CN113973499A

CN113973499A - 6-way connector module

Info

Publication number: CN113973499A
Application number: CN202080038729.1A
Authority: CN
Inventors: 金大玉
Original assignee: Kona I Co Ltd
Current assignee: Kona I Co Ltd
Priority date: 2019-07-16
Filing date: 2020-06-02
Publication date: 2022-01-25
Anticipated expiration: 2040-06-02
Also published as: CN113973499B; WO2021010592A1; KR102094641B1

Abstract

The present invention relates to a 6-way connector module for connecting a plurality of pipes or a plurality of columns in 6 directions of up, down, front, rear, left and right, wherein if a plurality of columns 230 of 2 connector modules 200 are made to face each other and 2 protrusions 232 of one connector module half are made to be coupled with male and female 2 grooves 234 of the opposite connector module half, a complete connector module in a square or rectangular parallelepiped form is formed, and by the coupling, complete groove portions 220 are formed after 2 groove portions 222 are coupled, so that groove portions 220 are formed on 6 sides of the connector module, respectively, and protruding portions 120 of a connecting body 100 are coupled with male and female groove portions 220, respectively.

Description

6-way connector module

Technical Field

The present invention relates to a 6-way connector module, and more particularly, to a connector module for connecting a circular tube and a square tube and a plurality of cylindrical bodies in a desired manner three-dimensionally in 6 directions.

Background

In the furniture field, there are many cases where more than 2 parts need to be connected, particularly where square or rectangular four corners or multiple circular tubes or multiple cylinders need to be connected. For example, in the case of connecting a plurality of square pipes, it is difficult for ordinary people who are not specialized to connect the square pipes because the square pipes are coupled by male and female parts having different sizes, welded after aligning the ends of the square pipes, or connected to each other by an additional connector, and an additional tool, a prop, and a skilled technique are required to connect the square pipes.

In addition, there is a method of assembling furniture such as a bookshelf or the like by connecting square irons which are not square tubes to each other. Fig. 1 shows an example of a bookshelf formed by such an angle bar connection system. As shown by dotted lines, the angle iron can expand the furniture according to the user's intention, but the expansion direction is limited to the side direction, and when a plurality of angle irons are combined, a fastening member such as a screw or a bolt is needed, and the angle iron having a screw hole at a predetermined distance is needed, so that the appearance is not beautiful.

Disclosure of Invention

Technical problem

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide a connector module in which a common person can couple a plurality of square pipes in a side direction by male and female coupling, and can couple the square pipes in a desired manner in 6 directions, i.e., up, down, front, rear, left, and right, even without a skilled technique or an additional tool.

Technical scheme

The present invention for achieving such an object provides a 6-way connector module, which includes: a rectangular parallelepiped connecting body 100 in which 2 plate-shaped brackets 110 each having a protrusion 112 are formed on the bottom surface, the protrusion 112 is coupled to an opening 12 formed on the opposite 2 sides of a square tube 10, and a square protrusion 120 is formed on the opposite side surface of the plate-shaped bracket; and 2 one-half connector modules 200, in which a groove 220 combined with the male and female parts of the protrusion 120 of the connector body 100 is formed at a side surface of 1, posts 230 are protruded at 4 corners in opposite directions of the groove 220, protrusions 232 and grooves 234 are formed at end surfaces of the posts 230 in diagonal directions, and a half of the groove 222 corresponding to a half of the groove 220 is formed between the 2 posts 230, and when the posts 230 of the 2 one-half connector modules 200 are opposed and the 2 protrusions 232 of the one-half connector module are combined with the 2 male and female parts of the groove 234 of the opposite one-half connector module, a complete connector module in a square or rectangular parallelepiped form is formed, and by the combination, the complete groove 220 is formed after the 2 half of the groove 222 are combined, so that the groove 220 is formed at 6 sides of the connector module, and the protrusion 120 of the connector 100 can be engaged with the groove 220.

Also, the present invention provides a 6-way connector module including: a cylindrical connection body 150 in which 2 circular arc brackets 130 having protrusions 132 are formed on the bottom surface, the protrusions 132 are coupled to 2 opposite openings 22 formed in the circular tube 20, and cylindrical protrusions 140 are formed on the opposite surfaces of the circular arc brackets; and 2 hemispherical half connector modules 400, each of which has a groove part 420 formed at a side surface of 1 to be coupled with the male and female parts of the protrusion part 140 of the connection body 150, posts 430 protruded at 4 corners in opposite directions of the groove part 420, protrusions 432 and grooves 434 formed at end surfaces of the plurality of posts 430 in diagonal directions, respectively, a half groove part 422 formed between the 2 posts 430 corresponding to a half of the groove part 420, and a complete connector module formed in a spherical shape by facing the plurality of posts 430 of the 2 hemispherical half connector modules 400 and coupling the 2 protrusions 432 of the one half connector module at one side with the male and female parts of the 2 grooves 434 of the opposite half connector module, and forming the complete groove part 420 after coupling the 2 half groove parts 422 by the coupling, thereby forming the groove parts 420 in 6 directions of the connector module, respectively, and the protrusion 140 of the connector 150 is coupled with the female and male recesses 420, respectively.

Also, the present invention provides a 6-way connector module including: a cylindrical connector 170 having 2 circular arc brackets 130 formed with protrusions 132 formed on the bottom surface thereof, the protrusions 132 being coupled to 2 opposite openings 22 formed in the circular tube 20, and cylindrical grooves 160 formed on the opposite surfaces of the circular arc brackets; and 2 hemispherical half connector modules 500, in which a protrusion 520 coupled with the male and female of the groove 160 of the connector 170 is formed at a side surface of 1, a protrusion 532 and a groove 534 are formed at 4 corners of opposite side end surfaces of the protrusion 520 along diagonal directions, respectively, a half protrusion 522 forming a half shape of the protrusion 520 in a right angle is protruded in 4 directions of the end surfaces, and when a plurality of end surfaces of the 2 hemispherical half connector modules 500 are made to face each other and the 2 protrusions 532 of one half connector module are coupled with the 2 male and female of the groove 534 of the opposite half connector module, a complete connector module is formed in a spherical shape, and the complete protrusion 520 is formed after the 2 half protrusions 522 are coupled by the coupling, thereby forming the protrusions 520 in 6 directions of the connector module, respectively, and the groove 160 of the connector 170 is coupled with the protrusion 520.

Also, the present invention provides a 6-way connector module including: a plate-shaped support body 40 coupled to an end surface of the square column 11 and having a male coupling portion 30 protruding from the surface thereof; a rectangular parallelepiped connecting body 100' which is coupled to the male coupling portion 30 of the plate-shaped support 40 in a male-female manner and has a rectangular protrusion 120 formed on the surface opposite to the plate-shaped support 40; and 2 one-half connector modules 200, in which a groove part 220 combined with the male and female parts of the protrusion part 120 of the connection body 100' is formed at a side surface of 1, posts 230 are protruded at 4 corners in opposite directions of the groove part 220, protrusions 232 and grooves 234 are formed at end surfaces of the posts 230 in diagonal directions, a half of groove parts 222 corresponding to a half of the groove part 220 are formed between the 2 posts 230, and if the posts 230 of the 2 one-half connector modules 200 are opposed and the 2 protrusions 232 of the one-half connector module are combined with the 2 male and female parts of the groove 234 of the opposite one-half connector module, a complete connector module in a square or rectangular parallelepiped form is formed, and by the combination, the complete groove part 220 is formed after the 2 half of groove parts 222 are combined, so that the groove parts 220 are formed at 6 sides of the connector module, and the protrusion 120 of the connector 100' can be coupled with the groove 220.

Also, the present invention provides a 6-way connector module including: a plate-shaped support 40' coupled to an end surface of the cylinder 21 and having a male coupling portion 30 protruded from the surface; a cylindrical connector 150 'coupled to the male coupling portion 30 of the plate-shaped support 40' and having a cylindrical protrusion 140 formed on the opposite surface of the plate-shaped support 40; and 2 hemispherical half connector modules 400, each of which has a groove part 420 formed at a side surface of 1 to be coupled with the male and female parts of the protrusion part 140 of the connection body 150', posts 430 protruded at 4 corners in opposite directions of the groove part 420, protrusions 432 and grooves 434 formed at end surfaces of the plurality of posts 430 in diagonal directions, respectively, and a half groove part 422 formed between the 2 posts 430 corresponding to a half of the groove part 420, and forms a complete connector module in a spherical shape by facing the plurality of posts 430 of the 2 hemispherical half connector modules 400 and coupling the 2 protrusions 432 of the one half connector module at one side with the male and female parts of the 2 grooves 434 of the opposite half connector module, and forms the complete groove part 420 after coupling the 2 half groove parts 422 by the coupling, thereby forming the groove parts 420 in 6 directions of the connector module, respectively, and the protrusion 140 of the connector 150' is engaged with the female and male recesses 420, respectively.

Also, the present invention provides a 6-way connector module including: a plate-shaped support 40' coupled to an end surface of the cylinder 21 and having a male coupling portion 30 protruded from the surface; a cylindrical connector 170' coupled to the male coupling portion 30 of the plate supporter 40' and having a cylindrical groove 160 formed on the opposite surface of the plate supporter 40 '; and 2 hemispherical half connector modules 500, in which a protrusion 520 coupled with the male and female of the groove 160 of the connector 170' is formed at a side surface of 1, a protrusion 532 and a groove 534 are formed at 4 corners of opposite side end surfaces of the protrusion 520 along a diagonal direction, respectively, a half protrusion 522 forming a half shape of the protrusion 520 in a right angle is protruded in 4 directions of the end surfaces, and when a plurality of end surfaces of the 2 hemispherical half connector modules 500 are made to face each other and the 2 protrusions 532 of one half connector module are coupled with the 2 male and female of the groove 534 of the opposite half connector module, a complete connector module is formed in a spherical shape, and the complete protrusion 520 is formed after the 2 half protrusions 522 are coupled by the coupling, thereby forming the protrusions 520 in 6 directions of the connector module, respectively, and the groove 160 of the connector 170' is engaged with the protrusion 520.

In the present invention, it is preferable that a unidirectional serration 125 is formed on a side surface of the

protrusion

120, 140 of the

contact body

100, 150, 100', 150', and a unidirectional serration 255 is formed on a wall surface of the

recess portion

220, 420 of the

half connector block

200, 400 to be engaged with the serration 125, so that the contact body inserted into the recess portion is coupled by engagement of the plurality of

serrations

125, 255.

Further, a plurality of pin holes P1 into which pins P can be inserted are preferably formed in the side surface of the body of the

connecting bodies

100, 150, 170, 100', 150', 170 '.

ADVANTAGEOUS EFFECTS OF INVENTION

With the connector module of the present invention thus constituted, even without skilled techniques or additional tools, a common person can combine the plurality of square tubes and the plurality of circular tubes by male-female combination, and in addition, the plurality of square columns and the plurality of circular columns can be combined in a desired manner in 6 directions, up, down, front, rear, left and right, which can greatly improve convenience of users and increase sales of furniture.

Drawings

Fig. 1 is a perspective view of a conventional bookshelf formed by angle bar connection.

Fig. 2 is an exploded perspective view of a first embodiment of a 6-way connector module according to the present invention, which is combined with a square tube along 6 directions.

Fig. 3 is an exploded perspective view showing the relationship of the connector module and the connection body.

Fig. 4 is an enlarged view of a main portion of fig. 3.

Fig. 5 is an exploded perspective view of a second embodiment of a 6-way connector module of the present invention, combined with a barrel.

Fig. 6 is an enlarged view of a main portion of fig. 5.

Fig. 7 is an exploded perspective view of a third embodiment of a 6-way connector module of the present invention.

Fig. 8 is an enlarged view of a main portion of fig. 7.

Fig. 9 is an exploded perspective view of a fourth embodiment of a 6-way connector module of the present invention.

Fig. 10 is an exploded perspective view of a fifth embodiment of a 6-way connector module of the present invention.

Fig. 11 is an exploded perspective view of a sixth embodiment of a 6-way connector module of the present invention.

Fig. 12 is a use state diagram and a main portion enlarged view of the first embodiment of the present invention.

Detailed Description

Fig. 2 is an exploded perspective view showing an example of a 6-way connector module according to a first embodiment of the present invention, which is coupled to a square tube 10 in 6 directions, fig. 3 is an exploded perspective view showing a relationship between the connector module and a connection body, and fig. 4 is an enlarged view of a main portion of fig. 3.

Although the square tube 10 is described as an example, the present invention can be easily applied to a rectangular shape other than the square shape.

As shown in fig. 2 to 4, the connector module of the present invention is substantially composed of a connector 100 connected to a square pipe 10 and a connector module 200 coupled to the connector.

The 2 plate-shaped brackets 110 having the protrusions 112 formed thereon are formed to face each other on the bottom surface of the connector 100, the protrusions 112 are coupled to the openings 12 formed on the 2 opposite sides of the square tube 10, and the square protrusions 120 are formed on the opposite surfaces of the plate-shaped brackets.

A complete shape, here a square-cube shaped connector module, is formed by combining 2 identically shaped connector modules 200.

A groove portion 220 coupled to the protrusion portion 120 of the connection body 100 is formed at a side surface of 1 of each connector module 200, specifically, at a side surface facing the connection body 100, posts 230 are protruded at 4 corners in opposite directions of the groove portion 220, protrusions 232 and grooves 234 are formed at end surfaces of the posts 230 in a diagonal direction, and a half groove portion 222 having a shape corresponding to a half of the groove portion 220 is formed between 2 posts 230.

When the plurality of posts 230 of the 2 first connector modules 200 are opposed to each other and the 2 protrusions 232 of the one first connector module are coupled to the 2 male and female grooves 234 of the opposite first connector module, a complete connector module in a square or rectangular parallelepiped form is formed, and by the coupling, the complete groove portions 220 are formed after the 2 half groove portions 222 are coupled to each other, so that the groove portions 220 are formed on 6 sides of the connector module, respectively, and as shown in fig. 2, the protruding portions 120 of the connecting body 100 are coupled to the male and female groove portions 220 in 6 directions, respectively.

Preferably, in a state where the connection body 100 is coupled to the connector module 200, there is a possibility that it is separated in a case where an impact is applied from the outside, and thus it is coupled in a manner that it is not separated when such an external impact is applied. For this reason, it is preferable that the one-way saw teeth 125 are formed on 4 sides as much as possible at the side of the protrusion 120 of the connection body 100, and the one-way saw teeth 255 which are correspondingly engaged with such saw teeth 125 in shape are formed at the wall surface of the recess part 220 of the connector module half 200. In this case, even if an external impact is applied, the connection body and the connector module are not easily separated from each other, and the stability of the connected body can be ensured. On the other hand, the connector and the connector module may be coupled to each other by press-fitting, if necessary.

Fig. 5 is an exploded perspective view showing a second example of the 6-way connector module of the present invention, which is combined with the barrel 20 along 6 directions, and fig. 6 is an enlarged view of a main portion of fig. 5.

As shown in fig. 5 to 6, the present embodiment is also composed of 2 parts, such as the connector 150 and the connector module 400.

The connecting body 150 has a cylindrical shape, and 2 circular arc brackets 130 each having a protrusion 132 are formed on the bottom surface of the connecting body 150, and the protrusions 132 are coupled to 2 opposite openings 22 formed in the circular tube 20, and cylindrical protrusions 140 are formed on the opposite surfaces of the circular arc brackets.

As with the previous embodiment, the connector modules 400 are divided into 2 identical shapes, but each is hemispherical in shape. A groove part 420 combined with the male and female parts of the protrusion part 140 of the connection body 150 is formed at a 1-side surface of the connector module 400, posts 430 are protruded at 4 corners in opposite directions of the groove part 420, protrusions 432 and grooves 434 are formed at end surfaces of the plurality of posts 430 in diagonal directions, respectively, and a half groove part 422 corresponding to a half of the groove part 420 is formed between 2 posts 430.

When the plurality of posts 430 of the 2 hemispherical half connector modules 400 are opposed to each other and the 2 protrusions 432 of one half connector module on one side are coupled with the 2 grooves 434 of the opposite half connector module in a male-female manner, a spherical complete connector module is formed, and by the coupling, the complete groove portions 420 are formed after the 2 half groove portions 422 are coupled, so that the groove portions 420 are formed in 6 directions of the connector module, respectively, and the protruding portions 140 of the connection bodies 150 are coupled with the groove portions 420 in a male-female manner, respectively.

As in the first embodiment, a plurality of

unidirectional serrations

125, 255 are formed in the protruding portion 140 of the connection body 150 and the recessed groove portion 420 of the connector block 400, respectively, in a mutually engaged form.

Although the circular tube and the cylindrical tube are exemplified in the present embodiment, it is to be understood that the present invention is applicable to an elliptical tube or the like in addition to a circular tube.

Fig. 7 is an exploded perspective view showing a third example of the 6-way connector module according to the present invention, in which the connector is a female type and the connector module is a male type and is coupled to the barrel 20 along 6 directions, and fig. 8 is an enlarged view of a main portion of fig. 7.

As shown in fig. 7 to 8, the present embodiment is also composed of 2 parts, such as the connector 170 and the connector module 500.

The connector 170 has a cylindrical shape, and 2 circular arc brackets 130 each having a protrusion 132 are formed on the bottom surface thereof, and the protrusion 132 is coupled to 2 opposite openings 22 formed in the circular tube 20, and a cylindrical groove 160 is formed on the opposite surface of the circular arc bracket.

The connector module 500 has a hemispherical shape, and has protrusions 520 formed on the side surface 1 of the connector module to be coupled with the male and female terminals of the groove 160 of the connector 170, protrusions 532 and grooves 534 formed on 4 corners of the opposite side end surfaces of the protrusions 520 in the diagonal direction, and a half protrusion 522 formed in a shape of a half of the protrusion 520 at a right angle in 4 directions of the end surfaces.

When the ends of the 2 hemispherical half connector modules 500 are faced to each other and the 2 protrusions 532 of one half connector module on one side are coupled with the 2 grooves 534 of the opposite half connector module in a male-female manner, a spherical complete connector module is formed, and by the coupling, the complete protrusions 520 are formed after the 2 half protrusions 522 are coupled, so that the protrusions 520 are formed in 6 directions of the connector module, respectively, and the grooves 160 of the connection body 170 are coupled with the 6 protrusions 520 in a male-female manner, respectively.

Preferably, the protrusion 520 is press-fit into the groove 160. For example, if the outer diameter of the protrusion 520 is slightly larger than the inner diameter of the groove 160, a stable coupling state can be maintained by press-fitting.

In order to make such press-fitting easier, a plurality of slits 162 are formed on the side of the groove 160 of the connector 170, and for example, if the slits 162 are formed in 4 directions at right angles, the protrusion 520 can be inserted more easily.

In addition, a cylindrical cover may be additionally provided around the body of the connection body 170 in order to beautify the appearance or protect the connection body.

Fig. 9 is an exploded perspective view showing a fourth example of the 6-way connector module of the present invention, which is an example of the connector module combined with the square post 11 along 6 directions.

In the present embodiment, a plate-shaped support 40 is further included, which is coupled to an end surface of the square column 11, and a male coupling portion 30 is protruded on the surface.

The rectangular parallelepiped connecting body 100' is coupled to the male coupling portion 30 of the plate-shaped support 40 in a male-female manner, and a rectangular protrusion 120 is formed on the surface of the plate-shaped support 40 opposite to the male coupling portion.

The structure of the connector module 200 coupled to the male and female connectors 100' is the same as that of the first embodiment, and the description thereof will be omitted.

As in the first embodiment, if the plurality of posts 230 of 2 connector module halves 200 are faced to each other and 2 protrusions 232 of one connector module half are coupled with the male and female 2 grooves 234 of the opposite connector module half, a complete connector module is formed, and by this coupling, 6 complete groove portions 220 are formed, and the protrusion portions 120 of the connection body 100' are coupled with the male and female groove portions 220, respectively, as in the first embodiment.

Fig. 10 is an exploded perspective view of a fifth embodiment of the 6-way connector module of the present invention, in the form of a cylinder.

In the present embodiment, a plate-shaped support body 40' is further included, which is combined with the end surface of the cylinder 21, and on the surface of which the male combining portion 30 is protruded.

The cylindrical connector 150' is coupled to the male coupling portion 30 of the plate-shaped support 40' in a male-female manner, and a cylindrical protrusion 140 is formed on the surface of the plate-shaped support 40' opposite to the male coupling portion.

The structure of the connector module 400 coupled with the male and female connectors 150' is the same as that of the second embodiment, and the description thereof will be omitted.

As in the second embodiment, if the plurality of posts 430 of the 2 hemispherical connector modules halves 400 are faced to each other and the 2 protrusions 432 of one connector module half on one side are coupled with the 2 grooves 434 of the opposite connector module half, a spherical complete connector module is formed, and by this coupling, 6 complete groove portions 420 are formed, and the protruding portions 140 of the connection bodies 150' are coupled with the groove portions 420 male and female, respectively.

Fig. 11 is an exploded perspective view of a sixth embodiment of the present invention, which is an example of combining the connector block of the third embodiment with a cylinder.

The cylindrical connector 170' is coupled to the male coupling portion 30 of the plate supporter 40' and has a cylindrical groove 160 formed on the opposite surface of the plate supporter 40 '.

Also, since 2 connector modules 500 having the same structure as that of the third embodiment are used, the description thereof will be omitted.

If the ends of the 2 hemispherical connector halves 500 are faced to each other and the 2 protrusions 532 of one connector half are coupled with the 2 grooves 534 of the opposite connector half, a spherical complete connector module is formed, and by the coupling, 6 complete protrusions 520 are formed, and the grooves 160 of the connection bodies 170' are coupled with the protrusions 520 male and female, respectively.

The foregoing cylindrical cover may also be provided in the present embodiment, as necessary.

In the above-described structure, it is preferable that all of the

connection bodies

100, 150, 100', 150' have the one-way serrations 125 formed on the side surfaces of the protruding

portions

120, 140, and the one-way serrations 255 formed on the wall surfaces of the corresponding recessed

grooves

220, 420 to be engaged with the serrations 125 in a corresponding shape.

Fig. 12 is a perspective view and a main portion enlarged view showing a 6-way connector module of the present invention, specifically, belonging to a frame state in which a plurality of square tubes are connected in 6 directions using the connecting body 100 and the connector module of the first embodiment. As shown in the drawings, if the connector module of the present invention is used, a plurality of square pipes can be easily connected in any direction of up, down, front, rear, left, and right according to a manner desired by a user. Although the square pipe is described as an example, the present invention can be applied to a case where not only the above-described circular pipe, cylindrical pipe, and square column but also a pipe having various shapes such as a triangular pipe and an elliptical pipe and a cylindrical pipe are connected.

As shown in the enlarged view, it is preferable that a plurality of pin holes P1 into which pins P can be inserted are formed in the side surface of the body of the

connection body

100, 150, 170, 100', 150', 170' of all the embodiments including the connection body 100 of the first embodiment of the present invention. Such pin holes P1 can be formed at a predetermined pitch, and can be arranged at a desired pitch.

In this case, as shown in the drawing, the pin P may be inserted into the pin hole P1, and a plate may be placed on the pin P, so that convenience in use may be maximized. Further, a decoration or the like can be provided to the pin P inserted into a desired pin hole, and the use can be diversified.

Also, preferably, in the case of using the aforementioned cylindrical cover, a hole corresponding to the pin hole P1 is also formed in such a cover.

Although the present invention has been described above by taking square tubes, circular tubes, square columns and circular columns as examples, the present invention is not limited to these shapes, and it should be understood that the present invention is applicable to all of triangles, ellipses and other polygons.

Claims

1. A6-way connector module is characterized in that,

the method comprises the following steps:

a rectangular parallelepiped connecting body (100) in which 2 plate-shaped brackets (110) each having a protrusion (112) are formed on the bottom surface, the protrusions (112) are coupled to openings (12) formed on the opposing 2 sides of a square tube (10), and a square protrusion (120) is formed on the opposite side surface of each plate-shaped bracket; and

2 half connector modules (200) each having a groove portion (220) formed on a side surface of 1 for male and female coupling with the protrusion portion (120) of the connector body (100), posts (230) respectively protruded at 4 corners in opposite directions of the groove portion (220), protrusions (232) and grooves (234) respectively formed on end surfaces of the plurality of posts (230) in a diagonal direction, and a half groove portion (222) corresponding to a half of the groove portion (220) formed between 2 posts (230),

when the plurality of columns (230) of the 2 first half connector modules (200) are made to face each other and the 2 protrusions (232) of one half connector module on one side are combined with the 2 male and female grooves (234) of the opposite half connector module, a complete connector module in a square or rectangular parallelepiped form is formed, and by the combination, the complete groove portions (220) are formed after the 2 half groove portions (222) are combined, so that the groove portions (220) are formed on 6 sides of the connector module, respectively, and the protruding portions (120) of the connecting body (100) are combined with the male and female groove portions (220), respectively,

one-way saw teeth (125) are formed on the side surface of the protruding part (120) of the connector (100), and one-way saw teeth (255) which are engaged with the saw teeth (125) correspondingly in shape are formed on the wall surface of the groove part (220) of the connector module half (200), so that the connector inserted into the groove part is combined by the engagement of the plurality of saw teeth (125, 255).

2. A6-way connector module is characterized in that,

the method comprises the following steps:

a cylindrical connecting body (150) in which 2 circular arc brackets (130) each having a protrusion (132) are formed on the bottom surface, the protrusions (132) are coupled to 2 opposite openings (22) formed in the circular tube (20), and cylindrical protrusions (140) are formed on the opposite side surfaces of the circular arc brackets; and

a hemispherical 2-half connector module (400) having a groove part (420) formed at a side surface 1 to be coupled with a male and female of the protrusion part (140) of the connector (150), posts (430) respectively protruded at 4 corners in opposite directions of the groove part (420), protrusions (432) and grooves (434) respectively formed at end surfaces of the plurality of posts (430) in a diagonal direction, a half groove part (422) formed between the 2 posts (430) corresponding to a half of the groove part (420),

when a plurality of columns (430) of 2 hemispherical half connector modules (400) are faced to each other and 2 protrusions (432) of one half connector module are coupled with male and female 2 grooves (434) of the opposite half connector module, a complete spherical connector module is formed, and by the coupling, complete groove portions (420) are formed after coupling 2 half groove portions (422), so that groove portions (420) are formed in 6 directions of the connector module, respectively, and protruding portions (140) of the connecting bodies (150) are coupled with male and female groove portions (420), respectively,

one-way saw teeth (125) are formed on the side surface of the protruding part (140) of the connecting body (150), and one-way saw teeth (255) which are engaged with the saw teeth (125) correspondingly in shape are formed on the wall surface of the groove part (420) of the half connector module (400), so that the connecting body inserted into the groove part is combined by the engagement of the plurality of saw teeth (125, 255).

3. A6-way connector module is characterized in that,

the method comprises the following steps:

a cylindrical connecting body (170) in which 2 circular arc brackets (130) each having a protrusion (132) are formed on the bottom surface, the protrusions (132) are coupled to 2 opposite openings (22) formed in the circular tube (20), and cylindrical grooves (160) are formed on the opposite side surfaces of the circular arc brackets; and

a hemispherical 2-half connector module (500) in which a protrusion (520) for male-female coupling with a groove (160) of the connector (170) is formed on a side surface of 1, a protrusion (532) and a groove (534) are formed on 4 corners of opposite side end surfaces of the protrusion (520) along a diagonal direction, and a half protrusion (522) forming a half shape of the protrusion (520) and forming a right angle is protruded in 4 directions of the end surfaces,

when the end parts of 2 hemispherical half connector modules (500) are faced to each other and 2 protrusions (532) of one half connector module are coupled with the male and female parts of 2 grooves (534) of the opposite half connector module, a spherical complete connector module is formed, and by the coupling, complete protrusions (520) are formed after the 2 half protrusions (522) are coupled, so that protrusions (520) are formed in 6 directions of the connector module, and the grooves (160) of the connecting body (170) are coupled with the male and female parts of the protrusions (520), respectively.

4. A6-way connector module is characterized in that,

the method comprises the following steps:

a plate-shaped support body (40) which is joined to the end surface of the square column (11) and has a male joint section (30) protruding from the surface thereof;

a rectangular parallelepiped connecting body (100') which is coupled to the male and female coupling portions (30) of the plate-shaped support body (40) and has a rectangular protruding portion (120) formed on the opposite surface of the plate-shaped support body (40); and

2 half connector modules (200) each having a groove portion (220) formed on a side surface of 1 for male and female coupling with the protrusion portion (120) of the connector body (100'), posts (230) protruded at 4 corners in opposite directions of the groove portion (220), protrusions (232) and grooves (234) formed on end surfaces of the plurality of posts (230) in diagonal directions, and a half groove portion (222) formed between 2 posts (230) corresponding to a half of the groove portion (220),

when the plurality of columns (230) of the 2 first connector modules (200) are made to face each other and the 2 protrusions (232) of one connector module on one side are combined with the 2 slots (234) of the opposite connector module on one side, a complete connector module in a square or rectangular parallelepiped form is formed, and by the combination, the complete slot portions (220) are formed after the 2 half slot portions (222) are combined, so that the slot portions (220) are formed on 6 sides of the connector module, and the protruding portions (120) of the connecting body (100') are combined with the male and female slot portions (220), respectively.

5. A6-way connector module is characterized in that,

the method comprises the following steps:

a plate-shaped support body (40') which is joined to the end surface of the column (21) and has a male joining section (30) protruding from the surface thereof;

a cylindrical connector (150') which is coupled to the male and female coupling portions (30) of the plate-shaped support body (40') and has a cylindrical protrusion (140) formed on the opposite side surface of the plate-shaped support body (40 '); and

a hemispherical 2-half connector module (400) having a groove part (420) formed at a side surface 1 to be coupled with a male and female of the protrusion part (140) of the connector (150'), posts (430) protruded at 4 corners in opposite directions of the groove part (420), protrusions (432) and grooves (434) formed at end surfaces of the plurality of posts (430) in diagonal directions, and a half groove part (422) formed between the 2 posts (430) corresponding to a half of the groove part (420),

when a plurality of columns (430) of 2 hemispherical half connector modules (400) are faced to each other and 2 protrusions (432) of one half connector module are coupled with male and female 2 grooves (434) of the opposite half connector module, a spherical complete connector module is formed, and by the coupling, complete groove portions (420) are formed after coupling 2 half groove portions (422), so that groove portions (420) are formed in 6 directions of the connector module, respectively, and protruding portions (140) of the connecting bodies (150') are coupled with male and female groove portions (420), respectively.

6. A6-way connector module is characterized in that,

the method comprises the following steps:

a cylindrical connector 170' coupled to the male coupling portion 30 of the plate-shaped support 40' and having a cylindrical groove 160 formed on the opposite surface of the plate-shaped support 40 '; and

a hemispherical 2-half connector module (500) in which a protrusion (520) for male-female coupling with the groove (160) of the connector (170') is formed on a side surface of 1, a protrusion (532) and a groove (534) are formed on 4 corners of opposite side end surfaces of the protrusion (520) along a diagonal direction, and a half protrusion (522) forming a half shape of the protrusion (520) and forming a right angle is protruded in 4 directions of the end surfaces,

when the end parts of 2 hemispherical half connector modules (500) are faced to each other and 2 protrusions (532) of one half connector module are coupled with the male and female parts of 2 grooves (534) of the opposite half connector module, a spherical complete connector module is formed, and by the coupling, complete protrusions (520) are formed after the 2 half protrusions (522) are coupled, so that protrusions (520) are formed in 6 directions of the connector module, and the grooves (160) of the connecting body (170') are coupled with the male and female parts of the protrusions (520), respectively.

7. The 6-way connector module according to claim 4 or 5, wherein one-way serrations (125) are formed on the side surfaces of the protruding portions (120, 140) of the connection bodies (100', 150'), and one-way serrations (255) are formed on the wall surfaces of the recess portions (220, 420) of the one half connector module (200, 400) to be engaged with the serrations (125) correspondingly in shape, so that the connection bodies inserted into the recess portions are coupled by engagement of a plurality of the serrations (125, 255).

8. The 6-way connector module according to any one of claims 1 to 6, wherein a plurality of pin holes (P1) into which pins (P) can be inserted are formed in the side of the body of the connecting body (100, 150, 170, 100', 150', 170 ').