JP6712258B2 - Parts connection structure and doll - Google Patents

Description

The present invention relates to a parts connecting structure and a doll.

As a part connecting structure conventionally used for a toy, for example, in Patent Document 1, a wire that is passed through a communication passage formed by connecting a plurality of parts included in the toy to an insertion passage provided in each of the parts. What is pulled and connected is disclosed by.

By the way, in the case where a plurality of parts are connected by a wire as in the conventional part connecting structure, the strength can be secured even if the wire itself is thin, as compared with the case where the parts are connected by a rubber cord or a coil spring. While there is an advantage that the size of the parts can be reduced, the wire itself has almost no elasticity unlike a rubber cord or a coil spring, so that it is necessary to separately provide a mechanism for adjusting the tension of the wire.

For this reason, in the conventional part connecting structure, the tension of the wire is adjusted by pulling, in the extension direction, the wire protruding from the part arranged at one end of the plurality of connected parts as a tension adjusting mechanism. The mechanism to do is adopted.

However, in the tension adjusting mechanism in the conventional part connecting structure, when trying to adjust the tension of the wire, it is necessary to expand/contract a part of the tension adjusting mechanism along the extension direction of the wire, and accordingly, the parts are connected together. There was a problem that the total length of several parts in a state expands and contracts, affecting the design of the toy as a whole. In particular, if the conventional parts connection structure is adopted for symmetrical parts such as arms and legs of the doll, the total length of both arms will be different when the tension of the wire is adjusted by the tension adjustment mechanism, and the entire doll will be affected. There is a problem that the balance of may be upset.

Further, since the position where the tension adjusting mechanism is installed is limited to both ends of the plurality of parts that are connected to each other, there is a problem that the design of the toy is limited.

JP, 2001-128835, A

Therefore, the present invention can adjust the tension of the wire without changing the total length of the plurality of parts in a connected state, and also has a part connecting structure having a certain degree of freedom in the position where the tension adjusting mechanism is installed. Is the main issue.

That is, the part connection structure according to the present invention is a part connection structure for connecting a plurality of parts of a toy so that they can be bent, and a communication path formed by connecting the insertion paths provided in each of the parts. And a tension adjusting mechanism for adjusting the tension of the wire, the tension adjusting mechanism extending the intermediate portion of the wire. The tension of the wire is adjusted by pressing and bending the wire in a direction intersecting the direction.

With such a structure, since the structure is such that the middle part of the wire is pressed and bent in a direction intersecting the extension direction, the tension of the wire can be increased without expanding or contracting the entire length of the connected parts. Can be adjusted. Also, the tension adjusting mechanism can be installed on any one of a plurality of parts, which allows the position of installing the tension adjusting mechanism to be freely changed to some extent according to the design of the toy. It will be possible to expand the range of toy designs. The wire in the present invention is a wire having high strength and almost no elasticity, and specifically includes wire (including wire twisted) and Tegs.

In addition, in the part connection structure, the tension adjusting mechanism includes a slide body that is installed inside the part and slides so as to intersect an insertion passage of the part. The slide body is brought into contact with the wire. The intermediate portion of the wire may be pressed by the slide body to bend by sliding in the open state. In this case, the slide body may slide along a guide hole provided inside the part.

With such a structure, the tension adjusting mechanism can be installed without making a great change in the appearance of the parts, and the appearance design of the toy is not impaired.

Further, a doll according to the present invention is provided with the parts connecting structure.

According to the present invention thus configured, the tension of the wire connecting the plurality of parts can be adjusted without changing the total length of the plurality of parts in the connected state, and the tension adjusting mechanism is installed. You can change it to any position to some extent.

It is a schematic diagram showing a doll according to the first embodiment. It is a sectional view showing a parts connection structure in an arm part of a doll concerning Embodiment 1. It is sectional drawing which shows the state which bent the elbow joint of the arm part of the doll which concerns on Embodiment 1. FIG. 3 is a partial cross-sectional view showing a state where the tension adjusting mechanism of the part connecting structure in the arm portion of the doll according to the first embodiment is operated. FIG. 6 is a partial cross-sectional view showing a tension adjusting mechanism of a parts connecting structure according to a second embodiment. FIG. 9 is a partial cross-sectional view showing a tension adjusting mechanism of a parts connecting structure according to a third embodiment.

Hereinafter, the parts connecting structure according to the present invention will be described with reference to the drawings.

The part connection structure according to the present invention is a structure for connecting a plurality of parts included in a toy so as to be bendable with each other, and is arranged, for example, such that arms and legs of a toy are sandwiched between joint parts (bent parts). Used when connecting multiple parts. In the first embodiment, the case where the parts connecting structure according to the present invention is adopted in a doll that imitates a robot will be described as an example. Incidentally, the doll according to the present invention includes not only a model imitating a robot but also a model imitating a human being, an animal, a fictitious creature and the like.

<First Embodiment> As shown in FIG. 1, a doll 100 according to this embodiment includes a head portion 10, a body portion 20, a left/right arm portion 30, and a left/right leg portion 40. The head 20, the left/right arm 30, and the left/right leg 40 are connected to the head 20, respectively. The body portion 20, the left/right arm portion 30, and the left/right leg portion 40 each have a structure in which a plurality of parts are connected, and the connecting portion of each part is a bendable joint.

In the present embodiment, as shown in FIG. 2, among the hand parts 31, the forearm parts 32, and the upper arm parts 33 included in the arm portion 30, the forearm part 32 and the upper arm part 33 are connected to each other according to the present invention. It is connected by 200. Therefore, first, the structure of each of the parts 31 to 33 included in the arm portion 30 will be described in detail.

The hand part 31 constitutes a part from a hand to a wrist joint. The hand part 31 is provided with a connection hole 31a for connecting to the forearm part 32 on the wrist joint side.

The forearm part 32 constitutes from the wrist joint to the elbow joint. Further, on the elbow joint side of the forearm part 32, there is provided a spherical convex convex sliding surface 32a slidably connected to the upper arm part 33. Further, the forearm part 32 is provided with a hole-shaped insertion passage 32b that penetrates from the wrist joint side to the sliding convex surface 32a on the elbow joint side, and the insertion passage 32b faces toward the sliding convex surface 32a on the elbow joint side. It is fan-shaped or cone-shaped. In addition, the forearm part 32 is provided with a connection piece 32c which is inserted into the connection hole 31a of the hand part 31 on the wrist joint side.

The upper arm part 33 constitutes from the elbow joint to the shoulder joint. Further, on the elbow joint side of the upper arm part 33, a spherical concave sliding concave surface 33a that is slidably connected to the sliding convex surface 32a of the forearm part 32 is provided. Further, the upper arm part 33 is provided with a hole-shaped insertion passage 33b penetrating from the sliding concave surface 33a on the elbow joint side to the shoulder joint side. A connecting shaft 33c is provided on the shoulder joint side of the upper arm part 33 to be inserted into a bearing (not shown) provided on the shoulder joint of the body portion 20.

Then, as shown in FIG. 3, the forearm part 32 and the upper arm part 33 are connected by the part connecting structure 200 such that they can be bent with the sliding convex surface 32a and the sliding concave surface 33a fitted to each other. Further, the hand part 31 and the forearm part 32 are connected by inserting the connection piece 32c into the connection hole 31a.

Next, the part connecting structure 200 for connecting the forearm part 32 and the upper arm part 33 will be described in detail.

As shown in FIG. 1, the parts connection structure 200 includes a wire 50 that is passed through a communication path L formed by connecting the insertion path 32b of the forearm part 32 and the insertion path 33b of the upper arm part 33, and the wire 50. A tension adjusting mechanism 60 for adjusting the tension of the.

One end side of the wire 50 is projected from an opening on the wrist joint side of the insertion path 32a of the forearm part 32, and is fixed by a fixture 70a so as not to come out inside the insertion path 32a. Further, the other end side is projected from the opening on the shoulder joint side in the insertion passage 33a of the upper arm part 33, and is fixed by the fixture 70b so as not to come out inward of the insertion passage 33a. As a result, the wire 50 is stretched between the forearm part 32 and the upper arm part 33.

Elastic bodies 80a and 80b are interposed between the forearm part 32 and the fixture 70a and between the upper arm part 33 and the fixture 70b, respectively. The elastic bodies 80a and 80b are connected to each other so that the sliding convex surface 32a of the forearm part 32 and the sliding concave surface 33a of the upper arm part 33 slide smoothly to some extent when the elbow joint of the arm portion 30 is bent. It plays a role of adjusting the length of the wire 50 passed through the L. The elastic body may be installed only on one of the forearm part 32 and the upper arm part 33. A rubber plate or the like can be used as the elastic bodies 80a and 80b.

The tension adjusting mechanism 60 includes a guide hole 61 provided inside the upper arm part 33, a slide body 62 that reciprocates along the guide hole 61, and an adjusting screw 63 that adjusts the position of the slide body 62 with respect to the guide hole 61. And are equipped with.

The guide hole 61 extends so as to intersect the insertion passage 33a of the upper arm part 33, and both ends thereof are closed by the outer wall of the upper arm part 33. Specifically, one end side of the guide hole 61 is closed by a back outer wall 33d on the back side (second arm side) of the upper arm part 33, and the other end side of the guide hole 61 is on the front side of the upper arm part 33 (second arm and It is closed by the outer wall 33e on the opposite side).

The slide body 62 has a block shape, and is connected to one end of an adjusting screw 63 that is inserted into a screw hole 33f provided in the back outer wall 33d that closes one end of the guide hole 61. The slide body 62 is connected to the adjusting screw 63 in a freely rotating state.

The inner peripheral surface of the guide hole 61 and the outer peripheral surface of the slide body 62 are not circular in cross section, and the slide body 62 cannot rotate with respect to the guide hole 61. As a result, the slide body 62 can be moved along the guide hole 61 by rotating the adjustment screw 63 and inserting/removing the slide body 62 into/from the guide hole 61.

The wire 50 passing through the insertion path 33a of the upper arm part 33 extends so as to cross the guide hole 61 and is passed between the slide body 62 and the back outer wall 33d.

With this configuration, when the adjusting screw 63 is rotated in the direction of pulling out from the screw hole 33f, the slide body 62 moves to the back outer wall 33d side as shown in FIG. The force that presses the intermediate portion of the wire 50 in the direction intersecting the extension direction (longitudinal direction) (the direction orthogonal to this embodiment) increases. As a result, the bending of the wire 50 increases, and as a result, the tension generated in the wire 50 increases.

In this state, notches 90a and 90b for allowing the wire 50 to escape are provided on the surface of the slide body 62 that contacts the wire 50 and the surface of the insertion passage 33b that contacts the wire 50. Is bent along the notches 90a and 90b.

On the other hand, when the adjusting screw 63 is rotated in the direction to be inserted into the screw hole 33f, the slide body 62 moves to the front and outer wall 33d side as shown in FIG. 1, and the slide body 62 presses the wire 50 accordingly. Is reduced. This reduces the deflection of the wire 50, which results in less tension on the wire 50.

Note that the tension adjusting mechanism 60, for example, when the elbow joint is repeatedly bent and the sliding convex surface 32a and the sliding concave surface 33a are worn away to reduce the tension of the wire 50, the elastic bodies 80a and 80b are elastic due to deterioration over time. It can be used when the tension of the wire 50 is lost and the tension of the wire 50 is reduced, or when the tension of the wire 50 is not constant due to an error in manufacturing.

<Embodiment 2> This embodiment is a modification of the tension adjusting mechanism 60 of the parts connecting structure 200 in Embodiment 1 as shown in FIG. 5A and 5B are cross-sectional views showing the operation of the slide body 62, and FIG. 5C is a perspective view showing the slide body 62. In the tension adjusting mechanism 60 according to this embodiment, an escape groove 62a into which the wire 50 is fitted is formed on the outer peripheral surface of the slide body 62. The escape groove 62a extends from the surface of the slide body 62 facing the wire 50 to both side surfaces. The wire 50 passed through the insertion path 33b of the upper arm part 33 is passed between the slide body 62 and the outer surface wall 33e.

In the present embodiment, when the adjusting screw 63 is rotated in the direction of being inserted into the screw hole 33f, the slide body 62 moves to the outer surface wall 33e side as the adjusting screw 63 moves, as shown in FIG. 5B. Along with this, the wire 50 is pressed against the slide body 62 while being fitted in the escape groove 62a.

<Embodiment 3> This embodiment is a modification of the tension adjusting mechanism 60 of the parts connecting structure 200 in Embodiment 1 as shown in FIG. 6A and 6B are cross-sectional views showing the operation of the slide body 62, and FIG. 6C shows a cross section taken along the line AA in FIG. 6B. The tension adjusting mechanism 60 according to the present embodiment is attached so that the adjusting screw 63 can freely rotate with respect to the back outer wall 33d of the upper arm part 33. Further, the slide body 62 is provided with a through hole 62b into which the adjusting screw 63 is inserted, and a screw groove 62c is formed in the through hole 62b. In the present embodiment, a nut is embedded inside the slide body 62 to form the thread groove 62c. Further, an escape groove 63a into which the wire 50 is fitted is formed on the inner peripheral surface of the guide hole 63 on the back outer wall 33d side. The escape groove 63a extends from the surface facing the wire 50 on the back outer wall 33d side of the guide hole 63 to both side surfaces.

In the present embodiment, when the adjusting screw 63 is rotated, only the slide body 62 moves to the outer surface wall 33d side as shown in FIG. 6B, and the wire 50 fits into the escape groove 63a accordingly. The slide body 62 is pressed in the retracted state. That is, by rotating a screw rotatably attached to the part, the slide body is slid to press the wire 50. Therefore, the wire 50 can be bent and the tension can be adjusted without the adjustment screw 63 protruding from the upper arm part 33.

In addition, in each of the above-described embodiments, the part connecting structure 200 according to the present invention is used to connect the plurality of pars 32 and 33 that form the arm portion 30 of the doll 100, but the present invention is not limited to this. Instead, for example, it may be used to connect a plurality of parts constituting the leg portion 40 or the body portion 20 of the doll 100, and the arm portion 30, the leg portion 40, and the head portion 10 with respect to the body portion 20. May be used to connect Needless to say, it can also be used to connect a plurality of parts constituting a toy other than the doll 100.

Further, in each of the above-described embodiments, the part connecting structure 200 according to the present invention is used to connect two parts, but it may be used to connect three or more parts. In this case, the tension adjusting mechanism 60 may be installed in any of the parts.

Further, in each of the above embodiments, the tension adjusting mechanism 60 is installed for any one of a plurality of parts connected by the part connecting structure 200 according to the present invention. The tension adjusting mechanism 60 may be installed. Also, a plurality of tension adjusting mechanisms 60 can be installed for one part.

Further, in each of the above-described embodiments, the insertion passages 32b and 33b provided in the parts 32 and 33 have a hole shape that penetrates from the one end to the other end of the parts 32 and 33, but is not limited to this. .. Specifically, some or all of the insertion passages 32b and 33b may have a groove shape.

In addition, it goes without saying that the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention.

100 doll 30 arm part 31 hand part 32 forearm part 32a insertion path 33 upper arm part 33a insertion path L communication path 200 parts connection structure 50 wire 60 tension adjustment mechanism 61 guide hole 62 slide body 63 adjustment screw

Claims (3)

A parts connecting structure for connecting a plurality of parts constituting a doll's head, legs, arms or torso so that they can be bent together,
Wherein an insertion path provided in each part is passed through the communication passage formed in communication, and a wire that is stretched between the parts located at both ends of the communication passage,
A tension adjusting mechanism for adjusting the tension of the wire,
The tension adjusting mechanism includes a slide body that is disposed inside the part and slides so as to intersect the insertion passage, and an adjusting screw that adjusts the position of the slide body inside the part. The intermediate part is pressed by the slide body to bend,
The adjustment screw is attached to the outer wall of the part such that one end is arranged outside the part and the other end is arranged inside the part,
A parts connecting structure , wherein a recess in which one end of the adjusting screw is disposed is formed on an outer surface of the part. The part connecting structure according to claim 1, wherein the slide body slides along a guide hole provided inside the part. A doll provided with the parts connecting structure according to claim 1.