CN115155073B - Action toy - Google Patents

Abstract

The invention aims to provide an action toy capable of improving interestingness. An action toy (1) used for a game using articles comprises: an operation unit (10) that can be displaced from a 1 st position to a 2 nd position; and a covering part (22) which can operate to obtain a 1 st state of covering at least part of the operating part (10) located at the 1 st position and a 2 nd state of shifting the direction of exposing the covered operating part (10), wherein the operating part (10) is shifted from the 1 st position to the 2 nd position according to the movement of the article to the 3 rd position, and the covering part (22) is shifted from the 1 st state to the 2 nd state, and the part of the operating part (10) can start the movement or the acceleration movement of the article by shifting to the 2 nd position.

Description

Action toy

Technical Field

The invention relates to an action toy.

Background

Conventionally, there have been assembled toy sets having a movement path for allowing an article to move. For example, patent document 1 discloses a toy capable of constructing various moving paths by using a plurality of assembly elements each having a track portion.

Prior art literature

Patent literature

Patent document 1: japanese patent laid-open No. 2020-124298

Disclosure of Invention

Problems to be solved by the invention

However, patent document 1 does not disclose an operation toy that operates other than the article when the article moves along the movement path. When such a moving path is constructed, by providing an action toy that acts in addition to the object, the interest of the game for constructing the moving path can be further improved.

The main object of the present application is to provide a toy which can improve the interest. Other problems and novel features will become apparent from the description and drawings of this specification.

Solution for solving the problem

The following is a brief description of an outline of a typical embodiment among the embodiments disclosed in the present application.

An action toy according to an aspect of the present invention is an action toy used for a game using an article, the action toy including: an operation unit that can be displaced from a 1 st position to a 2 nd position; and a cover part operable to obtain a 1 st state in which at least part of the operation part located at the 1 st position is covered and a 2 nd state in which the covered operation part is displaced in a direction in which the covered operation part is exposed, wherein the operation part is displaced from the 1 st position to the 2 nd position and the cover part is displaced from the 1 st state to the 2 nd state, and the part of the operation part is operable to start the movement or the acceleration movement of the article by being displaced to the 2 nd position in accordance with the movement of the article to the 3 rd position.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the action toy of the technical scheme, the action toy with improved interestingness can be provided.

Drawings

Fig. 1 is a perspective view showing a state before an operation of an operation toy according to an embodiment.

Fig. 2 is a perspective view showing a state of the action toy according to the embodiment after the action.

Fig. 3A is a perspective view showing an operation unit according to an embodiment.

Fig. 3B is a front view showing an operation unit according to an embodiment.

Fig. 3C is a side view showing an operation portion according to an embodiment.

Fig. 4 is a side cross-sectional view of the action toy shown in fig. 1.

Fig. 5 is a diagram for explaining the operation of the operation toy according to the embodiment.

Fig. 6A is a diagram for explaining the operation of the operation toy according to the embodiment.

Fig. 6B is a diagram for explaining the operation of the operation toy according to the embodiment.

Fig. 7A is a diagram for explaining the operation of the operation toy according to the embodiment.

Fig. 7B is a diagram for explaining the operation of the operation toy according to the embodiment.

Fig. 8A is a diagram for explaining the operation of the operation toy according to the embodiment.

Fig. 8B is a diagram for explaining the operation of the operation toy according to the embodiment.

Description of the reference numerals

1. An action toy; 10. an operation unit; 11. a character part; 12. a base portion; 13. a protruding portion; 14. a fixing part for applying force; 15. a holding section; 20. a storage section; 21. a storage unit main body; 22. a cover part; 23. a connection part; 23a, 23b, shaft barrels; 23c, a shaft core; 23d, an elastic member; 23e, a rotation limiting portion; 24. a held portion; 25. a concave portion; 30. a base section; 31. a base station; 32. a locking part; 33. a locking portion supporting member; 34. a guide; 35. an elastic member.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the drawings. In all the drawings for explaining the embodiments, members having the same functions are denoted by the same reference numerals, and repeated descriptions thereof are omitted. In the drawings, for convenience of explanation, structures and hatching may be omitted or simplified.

(embodiment)

Structure of action toy

Fig. 1 and 2 are perspective views showing an action toy 1 according to the present embodiment, fig. 1 is a view showing a state before an action of the action toy, and fig. 2 is a view showing a state after the action of the action toy. As shown in fig. 1 and 2, the action toy 1 is configured to have an action part 10, a storage part 20, and a base part 30. Hereinafter, each part constituting the action toy 1 will be described in detail.

The operation unit 10 is not particularly limited as long as it can be operated so as to be displaced from the 1 st position to the 2 nd position. The following is an example of the operation unit 10: before the operation, the device is stored in the storage unit 20 (1 st position, P1) as shown in fig. 1, and after the operation, the device flies out of the storage unit 20 and is displaced to the upper part (2 nd position, P2) near the center of the base unit 30 as shown in fig. 2.

The shape of the operation unit 10 is not particularly limited as long as it is provided so as to be displaceable from the 1 st position to the 2 nd position as described above. Fig. 3A to 3C show an example of the operation unit 10. Here, fig. 3A shows a perspective view, fig. 3B shows a front view, and fig. 3C shows a side view. The operation unit 10 illustrated here includes a figure unit 11, a base unit 12, a protruding unit 13, a force application fixing unit 14, and a holding unit 15.

In the operation section 10, the character section 11 is disposed on the upper surface of the base section 12, and the base section 12 has a protruding section 13, and when the base section 12 is disposed on the operation toy, the protruding section 13 protrudes the lower portion of the base section 12 in the displacement direction with respect to the upper portion on the side surface on the 2 nd position side facing the displacement direction. The operation unit 10 is provided with a biasing fixing unit 14 located below the base unit 12 and a holding unit 15 for holding the cover unit 22 in a 1 st state described below.

The figure part 11 may have any shape, and is not particularly limited. Examples of the character part 11 include a human shape, an animal shape, a prop shape, and an article shape such as a vehicle, which simulate a predetermined character. The holding portion 15 may be provided at any position of the operation portion 10, but in the case of providing the figure portion 11, it is preferable to provide the holding portion at the base portion 12 in order to protect the design of the figure portion 11.

The housing portion 20 is a member that is fixed to the base portion 30, houses the operation portion 10 therein, and can cover at least part of the operation portion 10. The housing portion 20 includes, for example, a housing portion main body 21 that can house the operation portion 10, a cover portion 22 that covers the operation portion 10 housed in the housing portion main body 21, and a connecting portion 23 that connects the cover portion 22 to the housing portion main body 21 so as to be displaceable.

The housing portion 20 is operated so as to be able to obtain a 1 st state in which the operation portion 10 located at the 1 st position is covered as shown in fig. 1 and a 2 nd state in which the operation portion 10 is shifted in the direction in which the covered operation portion 10 is exposed as shown in fig. 2. In fig. 1, the storage unit 20 is shown as an example of covering the entire operation unit 10, but may cover at least part of the operation unit 10.

The covered operation portion 10 can be exposed by displacing the housing portion 20 (specifically, the covering portion 22) from the 1 st state to the 2 nd state. At this time, the connection portion 23 between the housing portion main body 21 and the cover portion 22 serves as a fulcrum when the cover portion 22 is displaced. That is, in fig. 1 and 2, the displacement of the cover 22 is the displacement in the rotation direction. The direction of displacement of the cover portion 22 is not limited to this, and may be any direction as long as it can be displaced in a direction in which the operation portion 10 located at the 1 st position is exposed.

The covering portion 22 is shifted from the 1 st state to the 2 nd state, and the covered and hidden operating portion 10 is exposed, so that the entire operating portion 10 is completely uncovered, and clear visual confirmation is possible. The cover 22 may be formed of any of transparent, translucent, and opaque materials. Further, the cover 22 is preferably formed of an opaque material. In this case, in the 1 st state, the operation portion 10 is covered so that visual confirmation from the outside is not possible, and the operation portion 10 can be visually confirmed after the cover portion 22 is displaced, so that the interest can be further improved.

The cover 22 has a held portion 24, and the held portion 24 is used to hold the cover 22 in the 1 st state, and the housing main body 21 has a recess 25 continuous with the housing space. When the cover 22 is in the 1 st state, the held portion 24 is disposed in the recess 25. At this time, the part of the held portion 24 has the following structure: the cover 22 is held in the 1 st state (no displacement to the 2 nd state is generated) by the holding portion 15 of the operation portion 10 located at the 1 st position, and the holding is released by the operation of the operation portion 10. That is, when the holding is released, the cover 22 can be displaced toward the 2 nd state.

The base portion 30 is a member that serves as: the operating portion 10 and the housing portion 20 are held at predetermined positions, and the operating portion 10 and the cover portion 22 can be stably displaced as described above, and can be stably placed on a floor, a table, or the like. The base portion 30 includes a base 31 as a base body thereof, and a locking portion 32 for locking the operation portion 10 at the 1 st position in an upper portion of the base 31. A 2 nd track is provided in front of the locking portion 32 (at the front end of the action toy 1).

The base 31 has the following structure: the height of one end side of the locking portion 32 (the distance from the mounting surface when the base 31 is mounted on the mounting surface) is fixed so that the height of the other end side can be varied (moved up and down with respect to the mounting surface), and the locking portion 32 can be moved up and down to maintain and release the locking of the operating portion 10. More specifically, in fig. 1 and 2, one end side of the locking portion 32 is provided inside the base 31, is held by a rotation support shaft located at a lower portion of the cover 31a, and is supported by a locking portion support member 33 described later. The other end side (the housing portion 20 side) of the locking portion 32 is moved up and down by the rotation of the locking portion support member 33. For example, when the other end side of the locking portion 32 is located above, the operating portion 10 is locked and held at the 1 st position, and when the other end side of the locking portion 32 is located below, the locking of the operating portion 10 is released, and the operating portion 10 can be displaced to the 2 nd position. The locking portion 32 is further provided with a groove 32a for stabilizing the operation direction to the displacement direction of the operation portion 10.

Preferably, the locking portion 32 is further provided to form a track of the operating portion 10 when the locking of the operating portion 10 is released. For example, when the upper surface of the locking portion 32 is formed in advance so as to follow the shape of the lower surface of the base portion 12 of the operation portion 10, it is preferable that the operation portion 10 can stably operate on the upper surface of the locking portion 32.

The structure of the action toy 1 will be further described with reference to fig. 4. Fig. 4 is a side sectional view of the action toy 1 shown in fig. 1. That is, the operation unit 10 is disposed at the 1 st position, and the cover unit 22 is in the 1 st state in a side cross-sectional view.

The biasing fixing portion 14 of the operating portion 10 is connected to the locking portion support member 33 held by the rotating support shaft 31b via the elastic member 35. The locking portion support member 33 has a structure in which an upper portion thereof is held by the rotation support shaft 31b and a lower portion thereof can fix an end portion of the elastic member 35. The elastic member 35 acts in a direction to shorten its length when a tensile load acts, and may be, for example, a tension coil spring. As described above, the elastic member 35 is provided to connect the locking portion support member 33 and the operating portion 10 and apply a tensile load. Therefore, the elastic member 35 is used to apply force in a direction (1 st urging direction) in which the operation portion 10 located at the 1 st position is to be displaced to the 2 nd position.

The elastic member 35 also acts by the locking portion support member 33 so that the other end side of the locking portion 32 is positioned above. In this case, for example, the case where the locking portion 32 is held horizontally can be exemplified. When the locking portion 32 is held horizontally, the end portion on the other end side of the locking portion 32 contacts the side surface of the operating portion 10 (the side surface of the base portion 12), and the operating portion 10 is locked at the 1 st position, and the displacement from the 1 st position to the 2 nd position is restricted.

As described above, the locking portion 32 has one end side held by the locking portion support member 33, but the other end side in contact with the operating portion 10 can be changed in height by moving up and down. That is, when an external force is applied to the locking portion 32, the other end side of the locking portion 32 can be lowered. Therefore, if the external force applied to the locking portion 32 is greater than the elastic force applied by the elastic member 35, the other end side of the locking portion 32 is lowered. The other end side of the locking portion 32 is lowered, and thereby the locking of the operation portion 10 is released, and the operation portion 10 is displaced to the 2 nd position.

Further, a guide 34 is provided on the base 31 so that the locking portion 32 is held at a predetermined inclined position when the other end side of the locking portion 32 is lowered. That is, when the other end side of the locking portion 32 moves downward, the inclined position thereof is fixed to a predetermined position by the guide 34. The guide 34 is fixed to the base 31, and a groove 34a is provided in the same manner as the locking portion 32. The groove 34a is used to stabilize the operation of the operation portion 10 when the operation portion is displaced, similarly to the groove 32a.

While the locking portion 32 is described above as being capable of maintaining and releasing the locking by moving the other end up and down, the present embodiment is not limited to such a specific embodiment. As long as the locking of the operation unit 10 can be maintained and released, the locking unit 32 may be moved in any direction such as a movement of left and right, front and rear, tilting, or the like. In addition to the case where the locking of the operation unit 10 is directly maintained and released by the locking unit 32, the locking of the operation unit 10 may be indirectly maintained and released.

Next, the housing main body 21 of the housing 20 and the cover 22 are connected by a connection portion 23, and this connection structure can be configured as a hinge structure having a shaft tube 23a fixed to the housing main body 21, a shaft tube 23b fixed to the cover 22, and a shaft core 23c provided inside these shaft tubes 23a and 23b and capable of rotating the cover 22 with respect to the housing main body 21, as shown in fig. 4, for example.

Preferably, the connecting portion 23 is configured as described above, and the cover portion 22 is displaceable from the 1 st state (fig. 1) to the 2 nd state (fig. 2) to expose the cover portion of the operating portion 10, and the connecting portion 23 is biased to generate the displacement in the 1 st state.

In order to apply the force in this way, for example, an elastic member 23d may be provided in the connection portion 23. The elastic member 23d used herein is preferably an elastic member capable of imparting torsional elasticity to the housing portion main body 21 and the cover portion 22, and may be a torsion coil spring, for example. Thereby, the cover 22 is biased in the direction to be displaced to the 2 nd state (the 2 nd biasing direction) in the 1 st state. In this case, the urging direction is upward in the 1 st state, but the urging direction is changed every time the cover 22 is displaced in the rotation direction around the connecting portion 23 (the shaft core 23 c).

Further, the connecting portion 23 preferably has a rotation restricting portion 23e for preventing the cover portion 22 from rotating excessively when rotated. By the rotation restricting portion 23e, the cover portion 22 can be displaced by only a required amount, and in this case, the space required for installing the action toy 1 can be minimized.

Action of action toy

Next, the operation of the operation toy 1 will be described with further reference to fig. 5 to 8A. Fig. 5 to 8A are diagrams for explaining the operation of the operation toy 1.

First, as preparation for operating the operation toy 1, a configuration for moving the article to a predetermined position (3 rd position) is adopted. Fig. 5 shows, as the action toy 1, a diagram further including the 1 st track 41, in which the 1 st track 41 is shown in the middle of the movement of the article 100 along the track. Further, the example in which the action toy 1 is connected to the 3 rd rail 42 of a member different from the action toy 1 via the 2 nd rail provided in front of the locking portion is shown.

The article 100 is exemplified as a sphere that can be moved by rolling, but the shape is not limited to this as long as a predetermined movement is possible.

The 1 st track 41 is provided near a predetermined position (3 rd position, P3) of the action toy 1, and is configured to guide an article moving along the track of the 1 st track 41 to the predetermined position (3 rd position, P3). Fig. 5 illustrates a case where the base portion 30 is provided near the center.

The 2 nd track is configured to determine a moving direction of the article 100 that starts moving or accelerates moving due to the displacement of the operating portion 10 of the operating toy 1 when it moves further along the track. Fig. 5 shows an example of an extended portion (tip of the action toy 1) provided in the displacement direction of the action part 10. The 2 nd track may also be coupled to the 3 rd track 42 to enable further movement of the article 100.

Next, with reference to fig. 6A to 8B, description will be given of how the operation toy 1 operates based on the article 100 guided to the 3 rd position.

As shown in fig. 5, the article 100 moving on the 1 st track 41 is guided to the 3 rd position of the action toy 1, and moves upward of the action toy 1 (fig. 6A). Here, the article 100 located at the 3 rd position is denoted as "100 (P3)". The article 100 is placed near the center of the locking portion 32, but the end of the locking portion 32 that locks the operating portion 10 is lowered downward due to an impact such as the weight of the article 100 or the falling of the article 100 (fig. 6B). The locking of the operation portion 10 is released by the operation of the locking portion 32, and the operation portion 10 starts to be displaced in the urging direction (arrow direction) urged by the elastic member 35. Here, the operation unit 10 located at the 1 st position is denoted as "10 (P1)".

As described above, the operation portion 10 includes the holding portion 15, and the holding portion 15 holds the cover portion 22 in the 1 st state before the displacement is started. For example, as shown in fig. 7A, the holding of the cover portion 22 by the holding portion 15 can be exemplified as the following arrangement: the part (upper part) of the held portion 24 provided in the cover portion 22 is pressed by the holding portion 15. Thereby, the upward movement of the cover 22 is restricted, and the 1 st state is maintained.

Then, as described in fig. 6B, when the locking is released, the operation unit 10 starts to shift toward the 2 nd position, but at this time, the holding unit 15 is also shifted integrally with the operation unit 10 (in fig. 7A, shifted to the left). Then, the held portion 24 is released from the holding by the holding portion 15, and the cover portion 22 starts to be displaced in the urging direction (arrow direction) in which the elastic member 23d is urged (fig. 7B).

When the cover 22 is displaced from the 1 st state to the 2 nd state, the cover 22 existing in the displacement direction of the operation unit 10 disappears without interfering with the movement of the operation unit 10, and the operation unit 10 starts to be displaced toward the 2 nd position.

When the operation unit 10 is displaced, the article 100 is present in the middle thereof, and the operation unit 10 contacts the article 100 (fig. 8A). The operation unit 10 is biased by the elastic member 35 and is directly displaced to the 2 nd position, and the article 100 starts to move further in the arrow direction by collision with the biased operation unit 10 (fig. 8B). Here, the operation unit 10 located at the 2 nd position is denoted as "10 (P2)".

As described above, the base portion 12 of the operation portion 10 has the protruding portion 13 protruding in the displacement direction from the upper portion on the side surface on the 2 nd position side facing the displacement direction. At this time, it is preferable that the protruding portion 13 be brought into contact with the article 100 by the displacement of the operation portion 10, and the article 100 be started to move or accelerated.

In this case, it is preferable to configure: in this displacement direction, the most protruding portion of the character part 11 in the displacement direction of the operation part 10 protrudes with respect to the upper part of the base part 12 (Lb > 0 in fig. 3C). Further, the protruding portion 13 is preferably configured to protrude from the image portion 11 (La > 0 in fig. 3C). That is, it is preferable that the protruding portion 13 is most protruding, the image portion 11 is next, and the upper portion of the base portion 12 is next.

By adopting such a structure, the character part 11 is not actually in contact with the article 100 (the protruding part 13 is actually in contact), but it can be recognized that the character part 11 is moving the article 100. This can prevent abrasion of the image portion 11, peeling of the paint, and the like due to contact with the article 100.

The protruding portion 13 is configured to fit into a groove 32a provided in the locking portion 32, and the groove 32a functions as a guide groove for stabilizing the operation of the operation portion 10 when the position is shifted from the 1 st position to the 2 nd position. The guide 34 is also provided with a groove 34a, and a portion connecting the base portion 12 of the operation portion 10 and the biasing fixing portion 14 is configured to fit into the groove 34a, and the groove 34a functions as a guide groove for stabilizing the operation of the operation portion 10, as in the groove 32a.

In this case, the length of the groove 32a and/or the groove 34a may be arbitrarily set. By setting these lengths to predetermined lengths, the displacement of the operation unit 10 is restricted at the terminal end, and the displaceable position can be determined.

By the above-described operation, the article 100 is biased in the displacement direction from the 3 rd position by the displacement of the operation unit 10, and can start to move further along the track of the 2 nd track and the track of the 3 rd track 42 provided on the extension line of the displacement direction.

The example in which the article 100 is stopped at the 3 rd position (the movement is once stopped) and is restarted by the collision with the operation unit 10 after reaching the 3 rd position is described above with reference to the drawings, but the present invention is not limited thereto.

That is, the article 100 reaches the 3 rd position, and the movement of the operation unit 10 from the 1 st position to the 2 nd position and the movement of the cover unit 22 from the 1 st state to the 2 nd state are generated in response thereto, but a case in which the article 100 stops at a position different from the 3 rd position and starts moving again by collision with the operation unit 10, or a case in which the article 100 moves further without stopping and increases the moving speed (acceleration) by collision with the operation unit 10 can be exemplified.

(modification)

The configuration and operation of the operation toy 1 are described, but the operation toy 1 may be configured such that the 1 st track 41 and the 2 nd track described above are the operation toy 1, the 1 st track 41 and the 2 nd track described above may be configured as other members, and the following configuration may be also employed. The 1 st track 41 is provided near the predetermined position (3 rd position, P3) of the action toy 1 as described above, and is configured to guide the article moving along the track of the 1 st track 41 to the predetermined position (3 rd position, P3).

In this case, the 1 st track 41 and the 3 rd track can be provided separately. In this case, the 1 st track 41 and the 3 rd position are physically separated from the 3 rd position of the action toy 1 by the track for rolling the article of the 1 st track 41, and for example, as shown in fig. 5, a case where the track of the 1 st track 41 is separated in the height direction from the 3 rd position, a case where the track of the 1 st track 41 and the 3 rd position are separated in a plane, and the like can be cited.

In the case of being provided separately in this way, since the article 100 reaches the 3 rd position in a state having energy due to falling, air movement, or the like, the state that the article has reached the 3 rd position can be transmitted with a strong force due to the impact at this time, and the operation of the subsequent operation unit 10 can be reliably performed.

However, if the article 100 is provided separately or if the article 100 is not provided separately but the moving speed is too high, the article 100 may deviate from the originally predetermined moving path, and it is conceivable that the article 100 does not reach the 3 rd position and the operation unit 10 does not operate. Therefore, in order to reliably move the article 100 from the 1 st track 41 to the 3 rd position, the 1 st track 41 is preferably provided with a shape that suppresses the movement speed of the article 100.

By having such a shape, the article 100 moving on the 1 st track 41 is limited to a predetermined moving speed or less when the speed is high, and can be reliably moved to the 3 rd position. Examples of such a shape include a shape such as an S-curve, a crank, etc., a shape such as an upward slope, a step provided up and down, etc., and a shape that can suppress the movement speed of the article 100 by changing the movement direction in this way is preferable.

The 2 nd track is configured to determine a moving direction along the track of the article 100 that starts moving or accelerates moving by the displacement of the operation unit 10 of the operation toy 1. And further continues to move through the 3 rd track 42 connected to the 2 nd track.

At this time, when the article 100 moved to the 3 rd position once stops and starts to move in the displacement direction by the displacement of the operation unit 10, the 2 nd track is preferably provided in the displacement direction of the operation unit 10. With this arrangement, the article 100, which starts moving by the operation unit 10, can smoothly continue moving further along the 2 nd track.

In addition, the movement direction of the article 100 in the track of each other may be the same or different for the 1 st track 41 and the 2 nd track, but is preferably different. The 1 st track 41 is a moving direction (a moving direction toward the 3 rd position) immediately before the article 100 leaves the 1 st track 41, and the 2 nd track is a moving direction (a moving direction away from the 3 rd position) in which the 2 nd track receives the article 100 moving from the 3 rd position.

In the 1 st track 41 and the 2 nd track described above, the moving direction of the article 100 is different, and thus the moving direction of the article 100 can be changed by the action toy 1, and the interest can be improved.

The invention completed by the present inventors has been specifically described above based on the embodiments, but the invention is not limited to the above embodiments, and various modifications can be made without departing from the gist thereof.

Claims (17)

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

the action toy comprises:

an operation unit that is capable of moving from the 1 st position to the 2 nd position;

a 3 rd rail extending in a displacement direction of the operation section and configured to be movable by the article; and

a covering part which performs an operation to obtain a 1 st state of covering at least part of the operation part located at the 1 st position and a 2 nd state of shifting to a direction of exposing the covered operation part,

according to the movement of the article to the 3 rd position on the 3 rd track, the action part is shifted from the 1 st position to the 2 nd position, and the cover part is shifted from the 1 st state to the 2 nd state,

the part of the action part can start moving or accelerating the article on the 3 rd track by shifting to the 2 nd position.

2. The action toy of claim 1, wherein,

and a step of displacing the operation portion in the 1 st urging direction from the 1 st position to the 2 nd position at the 1 st position, and the operation portion being displaced in the 1 st urging direction in accordance with the movement of the article to the 3 rd position.

3. The action toy according to claim 2, wherein,

the operation portion is in a state of being locked by the locking portion at the 1 st position, and the locking portion for locking the operation portion is disengaged according to the movement of the article to the 3 rd position, so that the operation portion is displaced in the 1 st biasing direction.

4. An action toy according to any one of claims 1 to 3, wherein,

in the 1 st state, the cover is biased in the 2 nd biasing direction, which is the direction in which the cover is displaced from the 1 st state to the 2 nd state, and the cover is displaced in the 2 nd biasing direction in accordance with the movement of the article to the 3 rd position.

5. The action toy of claim 4, wherein,

according to the movement of the movement portion displaced in accordance with the movement of the article to the 3 rd position, the cover portion is displaced in the 2 nd urging direction,

the operating portion has a holding portion for holding the covering portion in the 1 st state.

6. The action toy of claim 4, wherein,

the displacement of the cover is a displacement in the rotational direction.

7. An action toy according to any one of claims 1 to 3, wherein,

in the 1 st state, the covered operation portion is covered by the covering portion so as not to be visually confirmed from outside.

8. An action toy according to any one of claims 1 to 3, wherein,

the action part comprises an image part.

9. The action toy of claim 8, wherein,

the operation unit further includes a base unit for fixing the character unit, and a holding unit for holding the cover unit in the 1 st state is provided in the base unit.

10. The action toy of claim 9, wherein,

on the side surface on the 2 nd position side, the lower portion of the base portion protrudes in the displacement direction of the operation portion with respect to the upper portion.

11. The action toy of claim 10, wherein,

in the displacement direction of the action portion, the most protruding portion of the figure portion protrudes with respect to the upper portion of the base portion.

12. An action toy according to any one of claims 1 to 3, wherein,

the 3 rd track forms a track for the movement of the action part,

the operating unit is capable of contacting the article in response to the displacement to the 2 nd position.

13. An action toy according to any one of claims 1 to 3, wherein,

a 1 st track for guiding the article to the 3 rd position is provided near the 3 rd position, and the 1 st track is capable of moving the article.

14. The action toy of claim 13, wherein,

the 1 st track is disposed apart from the 3 rd position.

15. The action toy of claim 14, wherein,

the action toy has a 2 nd track for further continued movement of the item moving along the 3 rd track.

16. The action toy of claim 15, wherein,

the direction in which the article moves on the 2 nd track is different from the direction in which the article moves on the 1 st track.

17. An action toy according to any one of claims 1 to 3, wherein,

the article is a sphere that can be moved in a track by rolling.