CN113559523A - Toy component, joint mechanism, human-shaped toy, and decorative component - Google Patents

Abstract

The invention relates to a toy component, a joint mechanism, a human-shaped toy and a decoration component. Provided is a toy component which can be easily assembled even when a part made of a metal material is used. A toy component, characterized in that the toy component comprises: a 1 st member formed of a resin material; a 2 nd member bonded to the 1 st surface of the 1 st member and formed of a metal material; and a 3 rd member bonded to the 2 nd surface of the 1 st member and formed of the metal material, the 1 st member being at least partially covered by the 2 nd member and the 3 rd member when the 2 nd member and the 3 rd member are bonded to the 1 st member.

Description

Toy component, joint mechanism, human-shaped toy, and decorative component

Technical Field

The invention relates to a toy component, a joint mechanism, a human-shaped toy and a decoration component.

Background

Patent document 1 describes a plastic mold in which plastic parts are assembled with two inner and outer parts as a set. The plastic parts are formed with projections and depressions, and the parts are joined by combining them.

Documents of the prior art

Patent document

Patent document 1: japanese examined patent publication (Kokoku) No. 2-5103

Disclosure of Invention

Problems to be solved by the invention

In the case of a component formed of a metal material, it is not possible to easily perform bonding using irregularities as in a plastic component due to the properties of the material.

The invention aims to provide a toy component and the like which can be easily assembled even when parts made of metal materials are used.

Means for solving the problems

The invention relates to a toy component, which is characterized in that,

the toy component includes:

a 1 st member formed of a resin material;

a 2 nd member bonded to the 1 st surface of the 1 st member and formed of a metal material; and

a 3 rd member bonded to the 2 nd surface of the 1 st member and formed of the metal material,

the 1 st member is at least partially covered by the 2 nd and 3 rd members when the 2 nd and 3 rd members are joined with the 1 st member.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the present invention, it is possible to provide a toy component and the like that can be easily assembled even when a part made of a metal material is used.

Drawings

Fig. 1 is a diagram showing an example of a human-shaped toy according to the embodiment.

Fig. 2 is a perspective view of a head of a human-shaped toy corresponding to the embodiment and a view showing an appearance of each part of the head.

Fig. 3 is a perspective view of a body portion of a human-shaped toy corresponding to the embodiment and a view showing an external appearance of each part of the body portion.

Fig. 4 is a perspective view of an arm portion of a human-shaped toy corresponding to the embodiment and a view showing an appearance of each part of the arm portion.

Fig. 5 is a perspective view of the waist portion of the human-shaped toy corresponding to the embodiment and a view showing the appearance of each part of the waist portion.

Fig. 6 is a perspective view of a leg portion of a human-shaped toy corresponding to the embodiment and a view showing an appearance of each part of the leg portion.

Fig. 7 is a diagram for explaining a state where the surface is continuous according to the embodiment.

Fig. 8 is a diagram showing a configuration example of a part of the outer member of the leg portion of the human-shaped toy corresponding to the embodiment.

Fig. 9 is a diagram showing an example of the structure of a decorative member of a human-shaped toy according to the embodiment.

Detailed Description

Hereinafter, embodiments will be described in detail with reference to the drawings. The following embodiments do not limit the invention according to the claims, and all combinations of features described in the embodiments are not essential to the invention. Two or more of the plurality of features described in the embodiments may be arbitrarily combined. Note that the same or similar components are denoted by the same reference numerals, and redundant description thereof is omitted. In the drawings, the vertical, horizontal, inward, outward, and vertical directions with respect to the paper surface are defined as vertical, horizontal, inward, and vertical directions of the member (or component) of the present embodiment, and are used in the description herein.

First, fig. 1 shows an example of the appearance of a human-shaped toy according to the present embodiment. Fig. 1 is a schematic view showing a human-shaped toy 100 of an embodiment. The human-shaped toy 100 includes model members such as a head 110, a trunk 111, arm portions 112, a waist 113, and leg portions 114, and is configured by combining these model members. At least a part of each of the portions 110 to 114 is supported so as to be rotatable (or swingable) with respect to an adjacent portion. For example, the head 110 is supported to be rotatable with respect to the body 111, and the arm 112 is supported to be rotatable with respect to the body 111. In this manner, joint structures are provided at respective portions of the human-shaped toy 100, and a user (for example, the owner of the human-shaped toy 1) can set the human-shaped toy 100 in a desired posture. In fig. 1, although not shown, one or more decorative members may be attached to the human-shaped toy 100. The decorative member can be configured in the same manner as the model member of the human-shaped toy described in the present embodiment. As the decorative member, for example, there are weapons such as a sword and a gun, protective equipment such as a shield, and the like.

In the present specification, the positional relationship of each part is described as front (front), rear (rear), left (left side), right (right side), upper (upper), lower (lower), and the like in some cases, but these expressions are relative expressions with respect to the human-shaped toy 1. For example, the front corresponds to the front side of the human toy 100 and the back corresponds to the back side of the human toy 100.

In the present embodiment, each model member constituting the human-shaped toy 100 includes an inner part made of thermoplastic resin such as ABS and an outer part made of a metal material covering the outside of the inner part. The outer parts are not substantially directly joined to each other, but the relative positions of the plurality of outer parts are determined by the same inner part by joining the outer parts to the inner part. When the external parts are bonded to each other, they may be bonded in advance by a sintering process.

In the embodiments described below, ABS is exemplified as a molding material for internal parts, but the invention is not limited thereto, and the use of other materials (polyethylene, polystyrene, thermosetting resin, etc.) is not excluded. The metal material constituting the exterior part may be an alloy mixed with titanium, aluminum, or rare earth yttrium oxide, for example, but is not limited thereto, and may be another kind of alloy having at least some or all of the combinations different from each other, or may be a single metal such as aluminum.

The molding method of the internal part is the same as the molding method of a general plastic mold, but the molding method of the external part can be performed as follows, for example. First, raw material powders of titanium, aluminum, and rare earth yttrium oxide are mixed with a binder to produce particles. After the particles are heated and melted, pressure-injected into a mold, and solidified to be molded, the binder is removed by sintering, thereby completing the exterior part. Further, the parts to be joined are previously combined and then sintered, whereby the integrated external parts can be joined. Further, since the outer part shrinks by about 12% during sintering, there is a possibility that the sintering result varies. However, such deviations can also be eliminated in the following way: the inner part absorbs the variation of the outer part by bonding the metal outer part and the resin inner part instead of bonding the finished outer parts to each other. In addition, since the shrinkage ratio of the resin component is less than 1%, it can be almost ignored.

Further, since there is a possibility that the part shape is deformed when the external part is sintered, the external part is configured to suppress the deformation. In this case, since the external part is not hardened as it is but the material is temporarily softened during sintering, the external part may partially sag due to gravity depending on the shape of the part and break the shape. In general, an external component is mounted on a flat surface (mounting surface) and sintered, but in this case, the external component needs to be mounted in a well-balanced manner without being lifted from the mounting surface, and if the external component cannot be mounted well, the shape of the component collapses during sintering. In addition, when the weight of the part is too heavy, if an excessive stress is locally applied, the part may be bent during sintering.

Therefore, the external part according to the present embodiment is configured to have a flat surface so that the external part is not lifted from the installation surface at the time of sintering and is installed in a well-balanced manner. For example, the joint surface between the external parts may be configured to be flat and provided by the joint surface, or at least a part of the external appearance of the external parts may be configured to be flat and provided by the flat surface. Further, the projection for support can be provided inside so that deformation at the time of sintering due to local application of weight (stress) to a part does not occur. The protrusion can also be used in connection with an internal part. Further, the external component may be supported by the flat surface of the inner protrusion and the outer peripheral portion or the edge portion during sintering. At this time, the end of the protrusion and the flat surface form the same plane.

Next, a configuration example of the dummy part of the head 110 will be described with reference to fig. 2. Fig. 2 includes a perspective view showing an appearance of the head 110 and a view showing appearances of internal parts and external parts constituting the head 110.

The head 110 includes outer parts 201, 202, 203 formed of a metal material and an inner part 205 formed of a resin material. The external component 201 is a component disposed on the front surface side of the head 110, and the external component 202 is mounted in advance. The external component 203 is a component disposed on the back side of the head 110, which is the surface opposite to the external component 201. The internal component 205 is a component for connecting to the body portion 111, with the external component 201 attached to the front side and the external component 203 attached to the back side on the opposite side, and fig. 2 includes a view showing the external appearance of the front side, the back side, and the bottom side. Further, in the perspective view of the head appearance shown on the upper side of fig. 2, the internal part 205 is not shown, but the internal part 205 is sandwiched by the external parts 201 and 203 and is housed inside them. The exterior parts 201 and 202 are bonded in advance by sintering at the time of their production. The external component described hereinafter may be formed as one component by joining a plurality of components by sintering.

The dashed line 204 of the head 110 shows the interface of the outer parts 201 and 203. The outer parts 201 and 203 are joined to the inner part 205 in a continuous manner at the front and rear surfaces of the interface 204. Here, the term "surface continuity" refers to a state where no distinct step (fig. 7B) and no gap (fig. 7C) are formed at the boundary 703 between the external parts 701 and 702 to be connected as shown in fig. 7, and the surface of the external part on the one side and the surface of the external part on the other side are smoothly connected (fig. 7 a). The same applies to the following. However, in the present embodiment, when the external parts are coupled, the external parts are not necessarily continuous with each other before and after the connection boundary.

The outer part 201 on the front surface side of the head part 110 has coupling holes 211, 212 for coupling with the protrusions 221, 222 on the front surface of the inner part 205. The outer part 203 on the back side of the head 110 has protrusions 231, 232 for coupling with the coupling holes 223, 224 on the back side of the inner part. The surface 213 of the external part 201 and the surface 233 of the external part 203 are flat surfaces, and function as surfaces for supporting the external parts 201 and 203, respectively, when the external parts 201 and 203 are provided during sintering. In addition, the joining surfaces of the exterior parts 201, 203 and the interior part 205 are formed, and the boundary 204 is formed at the end portions thereof.

The inner 205 has a connection hole 225 at the bottom, and the inner 205 is coupled to a spherical protrusion provided on the body 111 via the connection hole 225. This allows the head 110 to be oriented in any direction with respect to the body 111.

Next, a configuration example of the model member of the body portion 111 will be described with reference to fig. 3. Fig. 3 includes a perspective view showing an external appearance of the body portion 111 and a view showing external appearances of internal parts and external parts constituting the body portion 111.

The trunk portion 111 includes outer parts 301, 302, 303 formed of a metal material and an inner part 304 formed of a resin material. The external component 301 is a component disposed on the front surface side of the body portion 111, and the external component 302 is a component disposed on the back surface side of the body portion 111, which is the surface opposite to the external component 301. The outer member 303 is a member located at a position below the outer members 301 and 302 and used for connection with the waist portion 113. The internal component 304 is a component to which the external component 301 is attached on the front side, the external component 302 is attached on the back side on the opposite side, and the external component 303 is attached on the bottom side and is used for securing connection with the head portion 110 at the top side. In fig. 3, the internal component 304 includes a diagram showing the external appearance of the front surface side and the back surface side. In the perspective view of the trunk appearance shown in the upper side of fig. 3, the coupling portion 350 of the inner part 304 to the head 110 and the coupling portions 351 and 352 to the arm 112 are exposed to the outside of the outer part.

As for the trunk portion 111, also, the outer parts 301, 302 are joined with the inner part 304 before and after the boundary of the outer parts 301 and 302, so that the surfaces of the outer parts 301 and 302 are formed continuous.

The outer part 301 on the front side of the body 111 has protrusions 311 to 314 for coupling with coupling holes 341 to 344 on the front surface of the inner part 304. The outer component 302 on the back side of the body 111 has protrusions 321 to 324 for coupling with coupling holes 346 to 349 on the back side of the inner component. The outer member 303 has a receiving hole 331, and the receiving hole 331 is configured to receive an end portion including the bottom surface of the inner member 304. Approximately half of the lower side of the inner part 304 is received and fixed in the receiving hole of the outer part 303. Although not shown in fig. 3, the receiving hole 331 penetrates the bottom surface of the outer member 303, and the bottom surface of the inner member 304 is exposed from the bottom surface of the outer member 303. The bottom surface of the external part 303 functions as a mounting surface for the external part 303 during sintering.

The inner part 304 has a coupling portion 350 for rotatably coupling with the head 110, the coupling portion 350 having a spherical shape. Further, the left and right projections 351, 352 are provided, and the arm 112 is rotatably coupled by these projections 351, 352. Although not shown in fig. 3, a coupling hole for coupling with the waist portion 113 is provided in the bottom surface of the inner member 304. The coupling hole is coupled to a protrusion 517 of the inner 501 of the waist 113, which will be described later.

Next, a configuration example of the mold member of the arm portion 112 will be described with reference to fig. 4. Fig. 4 includes a perspective view showing an appearance of the arm portion 112 and a view showing an appearance of internal parts and external parts constituting the arm portion 112.

The arm portion 112 includes outer parts 401, 403, 407, 408 formed of a metal material and inner parts 402, 404, 405, 406 formed of a resin material. In the front view of the outer appearance of the arm portion shown in the center of fig. 4, the internal parts 404, 405, and 406 constitute an elbow joint of the arm portion 112, and the joint portion of the internal part 404 is sandwiched by the internal parts 405 and 406, so that the joint portion of the internal part 404 is rotatably joined to the internal parts 405 and 406.

The outer part 401 has a protrusion, not shown, therein, and the protrusion is inserted into the coupling hole 421 of the inner part 402 to couple the outer part 401 and the inner part 402. The inner part 402 further has, on the left side surface, unshown coupling holes for rotatably coupling to the coupling portions 351 and 352 of the body portion 111, and further has, on the bottom surface, unshown coupling holes for rotatably coupling to the protrusion portion 441 of the inner part 404.

The exterior part 403 is a part that forms the appearance of the upper arm part in the arm part 112, and has a hole penetrating through the interior thereof, and the opening 431 is an opening on the upper side of the penetrating hole. The end 432 having the opening 431 is formed as a flat surface and can function as a surface on which the exterior part 403 is provided during sintering. The opening 442 of the inner part 404 is exposed from the opening at the lower end of the outer part 403 where it joins the inner parts 405, 406.

By receiving the inner part 404 in the through hole of the outer part 403, the side surface thereof is covered and the top and bottom are exposed from the outer part 403. The inner 404 further has an opening 442 on the lower side, the opening formed by the projection 451 of the inner 405 and the projection 461 of the inner 406 are coupled via the opening 442, and the inner 405 and 406 sandwich the inner 404. Thus, the inner parts 405 and 406 are coupled to be rotatable with respect to the inner part 404.

The inner parts 405 and 406 are received in the outer part 407 so that their sides are covered and the top and bottom are exposed. A coupling hole for coupling with the protrusion of the fist part 408 is provided at the bottom of the inner part 405. The exterior part 407 is a part that forms the appearance of the forearm part in the arm part 112, and has a hole penetrating therein, and the opening 471 is an opening on the upper side of the penetrating hole. The side surface 472 of the external part 407 has a flat surface on at least one surface, and can function as a surface on which the external part 407 is provided during sintering. The bottom of the inner part 405 is exposed from an opening in the lower end of the outer part 407 where it is joined with the fist part 408. The fist part 408 is a part imitating the shape of a human-shaped hand, and is provided with an opening 481 for connecting external parts.

Next, a configuration example of the model member of the waist portion 113 will be described with reference to fig. 5. Fig. 5 includes a perspective view showing the appearance of the waist portion 113 and a view showing the appearance of internal parts and external parts constituting the waist portion 113.

The waist portion 113 includes outer parts 502, 503, 504, 505, 506, 507 formed of a metal material and an inner part 501 formed of a resin material. In the perspective view of the waist appearance shown in the center of fig. 5, the outer members 502 to 507 have a symmetrical arrangement and structure in the left-right direction and the front-back direction, and the inner member 501 is also formed in the front-back and left-right direction.

The internal component 501 has left and right protrusions 511 and 512, and the external component 504 and the internal component 501 can be coupled by engaging the protrusions 511 with coupling holes 541 of the external component 504. The outer member 505 can be similarly coupled to the inner member 501 via the protrusion 512.

The inner member 501 has front and rear projections 513 and 514 for coupling with the outer members 502 and 506. The protrusions 513 and 514 are coupled to coupling holes provided on the inner side of the outer member 502. In fig. 5, only the front surface protrusions 513 and 514 are shown, but two protrusions are similarly arranged on the rear surface. The rear projection is coupled to the coupling holes 561, 562 of the external component 506. At this time, the shaft portion 571 of the external part 507 is locked by the recessed portion 563 of the external part 506, and the external part 507 is coupled to the external part 506 so as to be rotatable with respect to the external part 506 with the shaft 571 being a rotation shaft. Similarly, the outer member 503 is coupled to the outer member 502 so as to be rotatable with respect to the outer member 502 with the shaft 531 as a rotation shaft.

The inner part 501 also has protrusions 515, 516 for engaging the leg 114. The leg portions 114 are joined to the waist portion 113 by the projecting portions 515 and 516. Further, a protrusion 517 for coupling with a coupling hole in the bottom surface of the outer member 303 of the body 111 is provided on the top. The body portion 111 and the waist portion 113 are rotatably coupled by coupling the protrusion 517 to a coupling hole in the bottom surface of the inner member 304.

Next, a configuration example of the mold member of the leg portion 114 will be described with reference to fig. 6. Fig. 6 includes a perspective view showing the appearance of the leg portion 114 and a view showing the appearance of the internal parts and the external parts constituting the leg portion 114.

The leg portion 114 includes outer parts 603, 604, 605, 606, 607, 608, 609, 610, 612 formed of a metal material and inner parts 601, 602, 611 formed of a resin material.

In the present embodiment, the joints of the leg 114, i.e., the knee joint and the ankle joint, are fixed. This is because the weight of the component is heavier than that of the component using a general plastic material because the component is made of a metal material. The position of the human-shaped toy 100 can be stably maintained by fixing the knee and ankle joints of the leg portion 114.

The inner parts of the leg portion 114 are constructed by joining the inner parts 601 and 602. In fig. 6, two internal parts are combined, but three or more internal parts may be combined. By combining a plurality of parts, the thickness of the inner part can be increased to improve the strength. The inner part 602 has an opening 621 formed therein and is configured to be engageable with the protrusion 515 or 516 of the inner part 501 of the waist portion 113. Further, the lower side ends 613 and 622 of the inner members 601 and 602 are joined to each other and inserted into an opening in the top of the inner member 611 constituting the ankle portion, thereby joining the inner member 611. The inner part 611 is joined with the outer parts 610, 612.

The inner members 601 and 602 are connected to the outer members 603 to 609, respectively. These external components have coupling holes to be coupled to the protrusions formed on the surfaces of the internal components 601 and 602, or protrusions to be coupled to the coupling holes formed on the surfaces of the internal components 601 and 602.

Also for the leg portion 114, the exterior parts 603, 604 are joined to the interior parts 601, 602 in such a manner that the surfaces of the exterior parts 603 and 604 are formed continuously before and after the boundary of the exterior parts 603 and 604. The same is true for other external parts.

The leg portion 114 includes components such as the external components 608 and 609, which are arranged to sandwich the internal component from the left and right, in addition to components such as the external components 603 and 604, which are arranged to sandwich the internal component from the front and the back. In addition, the outer parts 603 and 604 can be divided into segments so that the inner parts are covered with the outer parts 605, 606, 607, 608, and 609, while the periphery of the inner parts can be covered with two parts. At this time, the external components 608 and 609 are arranged on the right and left side surfaces connected to the front surface of the external component 605 arranged on the front surface side, and are connected to the external component 606 on the rear surface connected to each side surface. An external component 607 is disposed below the external component 605, and the components are joined to the internal components 601 and 602 so that a part of the external component 607 is continuous with a part of the surfaces of the external components 608 and 609, respectively.

The outer 605 is provided with protrusions 651 and 652 formed with coupling holes, respectively. The coupling holes of the protrusions 651 and 652 are coupled with the corresponding protrusions of the inner part 601, while the protrusions 651 and 652 are used to support the outer part 605 during sintering. Fig. 8 (a) is a side view of the external part 605, and the end portions of the projections 651 and 652 and the end portion 653 of the external part 605 form the same plane 801. This makes it possible to install the external part 605 in a well-balanced manner without floating from the installation surface during sintering.

The outer 606 is provided with protrusions 661, 662, and 663 in which coupling holes are formed, respectively, and a protrusion 664. The coupling holes of the projections 661 to 663 are coupled to the corresponding projections of the inner part 601, and the projections 661 to 664 support the outer part 606 during sintering. Fig. 8 (B) is a side view of the external part 606, and the end portions of the projections 661 to 664 are formed as the same plane 802. This makes it possible to install the external part 606 in a well-balanced manner without being lifted from the installation surface during sintering.

In addition, the external component 609 is provided with protrusions 691 to 696. The protrusions 691 to 694 are coupled to corresponding coupling holes of the internal part 602, while the protrusions 691 to 696 support the external part 609 during sintering. FIG. 8 (C) is a side view of the external part 609, and the end portions of the projections 691 to 696 form the same plane 803. This makes it possible to dispose the external part 609 in a well-balanced manner without being lifted from the mounting surface during sintering.

Next, an example of the decorative member of the human toy 100 will be described with reference to fig. 9. Fig. 9 shows an example of a shield 900 configured to be attachable to the human-shaped toy 100. The shield 900 also forms a toy component of the human-shaped toy 100. The shield 900 is configured by joining the external part 901 and the internal part 902, and edges of the external part 901 are flush with each other when viewed from the side.

The external part 901 has protrusions 910 to 917 for coupling to the internal part 902, and the internal part 902 has coupling holes 920 to 927 for coupling to the protrusions 910 to 917 of the external part 901. The external part 901 is larger than the internal part 902, and therefore, when the external part 901 is coupled to the internal part 902, the connection surface of the internal part 902 is covered with the external part 901. The top ends of the protrusions 910 to 917 of the external part are exposed from the coupling holes 920 to 927 of the internal part, and the regular arrangement and shape thereof provide a decorative effect.

The end portions of the protrusions 910 to 917 of the external part 901 are flush with the edge 918 of the external part 901, and function to support the external part 901 during sintering of the external part 901. This makes it possible to install the external part 901 in a well-balanced manner without floating from the installation surface during sintering. In addition, when the external part 901 is supported only by the edge 918 during sintering, deformation due to the weight of the central portion of the external part 901 cannot be avoided, but since the protrusions 910 to 917 function as supporting portions, sintering can be performed while maintaining the shape of the external part 901 as a whole.

The opening 903 is a connection hole for attaching an attachment member for attaching the shield 900 to the human-shaped toy 100, for example, an attachment member for attaching to an arm of the human-shaped toy 100.

As described above, according to the present embodiment, the model member of the human-shaped toy can be configured by a combination of the external component formed of the metal material and the internal component formed of the resin material. This makes it possible to reduce the stress on the user, because the assembly is simple as compared with the case where the metal parts are assembled by being joined to each other. In particular, since the deviation generated in the external part during sintering can be absorbed by the resin internal part, the assembling trouble can be eliminated. In addition, by forming the portion to be the skeleton with the resin component, the thickness of the metal component constituting the appearance can be made thinner, and the weight of the human-shaped toy as a whole can be reduced, as compared with the case where all the components are made of metal components.

The present invention is not limited to the above-described embodiments, and various modifications and changes can be made within the scope of the present invention.

Claims (20)

1. A toy component, characterized in that,

the toy component includes:

a 1 st member formed of a resin material;

a 2 nd member bonded to the 1 st surface of the 1 st member and formed of a metal material; and

a 3 rd member bonded to the 2 nd surface of the 1 st member and formed of the metal material,

the 1 st member is at least partially covered by the 2 nd and 3 rd members when the 2 nd and 3 rd members are joined with the 1 st member.

2. Toy component according to claim 1,

the 2 nd member and the 3 rd member are bonded to the 1 st member in such a manner that surfaces of the 2 nd member and the 3 rd member are continuous.

3. Toy component according to claim 1 or 2,

the 1 st member has a joint portion to be joined to a 4 th member formed of the resin material,

in the case where the 2 nd member and the 3 rd member are combined with the 1 st member, the combined portion is not covered by the 2 nd member and the 3 rd member but is exposed.

4. A toy part according to any of claims 1-3,

the 1 st member has a protrusion, and at least one of the 2 nd member and the 3 rd member is coupled to the 1 st member by coupling a coupling hole of at least one of the 2 nd member and the 3 rd member to the protrusion.

5. Toy part according to any of claims 1-4,

the 1 st member has a coupling hole, and at least one of the 2 nd member and the 3 rd member is coupled to the 1 st member by coupling a protrusion of at least one of the 2 nd member and the 3 rd member to the coupling hole.

6. Toy component according to claim 4,

at least one of the 2 nd member and the 3 rd member has a plurality of protrusions, the coupling holes are formed in the plurality of protrusions, and ends of the plurality of protrusions form the same plane.

7. Toy component according to claim 5,

at least one of the 2 nd member and the 3 rd member has a plurality of the protrusions, and ends of the plurality of protrusions form the same plane.

8. Toy component according to claim 6 or 7,

the end portions of the plurality of protrusions and the edge portion of at least one of the 2 nd member and the 3 rd member having the plurality of protrusions form the same plane.

9. A toy part according to any of claims 1-8,

at least one of the 2 nd member and the 3 rd member has a flat surface, and can be stably installed when installed on an installation surface by the flat surface.

10. Toy part according to any of claims 1-9,

the 2 nd surface is a surface opposite to the 1 st surface or a surface continuous to the 1 st surface.

11. Toy part according to any of claims 1-10,

at least either one of the 2 nd member and the 3 rd member is configured by previously bonding a plurality of members formed of the metal material by sintering.

12. Toy component according to any of claims 1-11,

the 1 st member is configured by joining a plurality of members formed of the resin material.

13. Toy part according to any of claims 1-12,

the toy component further includes a 5 th member formed from the metallic material,

the 5 th member is joined to the 1 st member by receiving an end portion of the 1 st member on a bottom surface side,

the bottom surface of the 5 th component is provided with a combination part for combining with other toy components.

14. A toy component, characterized in that,

the toy component includes:

a 1 st member formed of a resin material; and

a 2 nd member bonded to a side surface of the 1 st member so as to cover the side surface of the 1 st member and formed of a metal material,

the 1 st member has a joining portion for joining with the other members at least either one of the top and bottom portions,

in the case where the 1 st member and the 2 nd member are joined together, the joined portion of the 1 st member is not covered with the 2 nd member but is exposed.

15. The toy component of claim 14,

the other member is formed of the resin material or the metal material.

16. Toy component according to claim 14 or 15,

the 2 nd member has a flat surface, and can be stably installed when installed on an installation surface by the flat surface.

17. Toy component according to any of claims 14 to 16,

the 1 st member is constituted by bonding a plurality of members formed of the resin material,

the 2 nd member is formed by previously bonding a plurality of members formed of a metal material by sintering.

18. A joint mechanism is characterized in that,

the joint mechanism includes:

the toy component of claim 14, wherein the toy component is a toy component of claim 1; and

the toy part of claim 14, wherein the toy part is a second toy part of claim 2,

said 1 st toy part having a 1 st joint at least at the bottom,

said 2 nd toy part has a 2 nd engaging portion at least at the top,

the 1 st engaging portion and the 2 nd engaging portion are configured to be rotatably engaged.

19. A human-shaped toy is characterized in that,

the human-shaped toy has a toy component according to any one of claims 1 to 17 and a joint mechanism according to claim 18.

20. A decorative member of the human-shaped toy of claim 19, wherein the decorative member is a decorative member of the human-shaped toy,

the decoration part comprises:

a 1 st member formed of a resin material; and

a 2 nd member bonded to the 1 st surface of the 1 st member and formed of a metal material,

the 1 st member has a plurality of coupling holes,

the 2 nd member has a plurality of protrusions coupled with the plurality of coupling holes, respectively,

wherein the 1 st surface of the 1 st member is covered with the 2 nd member when the 1 st member and the 2 nd member are joined, and end portions of the plurality of protrusions are exposed from openings of the plurality of joining holes on the 2 nd surface opposite to the 1 st surface,

the end portions of the plurality of protrusions form the same plane.

Images