KR101303303B1 - Connector having bending furrow and toy for assembly studying using thereof - Google Patents

Abstract

Disclosed are a connector having a bending groove, and a prefabricated three-dimensional model for learning using the same. The present invention, the through-hole body is formed in the center; And a plurality of connection ends extending radially from the body to be fitted with the connection pipes.
In the boundary region of the connection end and the body, a connection bending groove is formed so that the connection end is bent at a predetermined position.
The body is characterized in that it comprises a connector having a body bending groove is formed to induce the bending of the entire body and a plurality of connection pipes that are fitted to each of the connection end to connect each connector. According to the present invention, since a bending groove is formed at the boundary position between the body and the connection end of the connector, each of the connection ends is accurately bent at a certain position, so that an accurate completion model can be made when the assembly is completed using the connection pipe. Can be provided.

Description

CONNECTOR HAVING BENDING FURROW AND TOY FOR ASSEMBLY STUDYING USING THEREOF}

The present invention relates to a connector having a bending groove and a learning-type three-dimensional model using the same. More specifically, the connection end of the connector is capable of accurate bending, and the body itself can be bent and coupled to each connection end. The present invention relates to a connector having a bending groove capable of directing various angles of a connecting pipe and to assembling an accurate model, and a learning-type prefabricated model using the same.

In general, the prefabricated three-dimensional model, which is intended to assemble various blocks, is known to have a great effect on enhancing creativity of children and adolescents and enhancing perception of space. This prefabricated three-dimensional model has been developed in various forms and has been developed and used as a teaching aid. In other words, learners can enhance their imagination and creativity by constructing models with various types of three-dimensional feelings by using the parts of the prefabricated three-dimensional model.

In addition to the purpose of simply developing imagination and creativity, the prefabricated three-dimensional model is also used to explain three-dimensional shapes of special uses such as existing structures, machine tools, or molecular structures. By producing the learner will increase the understanding of the three-dimensional shape, and through the three-dimensional model produced to make it easier for others to explain the three-dimensional shape.

Such a prefabricated three-dimensional model is a plurality of connectors that are radially arranged on the basis of the body as described in the Republic of Korea Patent Publication No. 10-2011-0026705 (published date: 2011.03.16), and the fitting is coupled to each connection end It consists of several connection pipes. Therefore, the learner can make various three-dimensional models by fitting and connecting each connection pipe and the connector. At this time, it is possible to adjust the angle of the connecting pipe by folding the connecting end in a state in which the connecting end is inserted into the connecting pipe. Therefore, the three-dimensional model of various shapes can be assembled.

However, the prefabricated three-dimensional model according to the related art is formed in a structure in which each of the connecting ends extends radially from the body, so that the boundary thereof is not clear and the bending of the connecting ends is not free.

In particular, when the two connecting pipes are to be maintained at a constant angle, for example, 45 ° from each other with respect to the connector, since each connecting pipe is configured to maintain a predetermined angle by simply bending both connecting ends, It was difficult for each connecting pipe to maintain the correct angle.

In addition, the prefabricated three-dimensional model according to the prior art simply because it was configured to assemble a three-dimensional model could not implement a dynamic model.

Republic of Korea Patent Publication No. 10-2011-0026705 (published date: 2011.03.16)

The technical problem of the present invention is to provide a means by which a predetermined position of a connector connecting each pipe can be folded so that each connecting pipe of the prefabricated three-dimensional model can be assembled at an accurate angle.

Another technical problem of the present invention is to provide a means that can enable the dynamic movement of the prefabricated three-dimensional model.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular embodiments that are described. It will be apparent to those skilled in the art, There will be.

The technical problem, according to the present invention, the through-hole body formed in the center; And a plurality of connection ends extending radially from the body to be fitted with the connection pipes.

In the boundary region of the connection end and the body, a connection bending groove is formed so that the connection end is bent at a predetermined position.

The body is achieved by a connector having a bending groove, characterized in that the body bending groove is formed to induce bending of the entire body.

The connection bending groove and the body bending groove are formed in a dotted line form or in a row.

The depth of the connection bending groove and the body bending groove is formed to 30% or less of its thickness.

The body is made of a circle or polygon.

The body bending groove is composed of a plurality.

On the other hand, the technical problem of the present invention is a prefabricated three-dimensional model for learning using the aforementioned connector,

It provides a prefabricated three-dimensional model for learning using a connector having a bent groove further comprises a plurality of connection pipes fitted to each connection end to connect each connector.

At this time, the coupling pipe and the fitting further comprises a wheel member for forming a wheel or a rotating body.

The wheel member,

An outer ring and an inner ring and support ribs connecting the outer and inner rings,

Between the support ribs and the outer ring is a small wheel member, a closing body fitted to the end of the connection pipe and the connecting body for connecting the connecting pipe to each other is provided by the connecting rib.

According to the present invention, since a bending groove is formed at the boundary position between the body and the connection end of the connector, each of the connection ends is accurately bent at a certain position, so that an accurate completion model can be made when the assembly is completed using the connection pipe. Can be provided.

In addition, by the bending groove formed in the body, the connector itself can be bent at various angles, for example, at a right angle, so that not only an accurate angle can be formed at the corners of the model, but also the bending groove formed at the connection end. Since the bent grooves formed in the multi-stage bending of the connector help each pipe to be assembled at various angles, and the model can be assembled accurately.

In addition, the wheel member may be provided to assemble a dynamic model such as a rolling motion or a rotating body, and by providing a finishing body or a connecting body, various forms of connection pipes may be assembled and finished.

1 is a perspective view showing an example of a connector according to the present invention.
2 is a cross-sectional view of the connector shown in FIG. 1.
3 is a cross-sectional view showing a bent state of the connector shown in FIG.
4A, 4B, 4C, 4D, and 4E are plan views showing other examples of the connector according to the present invention.
5a and 5b are perspective views showing a state in which the assembled three-dimensional model is assembled using the connector according to the present invention.
Figure 6a, 6b is a plan view showing a wheel member used in the assembled three-dimensional model according to the present invention.
Figure 7 is a perspective view showing a state in which the wheel member of the assembled three-dimensional model shown in Figures 6a, 6b is used.
8a and 8b are cross-sectional views showing the state of use of the finishing body and the connecting body provided in the wheel member shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

1 to 5a, 5b of the accompanying drawings, the connector 10 having a bending groove according to the present invention is a through hole 13 is formed in the center, at least one row of body bending groove 16 A plurality of connection ends formed with a body 12 and a radially extending from the body 12 to be fitted with the connection pipe 20, and a connection bending groove 15 is formed at a boundary with the body 12. It consists of 14.

The connector 10 is made of synthetic resin or paper having elasticity. And, the body bending groove 16 or the connection bending groove 15 is for the body 12 or the connecting end 14 to be easily bent at an accurate and constant position. This will be described in more detail.

The connection bending groove 15 is formed at the boundary area between the connection end 14 and the body 12, so that the connection end 14 is bent at a predetermined position. That is, the bending of the connecting end 14 is always made only in the connecting bending groove 15, so that the bending at the correct position of the connecting end 14 is possible. That is, the bending at a constant position is always possible.

The body bending groove 16 is formed across the center of the body 12 such that the entire body 12 is bent at an angle of, for example, 90 °. That is, as shown in FIG. 1, the body 12 is to be bent to both sides with respect to the body bending groove 16, so that the body 12 is always bent at a constant position so that an accurate angle can be formed. It is to.

The connection bending groove 15 and the body bending groove 16 are formed intaglio on one surface of the connector 10, and the depth thereof is formed to 30% or less of the total thickness of the connector 10. For example, when the thickness of the connector 10 itself is 3 mm, the depth is formed to be 1 mm or less. Preferably from 0.2 to 0.5 mm. At this time, when the depth is formed to 1mm or more, there is a risk of breakage during bending, when forming to 0.2mm or less may not be smoothly made.

In addition, the connection bending groove 15 and the body bending groove 16 may be continuously formed as shown in FIG. 1, and may be formed in a dotted line shape although not shown in the drawing.

In addition, the body bending groove 16 is formed in the "l" shape as shown in Figure 1, but also formed in the "+" type or "*" shape to allow the body 12 to be bent in several directions. have.

In addition, the connection bending groove 15 and the body bending groove 16 may be formed only on one surface of the connector 10 or formed on both sides, respectively. When formed on both sides, the connecting end 14 may be easily folded by selecting in both directions.

Meanwhile, as shown in FIG. 1, the body 12 has a circular shape when two connection ends 14 are provided. As shown in FIGS. 4A, 4B, 4C, 4D, and 4E, the connection end 14 is formed as shown in FIG. In the case of a large number, it may consist of polygons equal to the number of the connection ends 14. However, when the body 12 is formed in a circular shape, and the connecting end 14 is two or more, it is preferable that the connection bending groove 15 is formed in an arc shape.

As described above, the body 12 according to the present invention may be formed into a polygon according to the number of the connecting ends 14 to intuitively grasp the relationship between the number of the connecting ends 14 and the figure.

And, as shown in Fig. 1, the end of each connecting end 14 is formed with a circular arc portion 14A. This arc portion 14A is for minimizing interference when fitted to the connecting pipe 20. A curved arc portion 14A is formed at the end of the connecting end 14 so that the insertion end is smoothly inserted without interfering with the inlet of the connecting pipe 20 when the connecting end 14 is fitted into the connecting pipe 20. You lose.

The through hole 13 formed in the center of the body 12 serves as a dispersion hole for dispersing the stress transmitted from each connection end 14, and the connection pipe 20 may be fitted.

And, on the surface of each connection end 14, that is, the surface on which the connection bent groove 15 is formed, a number 19 for indicating the number of each connection end 14 is displayed. This number 19 may be printed or engraved or embossed. This number 19 can eliminate the incorrect designation of the connection end 14 during assembly training. In addition, the assembly description can be made easier by using the number 19.

On the other hand, the three-dimensional model using the connector 10 described above, as shown in Figures 5a, 5b to 8b a plurality of connection pipes 20, the wheel member 30 to enable dynamic operation in the three-dimensional model, It further comprises a small wheel member 38, the finish 40 and the connector 50.

Connection pipe 20 is to form a three-dimensional model by connecting each connector 10, it is formed in a hollow shape. The length can be configured in various ways and can be cut to the required length.

The wheel member 30 is for the dynamic operation of the assembled three-dimensional model, the outer ring 32 and the inner ring 36, and the support rib 34 for radially connecting the outer ring 32 and the inner ring 36 It consists of The inner ring 36 is configured to fit the connecting pipe 20.

On the other hand, as shown in Figure 6a between the support ribs 34 and the outer ring 32 of the wheel member 30, a plurality of small wheel member 38, the connecting body 50, the finishing body 40, etc. It is integrally coupled by connecting ribs 37. That is, since the wheel member 30 is manufactured by injection molding, a plurality of small wheel members 38, a connecting body 50, a finishing body 40, and the like may be provided with the support ribs 34 and the outer ring of the wheel member 30. It is integrated in the state connected to each support rib 34 and the outer ring 32 by the connecting ribs 37 between (32).

The connecting rib 37 is configured to be easily broken by an external force. This is to allow the small wheel member 38 or the connector 50 and the finish 40 to be easily separated.

The small wheel member 38, the connecting body 50, and the finishing body 40, etc., are not separated from the wheel member 30 when unnecessary, and are used separately from the wheel member 30 only when necessary.

Small wheel member 38 is a disk-shaped fitting hole for fitting the connecting pipe 20 is formed in the center.

The finishing body 40 is a kind of stopper for fitting the end of the connecting pipe 20 is not connected to the connector 10, etc., the finishing process of the connection pipe 20, one side is formed with fittings, the other side A locking end is formed. Both ends of the connecting member 50 are fitted to two connecting pipes 20 so as to connect the two connecting pipes 20 to each other, and an annular protrusion is formed at the center thereof, and on both sides of the protruding end thereof. Each fitting part is formed.

Referring to the process of assembling the three-dimensional model using the components such as the connector 10, the connecting pipe 20, the wheel member 30 as follows.

First, in order to couple the connection pipe 20 to the connection end 14 of each connector 10, the reference numeral 19 shown in each connection end 14 is combined.

At this time, the connecting end 14 of each connector 10 is bent in the direction in which the connection bending groove 15 is formed or the opposite direction. Since the connection end 14 is formed with a connection bending groove 15, the connection position with the main body 12 is easily deformed without resistance.

In this process, the connection pipe 20 is fitted into the connection end 14 which is bent so that each connection pipe 20 is assembled in three dimensions by each connector 10.

In this process, since each connecting end 14 is deformed based on the connecting bending groove 15, each connecting end 14 is bent at the same position, so that the connection with each connecting pipe 20 is made accurately. The finished three-dimensional model can be assembled into the correct shape.

In addition, in order to make the two connection pipes 20 at 90 °, the body 12 is bent based on the body bending groove 16 formed in the body 12 of the connector 10. At this time, the body 12 is easily bent relative to the body bending groove 16. This is possible because the body bending groove 16 is formed to a certain depth.

In this way, the body 12 is bent to both sides by exactly 1/2 on the basis of the body bending groove 16, so that the corners of the three-dimensional model to form the correct angle.

On the other hand, in order to install the wheel member 30 in the lower part of the assembled three-dimensional model, the end of the connection pipe 20 of the lower side is fitted to the inner ring 36 of the wheel member 30. Therefore, the three-dimensional model is able to make a cloud movement by the wheel member (30). Of course, the wheel member 30 is not only used for rolling motion, but can be assembled with a watermill or a rotary blade.

At this time, when the small wheel member 38 is required, the small wheel member 38 is separated from the wheel member 30 after the connection rib 37 is broken.

In addition, the short connecting pipes 20 are connected to each other by sandwiching both ends of the connecting body 50 to each connecting pipe 20.

In addition, by inserting the finishing body 40 to one end of the connection pipe 20 is fitted to the inner ring 36 of the wheel member 30 or one end of the connection pipe 20 is not coupled to the other parts at the end strength It can be maintained or finished.

In this way, in order to use the finishing body 40 or the connecting body 50 is used after separating and separating the connecting rib 37 from the wheel member 30.

As described above, by forming the bent grooves 15 and 16 in the connector 10, the connection ends 14 are accurately bent at a predetermined position, and the main body 12 is bent to form an accurate angle. If the prefabricated three-dimensional model is used, the learner can correctly learn the properties of the three-dimensional figure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: connector 12: main body
13 through hole 14: connecting end
14A: arc part 15: connection bending groove
16: body bending groove 19: number
20: connection pipe 30: wheel member
32: outer ring 34: support rib
36: inner ring 37: connecting rib
38: small wheels 40: finish
50: connector

Claims (10)

A body having a through hole formed in the center thereof; And a plurality of connection ends extending radially from the body to be fitted with the connection pipes.
In the boundary region of the connection end and the body, a connection bending groove is formed so that the connection end is bent at a predetermined position.
The body is characterized in that the body bending groove is formed so that the bending of the entire body is made in a certain position,
End fittings with bending grooves. The method of claim 1,
The connection bending groove and the body bending groove is characterized in that the dotted line form or in succession,
End fittings with bending grooves. The method of claim 2,
The connection bending groove and the body bending groove are characterized in that each formed on one side or both sides,
End fittings with bending grooves. The method of claim 1,
The body is characterized in that the circular or polygonal,
End fittings with bending grooves. The method of claim 1,
The body bending groove is characterized in that consisting of a plurality,
End fittings with bending grooves. The method of claim 1,
End of the connecting end is characterized in that the curved arc is formed so as to be inserted without interference in the connecting pipe,
End fittings with bending grooves. The method of claim 1,
The surface of the connection end is characterized in that the number corresponding to the number of the connection end is displayed,
End fittings with bending grooves. A prefabricated three-dimensional model for learning using a connector having a bending groove according to any one of claims 1 to 7,
It characterized in that it comprises a plurality of connection pipes which are fitted to each of the connection end to connect each connector,
Prefabricated three-dimensional model for learning using a connector with a bending groove. 9. The method of claim 8,
Further comprising a wheel member for fitting to the connection pipe to form a wheel or a rotating body,
Prefabricated three-dimensional model for learning using a connector with a bending groove. 10. The method of claim 9,
The wheel member,
The outer ring and the inner ring and the support ribs connecting the outer ring and the inner ring,
Between each of the support ribs and the outer ring, a small wheel member, a closing body fitted to the end of the connecting pipe and connecting members for connecting the connecting pipe to each other are connected to the supporting rib and the outer ring by connecting ribs It is formed integrally,
Prefabricated three-dimensional model for learning using a connector with a bending groove.

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