CN113577785A - Accessory connecting structure and human-shaped toy - Google Patents

Abstract

Provided are a retractable accessory connecting structure with a simple structure and a human-shaped toy. An auxiliary arm (10) having a fitting connection structure for a human-shaped toy (2) includes a movable fitting (20) and a base fitting (40) that houses the movable fitting so as to be movable in a predetermined advancing/retreating direction. The movable fitting (20) has a protruding portion (21) in which the head portion (23) protrudes from the accommodation space of the base fitting (40). The base fitting (40) has: a 1 st guide part (50) which clamps the movable fitting (20) and guides the movable fitting to move along the advancing and retreating direction, and a 2 nd guide part (60) which is engaged with the protrusion part (21) and has a groove-shaped guide rail part capable of moving along the advancing and retreating direction. One end of the base metal fitting (40) on one side in the advancing and retreating direction is not guided by the 1 st guide section (50) but guided by the 2 nd guide section (60), and when the protruding section (21) is located at the one end, the movable metal fitting (20) can swing relative to the base metal fitting (40).

Description

Accessory connecting structure and human-shaped toy

Technical Field

The present invention relates to an accessory connecting structure of a human-shaped toy.

Background

In the assembled toy including the movable portion, a connection structure capable of extending and contracting and bending between the accessories is indispensable. For example, a human-shaped toy disclosed in patent document 1 has an accessory connection structure including one knee upper portion and two knee lower portions divided into left and right portions.

Specifically, the above knee portion corresponds to an inner skeleton of an above knee of a human-shaped toy, and the below knee protruding end of the rod-shaped body portion has a spherical shape and includes a linear groove in the spherical portion. The inner sides of the two knee lower parts, which are opposite to each other during assembly, are respectively provided with linear convex parts which are engaged with the linear grooves of the knee upper parts and are guided in the stretching direction. The legs of the human-shaped toy are assembled by clamping the upper knee between the lower parts of the two knees. The knee upper part is extended by sliding the knee part so as to be pulled up from the knee lower part, and when the knee upper part slides to the limit, the engagement between the linear groove and the linear convex part is released, and the spherical part of the knee upper part is rotatably held in the two knee lower parts. That is, when the knee upper portion is stretched to the limit from the below-knee portion, the knee can be bent as a leg.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open No. 2014-183913

Disclosure of Invention

Problems to be solved by the invention

The fitting connection structure disclosed in patent document 1 is a three-fitting structure, and it is desirable to reduce the number of components from the viewpoints of reducing manufacturing costs, reducing assembly man-hours, and the like.

The invention provides a technology for realizing a telescopic accessory connecting structure by using a simple structure.

Means for solving the problems

The technical scheme of the invention is an accessory connecting structure, which is used for a humanoid toy, wherein the accessory connecting structure comprises: a movable fitting; and a base metal fitting that houses the movable metal fitting so as to be movable in a predetermined advancing and retreating direction, the movable metal fitting having a protruding portion, the base metal fitting having: a 1 st guide portion that guides the movable attachment to move in the advancing and retreating direction; and a 2 nd guide portion having a groove-like guide rail portion that engages with the protruding portion and is movable in the advancing/retreating direction.

Further, one end portion of the base metal fitting on one side in the advancing/retreating direction may be provided with a guide of the 2 nd guide portion without a guide of the 1 st guide portion, and the movable metal fitting may be swingable when the protruding portion is located at the one end portion.

Further, the 2 nd guide portion may have an elastic projection at a position immediately before the projecting portion is positioned at the one end portion on the opposite surface of the guide rail portion, and may hold the movable attachment so as to be swingable at a predetermined extended position when the projecting portion is positioned at the one end portion.

Further, the 2 nd guide portion may have an elastic projection at a position immediately before the other end portion of the guide rail portion facing the other end portion of the projecting portion located on the other side in the advancing/retreating direction, and may hold the movable metal fitting at a predetermined accommodating position when the projecting portion is located at the other end portion.

The guide rail portion may include a 1 st guide rail portion and a 2 nd guide rail portion provided at an interval, and the 2 nd guide portion may include a receiving portion for inserting the protrusion portion into the guide rail portion at the interval.

Further, the base fitting may have a 3 rd guide portion, and the 3 rd guide portion may be provided to sandwich the protruding portion at the interval to guide the protruding portion passing between the 1 st rail portion and the 2 nd rail portion.

Further, the base fitting may have a mark portion showing a position of the receiving portion.

Further, the movable attachment may have a plurality of recesses provided along a longitudinal direction on a surface facing the 1 st guide portion, and the 1 st guide portion may have an elastic protrusion portion that elastically deforms and interferes with the recesses.

Further, the movable metal fitting may have a 1 st coupling portion to which a 1 st external metal fitting is coupled, and the base metal fitting may have a 2 nd coupling portion to which a 2 nd external metal fitting is coupled.

A human-shaped toy having the accessory connecting structure according to any one of the above-described embodiments may be configured.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the present invention, a telescopic attachment coupling structure can be realized with a simple structure.

Drawings

FIG. 1 is a front view of an assembled toy.

Fig. 2 is a perspective view showing an example of a use state of the auxiliary arm (attachment coupling structure).

Fig. 3 is a perspective view showing an example of the retraction limit state of the auxiliary arm.

Fig. 4 is a perspective external view showing an example of the extension limit state of the auxiliary arm.

Fig. 5 is a perspective external view showing an example of the movable attachment.

Fig. 6 is a plan view showing an example of the base fitting.

Fig. 7 is an XZ cross-sectional view showing an example of the base fitting.

Fig. 8 is a perspective view showing an example of the base metal fitting, as viewed obliquely from below.

Fig. 9 is a perspective view for explaining the assembly and the telescopic operation of the auxiliary arm.

Description of the reference numerals

2. A human-shaped toy; 10. an auxiliary arm; 20. a movable fitting; 21. a protrusion; 22. a neck portion; 23. a head portion; 26. 1 st connecting part; 40. a base fitting; 42. a 2 nd connecting part; 50. 1 st guide part; 51. an elastic protrusion; 57. a marking section; 60. a 2 nd guide part; 61. the 1 st guide rail part; 62. a 2 nd guide rail part; 63. a receiving portion; 64. an elastic protrusion; 70. a 3 rd guide part; p1, containment location; p2, extended position.

Detailed Description

Fig. 1 is a front view of an example of a human toy 2 to which an embodiment of the present invention is applied. The human toy 2 is a so-called plastic model, which is an assembled toy in which characters appearing in original works such as comics, animation, special movies, games, novels, and the like are reproduced as a three-dimensional object. In the example of fig. 1, the human-shaped toy 2 has a design imitating a human-shaped robot weapon with a armyworm theme, and is a human-shaped body made by assembling parts divided by regions.

The human-shaped toy 2 is designed to be able to mount an exterior part (e.g., attack equipment, defense equipment, etc.) in a replaceable manner on an internal frame corresponding to bones and muscles for a human being. In other words, a figure that can be partially exchanged is designed. The human-shaped toy 2 has a movable structure at various positions so as to be capable of assuming a posture close to that of a human being.

Furthermore, the human-shaped toy 2 is designed to be able to equip a weapon 4. The example of weapon 4 shown in fig. 1 is a large heavy artillery design. The human-shaped toy 2 is provided with an auxiliary arm 10 for placing a large weapon 4.

The auxiliary arm 10 is designed in the form of a mechanical arm that can be extended and bent to assist the arm force of the human figure toy 2. The assist arm 10 is set to have a slim appearance and to be able to exert a sufficient assist force. In the present embodiment, the auxiliary arm 10 has an attachment coupling structure.

Fig. 2 is a perspective view showing an example of a use state of the auxiliary arm 10 (attachment coupling structure). Fig. 3 is a perspective view showing an example of the retraction limit state of the auxiliary arm 10. Fig. 4 is a perspective external view showing an example of the extension limit state of the auxiliary arm 10.

In addition, after fig. 2, three orthogonal axes indicating the reference direction of the auxiliary arm 10 are additionally shown. The three orthogonal axes are right-hand coordinates, and the X-axis direction indicates the extending/contracting direction and the front/rear direction of the attachment connection structure of the auxiliary arm 10. The X-axis positive side is the extension direction and the front. The Y-axis direction is a left-right direction of the auxiliary arm 10 and indicates a swing direction. The positive Y-axis side is the left. The Z-axis direction represents the vertical direction of the auxiliary arm 10, and the positive Z-axis side is upward.

The auxiliary arm 10 has: a movable fitting 20 connected to the weapon 4 via a connecting fitting 5 (1 st external fitting); and a base metal fitting 40 coupled to the trunk metal fitting 6 (2 nd outer metal fitting) of the human-shaped toy 2 so as to be axially rotatable about an axis AX 1.

The movable metal fitting 20 is connected to the base metal fitting 40 so as to be slidable relative to the base metal fitting 40.

In a state where the weapon 4 is raised at the tip of the human toy 2 and the human toy is carried away from the weapon 4, the movable metal fitting 20 is completely pushed into the base metal fitting 40 and accommodated therein, and the auxiliary arm 10 is in the most retracted state (see fig. 1). In order to raise the weapon 4 from the end of the human toy 2, the movable attachment 20 is completely pulled out from the base attachment 40, and the auxiliary arm 10 is extended to the maximum and can swing about the axis AX2 relative to the base attachment 40 (see fig. 2).

The connection fitting 5 is coupled to the movable fitting 20 so as to be rotatable about the axis AX3 with respect to the movable fitting 20. In the human-shaped toy 2, the auxiliary arm 10 can be changed into various forms according to the following conditions: 1) orientation of base fitting 40 relative to trunk fitting 6; 2) the degree to which the movable fitting 20 is pulled out from the base fitting 40; 3) the degree of oscillation of the movable fitting 20 relative to the base fitting 40 in the elongation limit state; 4) the degree of rotation of the connection fitting 5 relative to the movable fitting 20. Of course, the auxiliary arm 10 itself can be freely extended, contracted, and bent. Thus, the auxiliary arm 10 is made to look to support the weapon 4 in various postures corresponding to various postures of the human toy 2.

Fig. 5 is a perspective external view showing an example of the movable attachment 20. The movable attachment 20 is a rod-shaped member, and includes: a projection 21 provided on the lower surface of an end portion on the retracting direction side (rear end side; end portion on the X-axis negative side), a plurality of recesses 24 arranged along the extending and contracting direction on the left and right side surfaces, respectively, and a 1 st coupling portion 26 provided on an end portion on the extending direction side (front end side; end portion on the X-axis positive side).

The protrusion 21 has a columnar neck portion 22 protruding downward (in the negative Z-axis direction), and a head portion 23 located at the lower end of the neck portion 22 and having a larger diameter than the neck portion 22. The head 23 is formed as a circular flange protruding from the neck 22 in a brim shape. The diameter of the head 23 is set to be the same as or slightly smaller than the left-right width of the movable fitting 20.

The 1 st coupling part 26 is a part to which the connection fitting 5 (1 st external fitting; see fig. 2) for connecting the weapon 4 is connected.

Fig. 6 is a plan view showing an example of the base fitting 40. Fig. 7 is an XZ sectional view showing an example of the base fitting 40. Fig. 8 is a perspective view showing an example of the base metal fitting 40, as viewed obliquely from below. The base metal fitting 40 is a rod-shaped member that accommodates the movable metal fitting 20 so as to be relatively movable in a predetermined advancing/retracting direction (extending/retracting direction of the auxiliary arm 10; X-axis direction), and is formed in a bilaterally symmetrical shape. The base metal fitting 40 includes a 1 st guide 50, a 2 nd guide 60, a 3 rd guide 70, and a 2 nd coupling portion 42 which is a through hole penetrating along the axis AX1 of the trunk metal fitting 6 (a 2 nd external metal fitting; see fig. 2).

The 1 st guide portion 50 is a portion corresponding to the left and right side walls of the housing space for housing the movable metal fitting 20, and the 1 st guide portion 50 is in sliding contact with the left and right side surfaces of the movable metal fitting 20 and guides the movable metal fitting 20 in a predetermined advancing and retreating direction.

The 1 st guide 50 has elastic protrusions 51 on surfaces facing the left and right side surfaces of the movable metal fitting 20. The elastic protrusion 51 has a projection size capable of interfering with the recess 24 of the movable attachment 20, and a distal end portion of the elastic protrusion 51 is formed in a shape capable of fitting into the recess 24.

The 2 nd guide portion 60 is a portion corresponding to the bottom surface of the accommodation space for accommodating the movable metal fitting 20, and the 2 nd guide portion 60 includes a 1 st rail portion 61 on the retraction side (X-axis negative side), a 2 nd rail portion 62 on the extension side (X-axis positive side), and a receiving portion 63 serving as a receiving space for inserting the protrusion portion 21 of the movable metal fitting 20 into these rail portions.

In the 2 nd guide portion 60, the 1 st guide rail portion 61 and the 2 nd guide rail portion 62 are provided with the receiving portion 63 therebetween, that is, with the receiving portion 63 being spaced apart. In the present embodiment, the 1 st rail portion 61 and the 2 nd rail portion 62 are linearly arranged along the advancing and retreating direction of the movable attachment 20 (the extending and retracting direction of the auxiliary arm 10) via the receiving portion 63. In other words, in the present embodiment, the 1 st rail portion 61 and the 2 nd rail portion 62 are provided on a straight line with the receiving portion 63 spaced apart in the advancing/retreating direction.

The 1 st rail portion 61 and the 2 nd rail portion 62 are formed by providing long holes in parallel to the expansion and contraction direction in the bottom surface of the housing space of the base metal fitting 40. The groove widths (the length in the Y axis direction: the length in the left-right direction) of the 1 st rail portion 61 and the 2 nd rail portion 62 are set to be larger than the diameter of the neck portion 22 of the protruding portion 21 (see fig. 5), smaller than the diameter of the head portion 23, and smaller than the left-right width of the section of the movable metal fitting 20 in which the recess 24 is disposed.

The front-rear width (length in the X-axis direction: length in the front-rear direction) of the receiving portion 63 is set larger than the diameter of the head portion 23 of the protruding portion 21, that is, larger than the maximum front-rear width of the protruding portion 21. The left-right width of the receiving portion 63 is set larger than the diameter of the head portion 23 of the protruding portion 21, that is, larger than the maximum left-right width of the protruding portion 21. The receiving portion 63 allows the protruding portion 21 to be inserted from above to below until the protruding portion 21 reaches a position below the 1 st rail portion 61 and the 2 nd rail portion 62. The positions of the receiving portions 63 are shown to the user by the mark portions 57 provided on the left and right side surfaces of the 1 st guide portion 50 (see fig. 4, 8, and 9), and the alignment when assembling the auxiliary arm 10 is easy. In other words, the mark portion 57 is provided (indication is displayed) at a position where the 1 st guide portion 50 can be visually recognized from the outside and corresponds to the position where the receiving portion 63 is provided.

That is, the groove widths of the 1 st rail portion 61 and the 2 nd rail portion 62 are widths that can pass the neck portion 22 of the protruding portion 21 but cannot pass the head portion 23. After the protrusion 21 is inserted into the receiving portion 63 from above, if the neck 22 is inserted into the groove of the rail of the 1 st rail portion 61 or the 2 nd rail portion 62 with the head 23 positioned below the rail, the movable metal fitting 20 is coupled to the base metal fitting 40 so as to be slidable, and the movable metal fitting 20 does not come off in the vertical direction.

The 1 st rail portion 61 has a pair of elastic projections 64 on the surfaces facing the grooves. The elastic projection 64 is projected to a position immediately before the accommodation position P1 so as to be in close contact with a surface on the expansion side (X-axis positive side) of the neck portion 22 of the protruding portion 21 when the protruding portion 21 is located at the accommodation position P1 (shown by a dotted circle in fig. 6) corresponding to the retraction side limit position. The protruding portion 21 can move to the housed position P1 beyond the elastic projection 64 by elastically deforming the elastic projection 64. Conversely, the elastic projection 64 must pass over the elastic projection 64 again to be pulled out from the housed position P1, and the elastic projection 64 functions to hold the protruding portion 21 at the housed position P1.

Similarly, the 2 nd rail portion 62 also has a pair of elastic projections 64 on the opposite surfaces of the groove. The elastic projection 64 is projected to a position immediately before the extended position P2 so as to be in close contact with a surface on the retraction side (X-axis negative side) of the neck portion 22 of the protruding portion 21 when the protruding portion 21 is located at the extended position P2 (shown by a dotted circle in fig. 6) which is an extended-side limit position. The protruding portion 21 can move to the extended position P2 beyond the elastic projection 64 by elastically deforming the elastic projection 64. Conversely, the elastic projection 64 must pass over the elastic projection 64 again to be pulled out from the extended position P2, and the elastic projection 64 functions to hold the protruding portion 21 at the extended position P2.

Focusing on the guide ranges of the 1 st guide 50 and the 2 nd guide 60, the guide range W1 of the 1 st guide 50 is set to be wider on the retraction side (X-axis negative side) than the guide range W2 of the 2 nd guide 60, but conversely, reaches just before the extension position P2 on the extension side (X-axis positive side). In other words, one end portion on one side in the expansion and contraction direction has no guidance of the 1 st guide portion 50 but has guidance of the 2 nd guide portion 60.

Therefore, when the auxiliary arm 10 is extended to the maximum extent by completely pulling out the movable metal fitting 20 from the base metal fitting 40, the protrusion 21 of the movable metal fitting 20 reaches the extended position P2, and the movable metal fitting 20 can swing about the axis AX2 with respect to the base metal fitting 40 without being held in position by the 1 st guide 50.

Further, when the protruding portion 21 of the movable fitting 20 reaches the extended position P2, the protruding portion 21 is held at the extended position P2 by the elastic projection 64. Thus, when the user performs the swing operation, the movable attachment 20 does not shift in the retracting direction, and does not come into contact with the 1 st guide portion 50 again, thereby making the swing operation difficult. When the extended position P2 is reached, the elastic protrusion 64 presses and fastens the neck 22, thereby generating a suitable friction (torsional resistance) between the protruding portion 21 and the 2 nd guide portion 60, and maintaining the relative posture of the movable metal fitting 20 and the base metal fitting 40 after the swing. The extended position P2 is a position that should also be referred to as a bearing portion for the protruding portion 21.

Similarly, when the movable attachment 20 is completely pushed in from the base attachment 40 and the auxiliary arm 10 is retracted to the maximum extent, the movable attachment 20 is already held in position by the 1 st guide portion 50 from the time when the protruding portion 21 of the movable attachment 20 reaches the accommodating position P1, and cannot swing with respect to the base attachment 40.

When the protruding portion 21 of the movable fitting 20 reaches the housed position P1, the protruding portion 21 is held at the housed position P1 by the elastic projection 64. When held at the accommodated position P1, the neck 22 is fastened by the elastic projection 64, so that a moderate resistance is generated between the protruding portion 21 and the 2 nd guide portion 60, and the movable fitting 20 is held in the accommodated state in the base fitting 40.

The 3 rd guide 70 is a wall portion that is provided in a downwardly projecting shape from the front lower surface of the base metal fitting 40, and has a substantially horseshoe shape in a bottom view. Then, the retraction side of the 3 rd guide portion 70 reaches the position where the receiving portion 63 of the 2 nd guide portion 60 is located on the left and right. The right and left inner dimension widths of the 3 rd guide 70 are set to be slightly larger than the diameter of the head 23 of the projection 21.

Fig. 9 is a perspective view for explaining the assembly and the telescopic operation of the auxiliary arm 10. In addition, for ease of understanding, the base fitting 40 is shown cut in an XZ section for convenience.

The user uses the mark portion 57 as a reference for the position alignment, specifically, inserts the protruding portion 21 of the movable metal fitting 20 from above into the receiving portion 63 of the 2 nd guide portion 60 after positioning the protruding portion 21 at a position directly above the Z-axis positive side of the mark portion 57. The user can know the limit of the insertion by bringing the lower surface of the portion of the movable fitting 20 having the recess 24 into abutment with the upper surface of the 2 nd rail portion 62 of the 2 nd guide portion 60.

At this time, the projection 21 inserted into the receiving portion 63 is not engaged with either of the 1 st rail portion 61 and the 2 nd rail portion 62, but the outer side surface of the head 23 is guided in the expansion and contraction direction (X-axis direction) by the inner side surface of the 3 rd guide portion 70 while being restricted from moving left and right (movement in the Y-axis direction). Therefore, when the user slides the movable metal fitting 20 while maintaining the guide and moves the protruding portion 21 in the extending direction (X-axis positive direction) or the retracting direction (X-axis negative direction), the protruding portion 21 engages with either the 1 st rail portion 61 or the 2 nd rail portion 62, and the connection is completed. The movable metal fitting 20 has a form in which the head portion 23 of the protruding portion 21 protrudes from the housing space of the base metal fitting 40.

When the connection is completed, the elastic protrusion 51 protruding from the inner surface of the 1 st guide 50 has the same height as the recess 24 of the movable metal fitting 20. When the movable metal fitting 20 is slid in the telescopic direction, the elastic projection 51 passes over the partition between the adjacent recesses 24 while being elastically deformed, and thereby an appropriate operation resistance feeling is generated in the sliding operation of the movable metal fitting 20, and the quality of the operation feeling is improved. Further, the resistance when the elastic protrusion 51 passes over while being elastically deformed acts to hold the current position of the movable fitting 20 with respect to the base fitting 40.

When the movable fitting 20 is expanded and contracted, the protruding portion 21 passes through the receiving portion 63. Since the receiving portion 63 has no structure corresponding to the rail portion that is guided with the neck portion 22 of the protrusion 21 sandwiched therebetween as in the 1 st rail portion 61 and the 2 nd rail portion 62, at first glance, the protrusion 21 may not be able to smoothly move between the 1 st rail portion 61 and the 2 nd rail portion 62. However, the head portion 23 of the protruding portion 21 is guided by the 3 rd guide portion 70 while passing through the receiving portion 63, and therefore, can smoothly slide between the 1 st rail portion 61 and the 2 nd rail portion 62.

As described above, according to the present embodiment, it is possible to realize an accessory connecting structure having a smaller number of components than the conventional one, and also to realize an extensible and bendable accessory connecting structure. The telescopic and bendable fitting connection structure can be realized by only two fittings. Compared with the connecting structure of the prior three-fitting structure, the structure is simple and easy, the assembly is easy, and the manufacturing cost can be reduced.

[ modified example ]

The embodiments to which the present invention can be applied are not limited to the above-described examples, and addition, omission, and modification of the components can be appropriately performed.

(one of modification examples)

For example, although the human-shaped toy 2 is designed as a human-shaped robot weapon, the design of the human-shaped toy 2 to which the present invention can be applied is not limited to this. For example, a robot weapon of an animal type or an insect type, a multi-legged chariot, or the like may be used. Further, if the exterior is skin-equivalent, the human figure toy 2 may be a figure of a character appearing in a cartoon or a moving picture.

(second modification)

In the above embodiment, the head portion 23 is formed in a disc shape extending from the lower end of the neck portion 22 over the entire circumference, i.e., in a flange shape, but the shape of the head portion 23 is not limited to this. For example, the head 23 may be partially extended and widened only in the left-right direction. Alternatively, the head 23 may be formed in a spherical shape. When the head 23 is spherical, the movable metal fitting 20 can swing not only in the left-right direction but also in the up-down direction in the extended position P2, as in the case of being connected to the base metal fitting 40 by a ball joint.

Claims (10)

1. An accessory connecting structure for a human-shaped toy, wherein,

the fitting connection structure includes:

a movable fitting; and

a base metal fitting that accommodates the movable metal fitting so as to be movable in a predetermined advancing/retreating direction,

the movable fitting is provided with a protruding part,

the base fitting has:

a 1 st guide portion that guides the movable attachment to move in the advancing and retreating direction; and

and a 2 nd guide portion having a groove-like guide rail portion that engages with the protruding portion and is movable in the advancing/retreating direction.

2. The fitting attachment structure according to claim 1,

one end portion of the base fitting on one side in the advancing and retreating direction has no guide of the 1 st guide portion but has a guide of the 2 nd guide portion,

the movable fitting is swingable relative to the base fitting when the protruding portion is located at the one end portion.

3. The fitting attachment configuration according to claim 2,

the 2 nd guide portion has an elastic projection at a position immediately before the one end portion of the projecting portion on the opposite surface of the guide rail portion,

when the protruding portion is located at the one end portion, the movable attachment is held so as to be swingable at a predetermined extended position.

4. The fitting joining construction according to claim 2 or 3,

the 2 nd guide portion has an elastic projection at a position immediately before the other end portion of the guide rail portion facing the other end portion of the projection portion located on the other side in the advancing/retreating direction,

when the protruding portion is located at the other end portion, the movable attachment is held at a predetermined accommodating position.

5. The accessory connecting structure according to any one of claims 1 to 4,

the guide rail part comprises a 1 st guide rail part and a 2 nd guide rail part which are arranged at intervals,

the 2 nd guide portion has a receiving portion at the interval for inserting the protrusion portion into the guide rail portion.

6. The fitting attachment configuration according to claim 5,

the base fitting has a 3 rd guide portion, the 3 rd guide portion being configured to sandwich the protrusion portion at the interval to guide the protrusion portion passing between the 1 st rail portion and the 2 nd rail portion.

7. The fitting joining construction according to claim 5 or 6,

the base fitting has a marking showing the position of the receiving portion.

8. The accessory connecting structure according to any one of claims 1 to 7,

the movable fitting has a plurality of recesses provided in a longitudinal direction on a surface facing the 1 st guide portion,

the 1 st guide portion has an elastic protrusion portion that elastically deforms and interferes with the recess portion.

9. The accessory connecting structure according to any one of claims 1 to 8,

the movable fitting has a 1 st coupling portion coupled to a 1 st external fitting,

the base fitting has a 2 nd coupling portion coupled with a 2 nd external fitting.

10. A human-shaped toy, wherein,

the human-shaped toy comprises the accessory connection structure according to any one of claims 1 to 9.

Images