KR20140123221A - Spring connecting structure of dynamically three demensional model link part - Google Patents

Abstract

The present invention relates to a dynamic three-dimensional model, and more particularly, to a spring connection structure of a dynamic three-dimensional model having a spring joint in which a flat developed view is folded or pasted to make a three-dimensional doll and a joint part of each part is replaced with a spring.
The spring connection structure of the dynamic three-dimensional model connection part according to the present invention is provided with a flat developed view, and the three-dimensional head, three-dimensional shape, or the like formed by cutting or folding or cutting each part in the order shown in the above- And a spring connecting portion which is connected to another portion of the body, the three-dimensional body, the three-dimensional body, the three-dimensional arm, and the three-dimensional leg, The spring connection portion is composed of a pair of engagement portions, and each of the pair of engagement portions has a straight line cut portion facing each other, so that the tip ring of the spring is inserted into both sides through the straight cut portion.

Description

[0002] SPRING CONNECTING STRUCTURE OF DYNAMICALLY THREE DEMENSIONAL MODEL LINK PART [0003]

The present invention relates to a dynamic three-dimensional model, and more particularly, to a spring connection structure of a dynamic three-dimensional model having a spring joint in which a flat developed view is folded or pasted to make a three-dimensional doll and a joint part of each part is replaced with a spring.

In general, dolls are very popular and are popular among children. These dolls are mostly flat puppets and broadly flat paper models.

In order to express a flat paper model more realistically, it is proposed to design a flat developed figure, and to fold, cut or paste a three dimensional paper model.

A stereoscopic paper model can be a person, an animal, a building such as a house or an old palace, or an imaginary robot.

However, such a flat paper model or a three-dimensional paper model is folded or pasted through a flat developed view to form a three-dimensional shape, so that the static image of the paper model itself can not escape.

In order to enhance the dynamic image by removing the static image, three - dimensional paper models with some movable structures are proposed and used, especially in the case of human models or animal models.

It is true that stereoscopic paper models that activate this dynamic state can actually be expressed in various ways, and that their expression forms are designed differently for each stereoscopic paper model.

However, when considering that the material is paper, it is necessary to make a model of a three - dimensional paper which is simpler and more inexpensive because a joint design in which a complicated or expensive production cost is included is useless.

A problem to be solved by the present invention is to make a dynamic stereoscopic doll easily by expressing a joint of a joint part with a spring in order to realize a dynamic state in a stereoscopic paper model, especially a stereoscopic doll.

We want to provide a dynamic three-dimensional doll which can embody a certain character's character into a doll and can realize a free dynamic state while having fun and interest.

In addition, from the viewpoint of using the paper material in the production of such a dynamic three-dimensional doll, it is desired to make it easy to assemble, simple and low-cost.

Also, we propose a spring connection structure to replace each connection part with a spring in the three-dimensional model, to facilitate spring connection, and to strengthen the fixing on the connection part when connecting.

In order to solve the above-mentioned problems, the spring connecting structure of the dynamic three-dimensional model connecting part according to the present invention is a spring connecting structure of a three-dimensional head, a three-dimensional A three-dimensional body, a trunk, a three-dimensional arm, and a three-dimensional leg, and a spring connection part capable of being connected to another part of the three-dimensional head, the three-dimensional body, the three- The spring connecting portion is formed of a pair of engaging portions and each of the pair of engaging portions is formed with a facing straight line cut portion so that the tip ring of the spring is inserted into both sides through the straight cut portion .

Here, it is preferable that the pair of coupling portions indicate a spring position portion for confirming the inserted position after the spring is inserted.

Here, a spring hook is provided at a side surface of each of the pair of coupling portions to fix the spring after the spring is inserted, and the spring hook has a quadrangular shape and three sides are cut, and the other side is folded It is preferable to be provided in the form of

According to the structure of the present invention described above, in order to realize a dynamic state in a three-dimensional paper model, especially a three-dimensional doll, a dynamic three-dimensional doll can be easily formed by assembling a joint part with a spring inserted therein. And it is possible to provide a dynamic stereoscopic doll which is easy to assemble and can be manufactured easily at low cost.

Also, it is possible to propose a more rigid dynamic three-dimensional model by replacing each connection part with a spring in the three-dimensional model, by providing a spring connection structure for facilitating the connection of the spring and for enhancing the fixing on the connection part.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a top plan view of a dynamic three-dimensional doll according to the present invention; Fig.
Fig. 2 is a developed view of the body part of a dynamic three-dimensional doll according to the present invention. Fig.
Fig. 3 is an exploded view of the arm part of a dynamic three-dimensional doll according to the present invention; Fig.
Fig. 4 is a developed view of a flat part of a dynamic three-dimensional doll according to the present invention. Fig.
Figure 5 is a bottom plan partial exploded view of a dynamic three-dimensional doll according to the present invention.
6 is a view for explaining a spring connection structure and a connection process of a dynamic three-dimensional doll connecting part according to the present invention.
7 is a stereoscopic assembly view of a dynamic three-dimensional doll according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a structure of a dynamic three-dimensional doll according to the present invention, an assembly process thereof, and a spring connection structure of a connection portion will be described with reference to the accompanying drawings.

The dynamic stereoscopic doll described below is provided with a flat developed view for each part, and is assembled into a three-dimensional shape by cutting, folding or pasting them. The figures shown on the flat developed view show the order of folding, the solid line means crop, the dotted line means fold, and the dot means paste.

Such a material may be a sheet material that can be folded or cut with a knife, for example, paper, thin plastic, vinyl, wood, or styrofoam.

In a preferred embodiment of the present invention, a dynamic stereoscopic doll is represented by a person, and it largely provides a head part, a body part, an arm part and a leg part, and a support plate can be provided if necessary, As a part, this joint part is connected by a spring. However, it is a matter of course that the dynamic stereoscopic model according to the present invention can be applied to all models capable of dynamic action by joints such as animals, robots, and dolls in addition to humans.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a top plan view of a dynamic three-dimensional doll according to the present invention; Fig.

1, a flat developed view of a head 100 portion of a dynamic three-dimensional doll according to the present invention is provided.

(In numerical order) according to a solid line, a dotted line, and a dotted portion, a three-dimensional head 100 is produced.

Particularly, the spring connection portion 111 of the neck portion is a portion formed on the lower end surface of the neck at the time of assembly, and is a portion connected with the body 200 portion by a spring. The spring connection structure is described below again.

Fig. 2 is a developed view of the body part of a dynamic three-dimensional doll according to the present invention. Fig.

As shown in Fig. 2, a flat developed view of a portion of a body 200 of a dynamic three-dimensional doll according to the present invention is provided.

The trunk portion 200 is formed by cutting and folding (in number-by-line) according to solid lines, dotted lines, and dotted portions.

Spring connection portions 211a to 211e are formed on the body 200 and spring connection portions 211a are formed on the uppermost end surface of the body when assembled and then connected to the head 100 by a spring, 211b and 211c are connected to both arms 300 by a spring and the spring connecting portions 211d and 211e are connected to both legs 400 by a spring.

Fig. 3 is an exploded view of the arm part of a dynamic three-dimensional doll according to the present invention; Fig.

As shown in Fig. 3, a flat developed view of a portion of the arm 300 of a dynamic three-dimensional doll according to the present invention is shown, with the left side being the developed view of the right arm and the left side being the developed view of the right arm.

(In numerical order) according to a solid line, a dotted line, and a dotted portion, the three-dimensional shape of the arm 300 is produced.

The spring connection portions 311a and 311b of the arm 300 are formed on the distal end surface of the arm 300 at the time of assembly and then connected to the left and right portions of the body 200 by a spring.

Fig. 4 is a developed view of a flat part of a dynamic three-dimensional doll according to the present invention. Fig.

As shown in FIG. 4, a flat developed view of the arm 400 portion of a dynamic three-dimensional doll according to the present invention is shown, with the left leg being a developed view of the right leg and the right leg being an exploded view of the right leg.

(In numerical order) according to the solid line, the dotted line, and the dotted portion, the three-dimensional leg 400 is produced.

The spring connecting portions 411a and 411b of the leg 400 are formed on the end surface of the leg 400 when assembled and are connected to the spring connecting portions 211d and 211e of the body 400 by a spring.

Figure 5 is a bottom plan partial exploded view of a dynamic three-dimensional doll according to the present invention.

The bottom plate 500 is an accessory that can be conveniently provided and serves as a footrest for setting up a dynamic three-dimensional doll.

FIG. 6 is an explanatory view of assembling a dynamic three-dimensional doll joint part spring according to the present invention.

The spring 614 is connected to the connection portion of the dynamic three-dimensional doll and includes a neck portion of the face 100 of FIG. 1, a portion connected to the face of the body 200 of FIG. 2, a portion connected to both arms, And is connected to both parts connected to the body 200 in the arm 300 of FIG. 3 and to both parts connected to the body 200 from the leg 400 of FIG.

The connection of the spring 614 can be freely moved according to the direction of the elastic force at the joint part of the dynamic stereoscopic model (or doll), so that it is a simple model that can induce interest and simplify the representation of movement.

One end of the spring 614 is connected to the neck spring connection portion 111 of the head 100 and the other end is connected to the spring connection portion 211a of the body 200. When one side of the spring 614 is connected to the neck 200, The other end of the spring is connected to the spring connecting portions 311a and 311b of the arm 300 and the other end of the spring 614 is connected to the spring connecting portions 211d and 211e of the body 200, The other end is connected to the spring connection portions 411a and 411b of the leg 400, respectively.

6, reference numeral 610 denotes a surface on which spring connection portions of the head 100, the body 200, the arm 300, and the leg 400 are formed.

The spring connection portion 611 is composed of a pair of coupling portions 612 and 613 and each of the pair of coupling portions 612 and 613 is connected to the spring positioning portions 612a and 613a and the linear cutting portions 612b and 613b .

The spring positioning portions 612a and 613a indicate portions where the spring 614 is engaged and the straight cutting portions 612b and 613b are formed so that one ends 614a and 614b of the spring 614 can be inserted and seated It functions as an entrance.

A spring hook 615 is formed at both ends of the center of the spring positioning portions 612a and 613a and the spring hook 615 has a quadrilateral structure with three sides cut and one side folded as a spring 614 are mounted, three sides are downward with respect to one side, and both sides of the spring 614 are gripped to prevent the spring 614 from coming off.

A process of coupling the spring connection structure constructed as described above through FIG. 6 will be described.

The spring connection portion 611 is formed in the joined portion 610 of the head 100, the body 200, the arm 300, and the leg 400 in the same state as the first (A).

In this state, one end side ring 614a of the spring 614 is pushed in the direction of the arrow through the straight cut portion 612b of the first engagement portion 612 as shown in (B). (C), and the spring 614 is moved beyond the spring positioning portion 612a as shown in (D).

Then, as shown in (D), one side end ring 614a of the spring 614 is pushed into the straight cutout portion 612b side of the second engaging portion 612 in the direction of the arrow (opposite direction) (614) is in a position coincident with the spring positioning portions (612a, 613a), the insertion is completed.

Then, in order to prevent the spring 614 from falling out or flowing, the spring holding jaws 615 on both sides are pushed inwardly at about 90 degrees. The spring stopper 615 and the spring 614 are positioned substantially at right angles to each other, so that the spring 614 can not escape or flow.

The portion of the other end ring 614b of the spring 614 is also engaged with the other spring contact portion of the model in the same manner.

Fig. 7 is a stereoscopic model diagram immediately before assembly of each joint part of the dynamic three-dimensional doll according to the present invention.

When the models of FIGS. 1 to 4 are respectively assembled, a three-dimensional model as shown in FIG. 7 is manufactured, and the spring portions 614 of the respective portions are connected to the corresponding spring connecting portions 111, 211a to 211e, 311a, 311b, 411a, To complete the action stereoscopic doll.

Since the respective joint portions of the completed dynamic three-dimensional doll are connected by the spring 614, the neck, arms, and legs can be elastically moved about the body by the elastic action of the spring, and the length, , The intensity of the motion, and so on.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: Head 200: Body
300: Arms 400: Legs
111, 211a, 211b, 211c, 211d, 211e, 311a, 311b, 411a, 411b, 611:
500: bottom plate 612, 613:
612a, 613a: spring positioning portion 612b, 613b: straight cut portion
614: spring 614a: one-side end ring
614b: the other end ring 615:

Claims (3)

A three-dimensional head, a three-dimensional body, a three-dimensional arm and a three-dimensional leg made by cutting or folding or attaching each portion cut out in a plane developed view or in the order described,
And a spring connecting part connected to another part of the three-dimensional head, the three-dimensional body, the three-dimensional arm, and the three-dimensional legs,
Springs are fastened between the spring connection portions,
Wherein the spring connecting portion comprises a pair of engaging portions and each of the pair of engaging portions is formed with a facing straight line cut portion so that the tip ring of the spring is inserted into both sides through the straight cut portion, rescue. The method according to claim 1,
Wherein the pair of coupling portions are provided with a spring positioning portion capable of confirming the inserted position after the spring is inserted. The method according to claim 1,
Wherein a spring hook is provided on a side surface of each of the pair of coupling portions to fix the spring after the spring is inserted,
Wherein the spring hooking jaw is provided in a shape such that three sides are cut out in a quadrangular shape and the remaining one side is foldable.

Images