received between the first toy body and the second toy body, and the show output toy is configured to be capable of outputting the show based on at least one of the first motion information and the second motion information.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the invention, a performance output toy with high interestingness can be provided.

Drawings

Fig. 1 is a perspective view showing an example of the operation of the play output toy of the present invention.

Fig. 2 is a perspective view showing an example of the operation of the show output toy.

Fig. 3 is a front view showing an example of the operation of the show output toy.

Fig. 4 is an enlarged perspective view showing an external structure of the mounting portion of the second toy body.

Fig. 5 is a perspective view of the first toy body, (a) is a perspective view showing a structure on a back surface side, and (b) is a perspective view showing a structure on a front surface side.

Fig. 6 is an enlarged sectional view of the mounting portion and a main portion of the first toy body in a mounted state of the first toy body.

Fig. 7 is a partially exploded perspective view showing an internal structure of the mounting portion of the first toy body.

Fig. 8 is an internal perspective view as seen from the front in a state before the operation of the interlocking mechanism.

Fig. 9 is an internal perspective view as viewed from below in the operating state of the interlocking mechanism.

Fig. 10 is a side view showing the image erasing member in a state where an image can be formed on the image display unit.

Fig. 11 is an exploded perspective view of the image removing member.

Fig. 12 is a perspective view of the image removing member.

Fig. 13 is a partially exploded perspective view showing the image erasing member in a state where the image display unit is oriented to the front.

Fig. 14 is a side view showing an operation state of the image erasing member.

Fig. 15 is an enlarged sectional view of a main portion of the inside of the first toy body.

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

Fig. 17 is a perspective view showing a modification of the second toy body.

Fig. 18 is a perspective view showing a state before the first toy body is attached to the modification shown in fig. 17.

Fig. 19 is a perspective view showing an example in which a first toy body different from fig. 18 is attached to the modification shown in fig. 17.

Fig. 20 is a front view showing a plurality of modifications of the first toy body.

Description of the reference numerals

1. A performance output toy; 10. a stamp (first toy body); 10s, a mounted surface; 13. a stamp magnet (magnetic field generating unit); 18. 28, a light receiving and emitting part; 18e, a first light receiving and emitting element; 18h, a stamp-side opening portion (one opening portion); 20. a buckle (second toy body); 20A, a weapon (second toy body); 20m, a first trigger button (trigger button); 20n, a second trigger button (trigger button); 21. a main body portion; 28e, a second light receiving and emitting element; 28h, a mounting portion side opening portion (another opening portion); 30. an installation part; 30s, mounting surface; 40. an image display unit; 43. a magnetic sheet surface; 50. a linkage mechanism; 60. an image erasing member; 63a, a cancel magnet; 70. a control unit.

Detailed Description

Next, a description will be given of a play output toy according to an embodiment of the present invention with reference to the drawings.

Fig. 1 is a perspective view showing the whole of the show output toy. Fig. 2 is a perspective view showing the entirety of the show output toy. Fig. 3 is a front view showing an example of the operation of the show output toy.

As shown in fig. 1 and 2, the play output toy 1 is configured to have a first toy body 10 (hereinafter, referred to as a "stamp 10") having a stamp function in a manner of imitating the shape of a piece of chess, and a second toy body 20 (hereinafter, referred to as a "buckle 20") having a buckle shape, for example, in which the stamp 10 is attachable to and detachable from the second toy body 20, as the configuration is roughly divided. The stamp 10 is provided with an independent power supply, and the stamp 10 holds first identification information corresponding to the stamp 10, and the output of the rendering is controlled by the control unit 71 (70) (see fig. 16). On the other hand, an independent power supply is also provided in the buckle 20, and the buckle 20 holds second identification information corresponding to the buckle 20, which is different from the first identification information, and the control unit 72 (70) (see fig. 16) controls the performance output. The stamp 10 and the buckle 20 can be controlled independently to output the performance, but the information of both can be exchanged to output the performance based on the information of both. The shapes (designs) of the first and second toy bodies 10, 20 are not particularly limited, and various shapes can be adopted.

The show output toy 1 is a toy used when, for example, a hero in a battle is transformed to a body. As an example of using the chess piece-shaped stamp 10, an operation of pressing the stamp pad 40 (see fig. 1) to be described later on the buckle 20 and an operation of attaching the stamp 10 to the attaching portion 30 of the buckle 20 (see fig. 2) can be performed, and as shown in fig. 3, an operation of rotating and tilting the stamp 10 after attachment in a predetermined direction can be performed, and a performance using light (including images) and sound can be performed along with the operation.

The buckle 20 is configured such that flexible belt members 22 can be attached to both left and right ends thereof. Therefore, for example, when a player wears the belt to play a game, the buckle 20 is used by positioning the buckle 20 on the front side of the belt using the belt member 22. The buckle 20 includes a main body 21 that is long in the lateral direction when in use, and an attachment portion 30 for attaching the stamp 10 and an image display portion 40 (hereinafter referred to as "stamp pad 40") that can display an image by a stamp operation (downward pressing operation as shown in fig. 1) of the stamp 10 are provided on the front surface of the main body 21. In the game state, the mount 30 is rotated relative to the main body 21 to tilt, and the stamp pad 40 is operated so that the magnetic sheet surface 43 as an image display surface faces upward (the state shown in fig. 1) and forward (the state shown in fig. 3), as will be described later.

Fig. 4 is an enlarged perspective view showing an external structure of the mounting portion 30 of the buckle 20. Fig. 5 is a perspective view showing the structure of the back side and the front side of the stamp 10.

As shown in fig. 4, the mounting portion 30 is formed with an internal space by a pair of a front case 30a and a rear case 30b, for example. The front case 30a is provided with a pair of left and right projecting-bar-shaped mounting rails 31 into which the stamp 10 can be inserted and mounted from above. The pair of mounting rails 31 include hook pieces 31f bent parallel to the mounting surface 30s at projecting distal end portions thereof and facing each other. Further, on the mounting surface 30s, a hole 35h for an operation pin 35 (see fig. 7) described later protruding from the mounting surface 30s and the light receiving and emitting portion 28 are provided between the mounting rails 31.

On the other hand, as shown in fig. 5 (a), the stamp 10 is provided with a projecting wall 10c constituting the mounted surface 10s on the rear surface side thereof, and insertion engagement pieces 10d are provided on both left and right ends of the projecting wall 10 c. The insertion engagement piece 10d is shaped to protrude from both left and right sides of the protruding wall 10c, and is configured to be slidably inserted and engaged at the rear side of the hook piece 31f. Therefore, the stamp 10 is attached so that the attached surface 10s is substantially in close contact with the attachment surface 30s by inserting the insertion engagement piece 10d into the hook piece 31f.

The stamp 10 has a stamp lower end portion 12 that can move up and down as described later, and a light receiving/emitting portion 18, an opening 16h for a stamp rotation switch 16, and a reset switch 17 are provided on a mounted surface 10 s. Further, a top switch 14 serving also as a power switch is provided on the top side, and as shown in fig. 5 (b), a subject portion 10e representing the feature of the stamp 10 (e.g., the feature of hero) is drawn on the top side. The subject portion 10e performs optical rendering by an internal light source described later.

Fig. 6 is an enlarged sectional view of a main part of the mounting portion 30 and the stamp 10 in a mounted state of the stamp 10. As shown in fig. 6, in the attached state of the stamp 10, the stamp-side light-receiving/emitting portion 18, which is constituted by the first light-receiving/emitting element 18e and the stamp-side opening portion 18h as one opening portion of the attached surface 10s, faces (faces) the mounting-side light-receiving/emitting portion 28, which is constituted by the second light-receiving/emitting element 28e and the mounting-side opening portion 28h as the other opening portion of the attached surface 30 s. In the present embodiment, in a state where the stamp 10 is attached to the attachment portion 30, the first light receiving/emitting element 18e can receive (receive) the signal (infrared light emission) transmitted from the second light receiving/emitting element 28e, and the second light receiving/emitting element 28e can receive (receive) the signal (infrared light emission) transmitted from the first light receiving/emitting element 18 e.

In the present embodiment, the first light receiving/emitting element 18e can transmit first operation information including control information such as first identification information and command information corresponding to the stamp 10 by infrared rays, and the second light receiving/emitting element 28e can transmit second operation information including control signals such as second identification information and command information different from the first identification information by infrared rays. Here, the first operation information and the second operation information are not particularly limited, and may be only identification information of each of them, only control information such as command information, and the like.

The first light receiving and emitting element 18e and the second light receiving and emitting element 28e are formed of LEDs capable of emitting and receiving infrared rays. By facing one element in this manner, signals can be transmitted and received between the stamp 10 and the buckle 20, and the first operation information and the second operation information can be transmitted and received between the stamp 10 and the buckle 20.

As shown in fig. 6, the first light receiving and emitting element 18e is disposed such that the tip portion thereof enters the stamp-side opening portion 18h, while the second light receiving and emitting element 28e is also disposed such that the tip portion thereof enters the mounting-portion-side opening portion 28h. As a result, the first light receiving and emitting element 18e and the second light receiving and emitting element 28e face each other in a state of being extremely close to each other.

Fig. 7 is a partially exploded perspective view showing an internal structure of the mounting portion 30.

The mounting portion 30 is provided so that a lower end protruding portion 32 extending downward from the lower end side of the mounting portion 30 can be rotationally moved (swung) about a rotation center C1 extending in the front-rear direction of the body portion 21 by a shaft portion provided in the body portion 21.

The mounting portion 30 is rotatably supported by a support pin portion 29 projecting from the main body portion 21 into the mounting portion 30, in addition to the lower end projecting portion 32. That is, the support pin portion 29 penetrates an arc-shaped rotation support opening 33 provided in the rear housing 30b, and when the mounting portion 30 rotates, the rotation support opening 33 is guided by the support pin portion 29. The rear case 30b is locked so as not to be detached from the support pin portion 29 by the bent front end portion 29t of the support pin portion 29.

As shown in fig. 7, an operation pin 35 is provided in the mounting portion 30 adjacent to the second light receiving and emitting element 28e, and the operation pin 35 is configured to enter the opening 16h of the stamp 10. Specifically, for example, the operation pin 35 is provided such that a pin base portion 35b constituting a base portion thereof is guided by a surrounding wall portion 35w so as to be movable in the thickness direction of the mounting portion 30. The pin base 35b is pressed toward the rear case 30b by the base compression spring 35c between the front case 30a and the pin base. Further, an arm member 36 is provided adjacent to the pin base 35b so as to be engageable with the pin base 35 b.

The arm member 36 includes a first arm 36b and a second arm 36c around the arm shaft portion 36a, the first arm 36b is provided to enter the rotation support opening 33, and the second arm 36c is extended to engage with the first inclined surface 35s of the pin base 35 b. Also, the second inclined surface 36s provided to the second arm 36c is opposed to the first inclined surface 35s provided to the pin base 35b in such a manner as to contact therewith from the rear housing 30b side.

In a state where stamp 10 is attached to mounting portion 30, mounting portion 30 is rotated to a maximum tilt position. As a result, the first arm 36b of the arm member 36 abuts on the support pin portion 29, and the arm member 36 pivots about the rotation center C4. Thereby, the second inclined surface 36s pushes up the first inclined surface 35s, causing the pin base 35b to move against the urging force of the base compression spring 35 c. Therefore, the operation pin 35 is pressed into the stamp rotation switch 16 disposed on the mounting surface 10s of the stamp 10. As a result, a predetermined rendering by sound or light of the stamp 10 is expressed. Further, by pressing the stamp rotation switch 16, the infrared signal including the operation information may be started to be transmitted from the first light receiving and emitting element 18 e.

In the stamp pad 40, a magnetic sheet surface 43 capable of forming an image by magnetic force is provided on one surface (upper surface in the drawings) of a pad case 40a having a box shape (see fig. 1 and 4). By contacting the stamp magnet 13 (see fig. 1) as a magnetic field generating means provided on the lower end surface of the first toy body 10, an image corresponding to the stamp magnet 13 (for example, the same image as the subject portion 10e of the stamp 10 (see fig. 3) or an image related to the stamp 10) can be displayed on the surface of the magnet sheet surface 43, for example.

Next, an interlocking mechanism for operating the stamp pad 40 by the rotational movement of the mounting portion 30 will be described. Fig. 8 is an internal perspective view of the interlocking mechanism as viewed from the front in a state before the interlocking mechanism operates. Fig. 9 is an internal perspective view of the interlocking mechanism as viewed from below in an operating state of the interlocking mechanism.

The rotation of the mounting portion 30 is transmitted to the ink pad 40 by the link mechanism 50. The interlocking mechanism 50 is roughly divided, and includes: a slide portion 51 that is pushed by the lower end projection 32 of the mounting portion 30 and slides in the lateral direction of the main body 21; an intermediate rotating portion 52 that rotates about a rotation center C2 in contact with the sliding portion 51; and a display unit rotating unit 53 that engages with the intermediate rotating unit 52 and rotates the stamp pad 40 around the rotation center C3.

A pressing arm 32b having an arc-shaped pressing surface 32s is provided on the lower end projection 32 of the mounting portion 30. The slide portion 51 is a laterally long member having one end 51a in contact with the pressing arm 32b, and the other end 51b is disposed so as to be able to contact and press the lower end lever portion 52a of the intermediate rotating portion 52. A push-up projection 51c for pushing up a lock pin 52p for locking the rotation of the intermediate rotating portion 52 is provided in a projecting manner on the other end side 51b of the sliding portion 51. The slide portion 51 is provided with a return spring 51d for biasing the slide portion in a direction to return to the initial position. The sliding portion 51 is provided with a switch projection 51e capable of pressing the mounting rotary switch 27 such as a rubber switch. That is, a mechanism is provided for detecting the rotation of the mounting portion 30 by the movement of the slide portion 51.

The intermediate rotating portion 52 includes a spline shaft-shaped core member 52b, an annular engaging member 52C, a first gear member 52d, a lock pin 52p, and the like, the intermediate rotating portion 52 rotates about the rotation center C2, the core member 52b includes a lower end rod portion 52a pressed by the other end side 51b of the sliding portion 51, the annular engaging member 52C is provided to be engaged with the outer peripheral surface of the core member 52b and to be movable in the axial direction with respect to the core member 52b, the first gear member 52d is provided to be slidable in the axial direction on the outer peripheral surface of the annular engaging member 52C, and the lock pin 52p includes a lock claw 52q engageable with a notch 52k in the outer peripheral edge of the flange portion 52e of the first gear member 52 d.

Here, one end of the lower end rod portion 52a of the core member 52b is pulled by the tension spring 52g so as to rotate in a direction of returning to the initial position. The annular engaging member 52c is pressed upward by a pressing spring 52h provided so as to surround the core member 52b, and a plurality of engaging claws 52m formed on the outer peripheral surface of the annular engaging member 52c are pressed into engagement with pawls 52n provided on the inner peripheral edge side of the first gear member 52 d. The lock pin 52p is pressed by the pin pressing spring 52i in a direction (downward) in which the lock claw 52q is fitted into the notch 52k in the outer peripheral edge of the first gear member 52 d.

The display portion rotating portion 53 includes a support shaft member 53a, a second gear member 53b, a ring member 53C, an illumination support member 53d, a pair of engaging claw members 53f, and the like, the support shaft member 53a constituting a rotation center C3, the second gear member 53b being rotatably supported by the support shaft member 53a with a tooth portion on a lower end side engaged with the first gear member 52d, an inner periphery of the ring member 53C being engaged with a tooth portion on an upper end side of the second gear member 53b, the illumination support member 53d being engaged with a tip portion of the support shaft member 53a on an upper side of the ring member 53C, and the pair of engaging claw members 53f being elastically fitted into an engaging groove 53e formed on an outer peripheral surface of the ring member 53C. Here, the illumination support member 53d is provided with light output portions 82 having light sources at both ends in the longitudinal direction thereof, and is configured to illuminate the sheet surface 43 from the inside.

The engagement claw members 53f elastically engaged with the annular members 53c are attached to the table case 40a side, and are configured to rotate the table case 40a in conjunction with the attachment portion 30 by engagement with the annular members 53 c. Therefore, for example, when an unexpected operation such as forcibly rotating the stamp pad 40 is performed, the engagement with the engagement claw member 53f is disengaged, and the stamp pad 40 is caused to idle, and the function of preventing the damage of the components of the interlocking mechanism 50 is provided.

In the interlocking mechanism 50 configured as described above, when the mounting portion 30 rotates (swings), the slide portion 51 moves rightward in the drawing. By the movement of the sliding portion 51, the lock pin 52p moves upward to unlock the first gear member 52d, and the core member 52b rotates. Thereby, the annular engaging member 52c rotates, and the first gear member 52d rotates with the engaging pawl 52n engaged with the engaging pawl 52m of the annular engaging member 52 c. Due to the rotation of the first gear member 52d, the second gear member 53b rotates, and the platen 40 rotates 180 degrees. After the stamp pad 40 has rotated by a predetermined amount, the mounting portion 30 returns to the initial position (the position in the standing state) by the biasing force of the return spring 51 d. On the other hand, the pad 40 is positioned and locked by a locking member (not shown) that engages with the notch 53k formed in the flange portion 53j of the second gear member 53 b. Further, the intermediate rotating portion 52 is set in a locked state by the locking pin 52p, and the core member 52b is returned to the initial position by the tension spring 52 g. Further, the engagement claw 52m moves to the next engagement position in a state of being in contact with the inclined surface of the pawl 52 n.

As shown in fig. 1, in the stamp pad 40, the stamp 10 is pressed against the magnetic sheet surface 43 in a state where the magnetic sheet surface 43 faces upward, thereby forming an image on the magnetic sheet surface 43, and then, as shown in fig. 3, the mounting portion 30 is moved (rotated) to rotate the magnetic sheet surface 43 forward. In this state, an image is formed on the magnetic sheet surface 43. However, thereafter, the mounting portion 30 is moved (rotated) again, whereby the sheet surface 43 is moved (rotated) again to face upward. At this time, no image is formed on the magnetic sheet surface 43 facing upward, and an image can be formed again. That is, the magnet piece surface 43 has a structure in which an image is erased from a state in which the magnet piece surface faces the front surface to a state in which the magnet piece surface faces upward.

Fig. 10 is a side view showing the image erasing member in a state where an image can be formed on the image display unit. Fig. 11 is an exploded perspective view of the image removing member. Fig. 12 is a perspective view of the image removing member. As a structure for removing an image, as shown in fig. 10, an image removing member 60 is provided in the stamp pad 40 so as to be along one surface side of the inner wall surface of the pad case 40 a. As shown in fig. 11 and 12, the image erasing means 60 includes, as constituent elements, a first operating member 61, a second operating member 62, and a third operating member 63 in this order from the bottom in the drawing.

The first operating member 61 is provided with a first rotating pin 61p at an upper end portion 61a, and the first rotating pin 61p is inserted into a first long hole 62h on a lower end side of the second operating member 62 and coupled to the second operating member 62. The first operating member 61 is biased by the compression spring 64 in a direction (downward in the drawing) to return to its standby position (initial position). The lower end 61b of the first operating member 61 is exposed downward from the table case 40 a.

The second operating member 62 is provided such that the rotation shaft core 62a is rotatably supported on the table housing 40a side. The second actuating member 62 has a pair of projecting arms 62b extending from the rotation shaft core 62a toward the opposite side of the first long hole 62h on the lower end side. The second pivot pins 62p provided at the distal ends of the pair of projecting arms 62b are inserted into and coupled to the second long holes 63h of the third actuating member 63.

The third operating member 63 has a plate surface portion 63b for holding the plate-like cancel magnet 63a corresponding to the magnet piece surface 43, and the third operating member 63 is attached to the table case 40a at one end of the plate surface portion 63b so as to be rotatable about a rotation shaft portion 63c through which the third rotation pin 63p passes. The third actuating member 63 is also extended in a direction away from the magnetic sheet surface 43 by an extension spring 65.

Fig. 13 is a partially exploded perspective view showing the image erasing member in a state where the image display unit is oriented to the front. Fig. 14 is a side view showing an operation state of the image erasing member. The image erasing member 60 rotates together with the rotation of the stamp pad 40, and as shown in fig. 13, does not operate at a position other than the predetermined position. However, when the lower end portion 61b of the first operating member 61 comes to the position of the inclined protrusion 21b provided on the main body portion 21 side, the lower end portion 61b moves while coming into contact with the inclined protrusion 21b, and the first operating member 61 is pushed upward. Thus, as shown in fig. 14, the third actuating member 63 is actuated so that the cancel magnet 63a comes into contact with or approaches the back surface of the magnetic sheet surface 43. More specifically, when the first operating member 61 is pushed against the urging force of the compression spring 64, the second operating member 62 rotates counterclockwise about the rotation shaft core 62 a. Thereby, the third operating member 63 rotates clockwise about the pivot shaft 63 c. The image erasing member 60 is operated at a position rotated by 270 degrees from a state where the magnet sheet surface 43 faces upward.

Fig. 15 is an enlarged sectional view of a main part of the interior of the stamp 10. The stamp 10 is provided with a stamp magnet 13, for example, a permanent magnet, as a magnetic field generating means, at a stamp lower end portion 12 on the lower end side of the main body 11. The stamp magnet 13 is, for example, a magnet array in which the same pattern as or a pattern related to the subject portion 10e of the stamp 10 is simulated, and the pattern of the stamp magnet 13 can be transferred and formed on the magnetic sheet surface 43 by contacting with the magnetic sheet surface 43. The stamp lower end portion 12 is provided movably with respect to the main body 11 of the first toy body 10. For example, the stamp lower end portion 12 is accommodated in an accommodating opening 11a on the lower end side of the main body 11 so as to be movable up and down. Further, the stamp lower end portion 12 is pressed outward from the inside of the main body 11 by a lower end portion pressing spring 12 b. Therefore, when the stamp 10 is pressed, the stamp lower end portion 12 elastically retracts.

Further, a protruding wall 12a protruding upward is provided at the stamp lower end portion 12, and a tapered surface 12t is formed on the protruding wall 12 a. On the other hand, a slide operation piece 11s that can slide in the front-rear direction of the stamp 10 is provided above the protruding wall 12 a. An opposing tapered surface 11t is formed at a position of the slide operation piece 11s opposing the tapered surface 12t. When the stamp lower end portion 12 is pressed during the stamp operation, the opposed tapered surface 11t of the slide operation piece 11s is pressed leftward in the figure by the tapered surface 12t, and presses the stamp push switch 15, which is a rubber switch, to perform the switch operation. In this way, the rendering of the stamp 10 is expressed by the light output unit 81 including LEDs and the audio output unit 80 including speakers. The light output unit 81 is disposed to irradiate light toward the front of the stamp 10, and thereby can emit light to the subject portion 10e provided on the front side of the stamp 10.

Fig. 16 is a block diagram of a control system in the show output toy 1. The control unit 70 in the present embodiment is composed of a first control unit 71 on the stamp 10 side and a second control unit 72 on the buckle 20 side. The first control portion 71 of the stamp 10 is connected to a first light-receiving/emitting element 18e, a top switch 14 (power switch), a stamp pressing switch 15, a stamp rotation switch 16, and a reset switch 17. Further, the first control unit 71 is connected to a storage unit 73. The storage unit 73 stores music and sound data for generating sounds such as predetermined lines, attack sounds, inflexion sounds, and stop sounds from the sound output unit 80 at the time of performance, and light emission data such as light emission colors and light emission patterns of the light output unit 81. The storage unit 73 has a temporary storage area for temporarily storing read information. The first control unit 71 is connected to a drive unit 74, and the drive unit 74 is connected to an audio output unit 80 and a light output unit 81. The stamp 10 expresses a predetermined rendering by the audio output unit 80 and the light output unit 81 based on information obtained based on both the first identification information on the stamp 10 side and the received second identification information.

The second control unit 72 of the buckle 20 is connected to one second light receiving/emitting element 28e, the power switch 24, the stamp pad switch 26, and the mounting unit rotation switch 27. Further, the second control unit 72 is connected to a storage unit 76. The storage unit 76 stores light emission data such as a light emission color and a light emission pattern of the light output unit 82. The storage unit 76 has a temporary storage area for temporarily storing read information. The second control unit 72 is connected to a drive unit 77, and the drive unit 77 is connected to a light output unit 82. The buckle 20 also represents a predetermined performance based on both the second identification information on the buckle 20 side and the received first identification information.

In addition, in a state where the stamp 10 is attached to the buckle 20, the first control unit 71 executes the rendering output of the first toy body 10 when the first light-receiving/emitting element 18e receives the second operation information from the second light-receiving/emitting element 28e, and transmits the first operation information from the first light-receiving/emitting element 18e to the second light-receiving/emitting element 28e after the execution of the rendering output of the first toy body 10 is completed (after the predetermined rendering output of the first toy body 10 is completed). The second control unit 72 executes the rendering output of the second player body 20 when the second light-receiving and emitting element 28e receives the first motion information from the first light-receiving and emitting element 18e, and transmits the second motion information from the second light-receiving and emitting element 28e to the first light-receiving and emitting element 18e after the execution of the rendering output of the second player body is completed (after the predetermined rendering output of the second player body 20 is completed). In this way, with the setting of alternately transmitting the first operation information from the first light receiving/emitting element 18e to the second light receiving/emitting element 28e and the second operation information from the second light receiving/emitting element 28e to the first light receiving/emitting element 18e, a rotation performance based on the mutual performance can be performed between the stamp 10 and the buckle 20.

(modification 1)

A modified example 1 of the first toy body will be described with reference to fig. 17. The stamp 10 can be a model imitating a vehicle (chariot), for example, among 6 kinds of chess pieces of chess, but by preparing a plurality of stamps 10 having different themes 10e in appearance in the stamp 10 of the model, different performances of other heros can be performed. In this case, not only the subject portion 10e but also the image of the stamp magnet 13 of the stamp lower end portion 12 is changed in accordance with the subject portion 10e. The plurality of stamps 10 have identification information that is independent of each other, and the type of stamp 10 can be identified by transmitting the identification information so as to be carried on an infrared signal.

Further, 5 types of stamps as shown in fig. 17 can be prepared as additional collection items. The stamp shown in fig. 17 includes the aforementioned stamps and is formed into 6 stamp shapes as chess pieces of chess. For example, in addition to the above-described vehicle (chariot) type stamp 10 in which the theme part 10E is the first dinosaur shape, for example, a soldier (army) type stamp 10A having a bird-shaped theme part 10E, a horse (knight) type stamp 10B having a white horse-shaped theme part 10E, an image (lover) type stamp 10C having a second dinosaur-shaped theme part 10E, a queen (queen) type stamp 10D having a plant-shaped theme part 10E, and a king (king) type stamp 10E having a third dinosaur-shaped theme part 10E are set, and images corresponding to the respective theme parts 10E are formed on the stamp magnet at the stamp lower end portion 12, so that it is possible to enjoy the variety of sound, light, and image.

(modification 2)

A modified example 2 of the second toy body will be described with reference to fig. 18 to 20. As shown in fig. 18, in the present modification, a second toy body 20A (hereinafter referred to as a "weapon 20A") in the form of a weapon is configured to simulate the shape of both a gun and a hatchet. The weapon 20A is used as a gun for playing a game or as an axe for playing a game, and in the case of a gun for playing a game, the weapon is used by holding the first grip (first grip) 20g with fingers, while in the case of an axe for playing a game, the weapon is used by holding the second grip (second grip) 20 h. That is, in the case of the axe, the lower end portion of the first grip portion 20g is regarded as the blade portion 20k of the axe.

The ink pad 40 is provided near the first grip portion 20g, for example, above the first grip portion 20 g. The stamp 10 is attached to two positions, namely, a first attachment portion 34a on the upper portion of the stamp pad 40 and a second attachment portion 34b on the front end side of the gun body. The light receiving and emitting unit 18 on the stamp 10 side and the light receiving and emitting unit 28 (not shown) on the weapon 20A side may be provided on the two mounting portions 34a, 34b, but may be provided on the first mounting portion 34a or the second mounting portion 34 b.

As a play method of the second toy body 20A, in a game state as a gun, a first trigger button (first operation portion) 20m as a trigger provided in the first grip portion 20g is used. On the other hand, in the case of the game state as the hatchet, the second trigger button (second operation portion) 20n provided in the second grip portion 20h is used. In addition, since both stamps 10 are in a state in which the stamp lower end portion 12 is easy to handle (the stamp 10 is attached laterally), the stamp lower end portion 12 can be operated by hand.

The image formed on the stamp pad 40 can be erased by operating the first trigger button 20m and the second trigger button 20n, for example. In the weapon 20A, a power switch, a reset switch (not shown), and the like are provided on the side (back side in the drawing) opposite to the side on which the pad 40 is provided.

As shown in fig. 19, the stamp 10 is attached to the muzzle side by sliding and inserting the stamp from the muzzle side with the stamp lower end portion 12 facing the muzzle side. That is, the mounting portion 30 shown in fig. 1 is simply inserted in the opposite direction of the stamp 10, and the mounting portions 34a and 34b have the same insertion structure as the mounting portion 30.

As the locking structure after the stamp 10 is mounted, for example, a structure is adopted in which locking protrusions 38 provided on both the mounting portions 34a and 34b are fitted into engagement recesses 10m (see fig. 5) provided on the back surface side of the stamp 10. For example, a removal button 39 can be used to remove the stamp 10, and the removal button 39 is operated to retract the locking projection 38 from the mounting surface.

In the weapon 20A shown in fig. 18 and 19, a stamp common to the stamps 10 used in the buckle 20 is used, but as shown in fig. 20, a stamp 10G dedicated to a weapon may be used. In fig. 20, a stamp 10G provided at a muzzle (a front end of a body) is a recessed portion 10j recessed in a cylindrical shape, for example, at a portion of a crown switch 14. On the other hand, the second mounting portion 34b includes a cylindrical insertion portion 34j to be fitted into the recess 10j, and is mounted by fitting the recess 10j into the cylindrical insertion portion 34 j. According to such a fitting structure, the shape of the muzzle portion becomes simpler than the structure shown in fig. 19. This makes it possible to provide a feeling of operation such as loading of a bullet to the stamp 10G when the stamp is mounted on the second mounting portion 34 b. Further, a frame lower slide portion 20r that slides in the longitudinal direction of the frame is provided on the lower side of the frame, and for example, an image of the stamp pad 40 may be erased by the sliding movement of the frame lower slide portion 20 r.

Next, an example of a play and a performance of the performance output toy 1 will be described.

(Game using stamp 10 and buckle 20)

In the playing method, for example, voice and light in a hero (hero) change mode, an absolute mode, and a two-step change mode, and a determination sound and light of an absolute after change are output. Here, for example, an example of an altered version of a specific hero will be described.

First, the operator turns on (emits an activation sound) the power switch 24 of the buckle 20 (for example, provided on the back surface side of the buckle) to start the operation. Then, the stamp 10 is turned on as hero before the change (power switch) to the top switch 14. At this time, the sound output unit 80 represents the start sound, and the light output unit 81 emits light so that the light is irradiated from the inside toward the subject portion 10e of the stamp 10. The performance is performed, for example, on an image on which a digital graphic is projected. The first light receiving/emitting element 18e provided in the stamp 10 is turned on (infrared light receiving state).

Thereafter, the stamp 10 is pressed so that the stamp lower end portion 12 of the stamp 10 is aligned with the upper surface (magnetic sheet surface 43) of the stamp pad 40 (see fig. 1). Thereby, an image related to the subject portion 10e is formed on the magnet piece surface 43. By this stamp pressing operation, the stamp lower end portion 12 moves inward of the stamp and presses the stamp pressing switch 15. Then, on the buckle 20 side, the magnetic sheet surface 43 is pressed, and the stamp pad switch 26 (see fig. 8 and 9) is turned on by the pressing member 44 (see fig. 8 and 9) interlocked therewith, so that the light output portion 82 emits light. The impression operation of the stamp 10 is performed as a digital authentication operation, and the force of the stamp theme is performed as an authentication by image formation on the stamp pad 40, and as a result, a performance of appearance effect is performed. Further, the infrared rays of the second light receiving and emitting portion 28e provided in the buckle 20 are turned on (infrared ray emitting state) by the pressing of the stamp 10.

Thereafter, the stamp 10 is attached to the attaching portion 30 of the buckle 20. The first light receiving and emitting element 18e provided on the stamp 10 faces the first light receiving and emitting element 18e provided on the mounting portion 30 of the buckle 20, and the first light receiving and emitting element 18e receives infrared rays emitted from the second light receiving and emitting element 28e, thereby transmitting an operation signal from the buckle 20 to the stamp 10. This causes the stamp 10 to emit light together with the charging sound. On the buckle 20 side, light emission when the stamp pad is pressed by the stamp 10 is continued. The second operation information transmitted from the second light-receiving/emitting element 28e includes second identification information on the buckle 20 and control information such as command information on output of the stamp 10, and the stamp 10 recognizes that the stamp is attached to the buckle 20 and outputs the stamp according to the control information on the second identification information by receiving the second operation information from the first light-receiving/emitting element 18 e.

After the stamp 10 is attached, the stamp 10 is moved (rotated) so as to be largely tilted rightward together with the attachment portion 30. By the movement (rotation) of the mounting portion 30, the mounting portion rotary switch 27 is pressed by the slide portion 51, the infrared signal including new operation information is transmitted from the second light receiving and emitting portion 28e, and the infrared signal from the second light receiving and emitting portion 28e is received by the first light receiving and emitting portion 18e, whereby the stamp 10 performs the performance based on the sound output and the light output such as the shift stick tone and the shift music. After the infrared signal from the second light receiving and emitting unit 28e is received by the first light receiving and emitting unit 18e and the predetermined show output from the stamp 10 is completed, the infrared signal (first operation information) starts to be transmitted from the first light receiving and emitting unit 18e to the second light receiving and emitting unit 28e, and the buckle 20 that receives the infrared signal performs the change light emitting show to complete the change of hero. The first operation information transmitted from the first light-receiving/emitting element 18e includes control information such as first identification information on the stamp 10 and command information on the output of the stamp attached to the buckle 20, and the buckle 20 recognizes the type of the stamp 10 attached to the buckle and outputs the stamp corresponding to the control information on the first identification information by receiving the first operation information from the second light-receiving/emitting element 28 e.

Here, the stamp pad 40 moves (rotates) in a state where the magnetic sheet surface 43 faces forward by the movement (rotation) of the mounting portion 30, and the images of the subject portion 10e of the stamp 10 and the stamp pad 40 are aligned when viewed from the front.

In a standby state (an upright initial position state in a state in which the stamp 10 is attached) after completion of the change mode, for example, when the stamp 10 is operated so as to be tilted again, the magnet piece surface 43 of the stamp pad 40 moves (rotates) so as to face upward, and the display of the magnet piece surface 43 is canceled. At the same time, signals are transmitted and received between the first light receiving and emitting unit 18e and the second light receiving and emitting unit 28e, and a light emitting and sound emitting performance (an absolute performance) is performed in the stamp 10 and the buckle 20. When the stamp 10 is rotated to be tilted after the top switch 14 of the stamp 10 is pressed in this state, signals are transmitted and received between the first light-receiving and emitting portion 18e and the second light-receiving and emitting portion 28e, and light and sound emission performance (two-step absolute performance) is performed in the stamp 10 and the buckle 20.

Here, since the stamp 10 having the different theme part 10e has the first identification information for each theme, it is possible to enjoy the performance of the sound, the light emission color, and the light emission pattern corresponding to the theme of each stamp 10.

(Individual game of stamp 10)

As a separate play method of the stamp 10, for example, by pressing the stamp lower end portion 12, it is possible to perform a light emission play by a predetermined light emission color together with a stamp pressing sound. Further, by pressing the top switch 14, a predetermined color is used to perform light emission along with the stamp start sound corresponding to the theme. When the stamp 10 is removed from the mounting portion 30, a short removal sound is produced.

(weapon-style game)

As a play method when the stamp 10 is attached to the weapon 20A, for example, infrared transmission and reception between the stamp 10 and the weapon 20A can be performed by attaching the stamp 10, and charging sound and light emission can be expressed by exchanging the first operation signal transmitted from the stamp 10 and the second operation signal transmitted from the weapon 20A. The sound and light performances can be expressed not only from the stamp 10 side but also from the weapon 20A side.

For example, the second operation information transmitted from the second light-receiving/emitting element 28e provided in the weapon 20A includes the second identification information related to the weapon 20A and control information such as command information related to the output of the stamp 10, and the stamp 10 recognizes the attachment to the weapon 20A and outputs the stamp 10 with the play corresponding to the control information for the second identification information by receiving the second operation information at the first light-receiving/emitting unit 18 e.

Further, the first operation information transmitted from the first light-receiving/emitting element 18e provided in the stamp 10 includes control information such as first identification information related to the stamp 10 and command information related to the rendering output of the weapon 20A, and by receiving the first operation information at the second light-receiving/emitting unit 28e, the weapon 20A recognizes the type of the mounted stamp 10 and outputs rendering corresponding to the control information for the first identification information. In addition, with regard to the unique weapon extinction mode, a light emission performance is performed in accordance with the gunshot sound and the axe sound by the operation of the first trigger button 20m and the second trigger button 20n. Further, by operating the top switch 14 of the stamp 10 and then operating the first trigger button 20m of the gun or the second trigger button 20n of the hatchet, a unique performance corresponding to the pattern of the main body 10e of the stamp 10 can be performed.

In addition, in any of the morphing mode and the weapon mode, the stamp 10 exhibits a feature corresponding to the theme thereof. For example, various rendering elements such as an installation sound, a standby sound, an unwanted sound, a speech, a light emission color, and a light emission pattern can be changed for each theme, and various rendering patterns can be output.

According to the play output toy 1 of the present embodiment, since the one first light-receiving/emitting element 18e on the stamp 10 side and the one second light-receiving/emitting element 28e of the buckle 20 (including the weapon 20A) are arranged to face each other, alignment is easy and accurate alignment is possible, and thus unique information (first identification information, second identification information, and the like) held by both members can be reliably and accurately transmitted and received. As a result, even if communication is performed using infrared rays, it is possible to realize a very accurate play without communication error based on information obtained from both information of the information unique to the stamp 10 and the information unique to the buckle 20, and it is possible to provide a highly interesting toy as the play output toy 1.

In the play output toy 1 of the present embodiment, it is possible to perform a rotation play based on the mutual play such that the play output of the first toy body 10 is performed when the second motion information from the second light-receiving and emitting element 28e is received as a trigger, and the play output of the second toy body 20 is performed when the first motion information from the first light-receiving and emitting element 18e is received as a trigger, and thus, it is possible to perform a wider variety of plays.

In the play output toy 1 of the present embodiment, the first operation information and the second operation information can be transmitted and received in a state where the stamp 10 is attached to the attachment portion 30 and the positions of the first light receiving and emitting element 18e and the second light receiving and emitting element 28e are fixed, and therefore, the accuracy of transmission and reception can be ensured.

Further, since the first light-receiving-and-emitting element 18e on the stamp 10 side is provided so as to enter the stamp-side opening 18h opened in the mounted surface 10s, and the second light-receiving-and-emitting element 28e on the buckle 20 side is disposed so as to enter the mounting-side opening 28h opened in the mounting surface 30s, the first light-receiving-and-emitting element 18e and the second light-receiving-and-emitting element 28e can be brought into a state of extremely close proximity in a state where the mounting surface 30s and the mounted surface 10s are in contact (a mounted state of the stamp 10), and the accuracy of mutual communication can be further improved.

In the present embodiment, since the mounting portion 30 moves while holding the stamp 10 mounted thereon, the positions of the light receiving and emitting portions 18 and 28 that transmit and receive with respect to the stamp 10 can move while holding the alignment, and thus, the problem of positional deviation between the light receiving and emitting portions 18 and 28 does not occur.

In the play output toy 1 of the present embodiment, since the buckle 20 includes the stamp pad 40 that can display an image corresponding to the theme of the stamp 10 by being brought into contact with one surface of the stamp 10, it is possible to play the relationship between the toys in a video manner, and play with a good play effect can be performed.

In the play output toy 1 of the present embodiment, since an image can be formed on the magnet piece surface 43 of the stamp pad 40 by the stamp magnet 13 provided on the stamp 10 side, it is possible to effectively perform a play in the event of a change in the organ.

Further, since the stamp 10 is provided so that the stamp lower end portion 12 can elastically move with respect to the main body 11, not only can the accuracy of the stamp operation at the time of stamping be ensured and accurate image formation be performed, but also the operational feeling of the stamp operation can be improved.

In the presentation output toy 1 of the present embodiment, the stamp pad 40 can change the orientation of the magnet piece surface 43 with respect to the main body portion 21 by rotation, and can make the magnet piece surface 43 face the front, so that the presentation effect of the image can be improved.

Since the rotation of the stamp pad 40 is performed by the interlocking mechanism 50 interlocked with the rotation of the mounting portion 30, a mechanical performance can be performed, and a performance having a sense of organ can be performed because the rotation of the image display portion 40 is 180 degrees, which is larger than the movement amount (the rotation amount is within 90 degrees) of the mounting portion 30.

In the show output toy 1 of the present embodiment, the stamp pad 40 includes the image erasing member 60, and the image erasing member 60 has the erasing magnet 63a having a planar shape having a size corresponding to the surface of the magnet piece surface 43, and thus the magnetic image formed on the magnet piece surface 43 can be erased by one operation.

Further, since the image erasing by the image erasing means 60 is configured to be interlocked with the rotation of the stamp pad 40, the image forming operation can be improved and the fun can be enhanced in addition to the smart performance.

Although the embodiment of the present invention has been described above, the present invention can be modified as appropriate within the scope of the technical idea thereof. For example, in the above embodiment, the buckle 20 is configured to perform only optical rendering, but may be configured to perform audio rendering in addition to optical rendering.

In the above embodiment, the stamp magnet 13 and the canceling magnet 63a are configured by using a permanent magnet, but the present invention is not limited thereto, and may be configured by using an electromagnet.

In addition, the shape of the show output toy 1 in the above embodiment is not limited to any one shown in the drawings. In addition, although an example of the play in the above embodiment has been described, this is merely an example and is not limited thereto.

Claims (20)

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

the presentation output toy is provided with:

a first toy body capable of performing a show output;

a second player body capable of performing output of a performance;

a control unit that controls the output of the performance;

a first light receiving and emitting element provided in the first toy body, and capable of emitting light and receiving light emitted by the other light receiving and emitting elements; and

a second light receiving and emitting element provided in the second toy body, capable of emitting light and receiving light emitted from the other light receiving and emitting elements,

the first light-receiving and emitting element is capable of transmitting first motion information,

the second light-receiving and emitting element is capable of transmitting second motion information,

the first movement information and the second movement information can be transmitted and received between the first toy body and the second toy body by opposing the light receiving/emitting portion of the first light receiving/emitting element and the light receiving/emitting portion of the second light receiving/emitting element,

the show output can be made based on at least one of the first motion information and the second motion information.

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

the second toy body has a mounting portion to which the first toy body can be mounted,

the first operation information and the second operation information can be transmitted and received in a state where the first toy body is mounted on the mounting portion.

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

the second toy body has a main body portion and an installation portion to which the first toy body can be installed, and by moving the installation portion relative to the main body portion, output of a performance from the first toy body can be performed.

4. A show output toy according to claim 2 or 3,

the first light receiving and emitting element is provided to enter an opening formed in a mounted surface of the first toy body facing the mounting surface of the mounting portion,

the second light receiving and emitting element is provided to enter another opening formed in the mounting surface of the mounting portion of the second toy body.

5. The show output toy of any of claims 1-4,

the first light receiving and emitting element and the second light receiving and emitting element are each constituted by an LED capable of emitting and receiving infrared light.

6. A show output toy according to any one of claims 1 to 5,

the second toy body is provided with an image display unit that can display an image corresponding to the first toy body by being in contact with one surface of the first toy body.

7. The show output toy of claim 6, wherein,

a magnetic field generating unit is arranged on the surface of the first toy body,

the image display unit is provided with a magnetic sheet surface that can be opposed to the one surface.

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

the portion of the first toy body, at which the magnetic field generating unit is provided, is provided to be capable of elastically moving relative to the main body portion of the first toy body.

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

the image display unit is provided so that the orientation of the magnetic sheet surface can be changed with respect to the main body of the second toy body.

10. The show output toy of any of claims 7-9,

the image display unit includes an image erasing means for erasing an image on the surface of the magnetic sheet.

11. The show output toy of claim 10, wherein,

the image erasing member is provided with a magnet.

12. The show output toy of claim 11, wherein,

the image on the surface of the magnetic sheet is erased by the magnet in conjunction with the movement of the image display unit.

13. A performance output toy according to any one of claims 9 to 12,

the second toy body has a main body portion and a mounting portion to which the first toy body can be mounted,

the mounting portion is provided so as to be movable relative to the main body portion while holding the first toy body.

14. The show output toy of claim 13,

the image display unit is configured to be moved by an interlocking mechanism interlocked with the movement of the mounting unit.

15. The show output toy of any of claims 7-14,

the first toy body can perform a tilting motion in the left-right direction,

the image display unit is configured to rotate such that the magnetic sheet surface is switched between an upward orientation and a forward orientation.

16. A performance output toy according to any one of claims 6 to 14, wherein,

the second toy body is configured in a weapon shape having a grip portion,

the image display unit displays an image of the weapon when the weapon is shaped, and the image display unit displays the image of the weapon when the weapon is shaped.

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

the second toy body is in the shape of a weapon having a gun body,

the first toy body is configured to be capable of being disposed at least one position along the gun body,

the image display unit is disposed in the vicinity of the grip unit.

18. The show output toy of any of claims 1-17,

the control part comprises a first control part arranged on the first toy body and a second control part arranged on the second toy body,

the first control unit executes the rendering output of the first toy body with the second motion information received by the first light-receiving and emitting element from the second light-receiving and emitting element as a trigger, and transmits the first motion information from the first light-receiving and emitting element to the second light-receiving and emitting element after the execution of the rendering output of the first toy body is completed,

the second control unit executes the rendering output of the second toy body with the second light-receiving element receiving the first motion information from the first light-receiving element as a trigger, and transmits the second motion information from the second light-receiving element to the first light-receiving element after the rendering output of the second toy body is completed.

19. The show output toy of any of claims 1-18,

the first action information includes first identification information related to the first toy body,

the second action information includes second identification information relating to the second toy body.

20. The show output toy of any of claims 1-19,

the rendering output is a rendering using at least one of light and sound.

Images