KR20150069046A - Supporting fixture - Google Patents

Abstract

The present invention relates to a supporter capable of placing objects thereon or supporting the objects and, more specifically, to a supporter capable of stably supporting heavy objects placed thereon. The supporter has a connection unit (10) having a horizontal insertion part (11) wherein a horizontal frame (B1) is inserted and a vertical insertion part (12) wherein a vertical frame (B2) is inserted. The present invention can support the heavy objects without damage as the load of the objects is separately applied to the horizontal insertion part and the vertical insertion part.

Description

SUPPORTING FIXTURE

The present invention is a support which can support or support an object, and can stably support even a heavy object.

As is well known, the support generally includes a horizontal frame B1 arranged in a horizontal direction and a vertical frame B2 arranged in a vertical direction as shown in FIG. 1, (B1) and the vertical frame (B2) are interconnected by a connector (C).

At this time, the horizontal frame B1 is horizontally inserted into the horizontal insertion portion C1 of the connector C and the vertical frames B2 are vertically inserted into the vertical insertion portion C2 to be interconnected with each other .

In the case of the conventional support 1 including the connector C and the horizontal and vertical frames B1 and B2, the connector C may be broken when a heavy object is lifted.

In other words, in the case of the horizontal frame B1, the load is inserted into the horizontal insertion portion C1 to support the load of the object, so that the load is transferred to the horizontal insertion portion C1.

Therefore, when a heavy object is lifted, the horizontal insertion portion C1 is broken and the support 1 is disassembled.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a support capable of supporting a horizontal object and a vertical object by dividing a load of an object without damaging even if a heavy object is placed thereon.

In order to accomplish the above object, the present invention provides a video camera comprising a horizontal insertion part (11) for inserting a horizontal frame (B1) and a connection port (10) for forming a vertical insertion part (12) The horizontal insertion portion 11 is formed with a horizontal insertion groove 11a which is recessed at a predetermined depth to insert the horizontal frame B1 and the vertical insertion portion 12 is formed with a predetermined The horizontal insertion groove 12a is formed so as to extend to a portion of the vertical insertion groove 12a so that a part of the horizontal frame B1 is inserted into the vertical insertion groove 12a ).

The connector 10 includes an inner connector 100 disposed between neighboring horizontal frames B1 and an outer connector 100 disposed on the outer sides of the outermost horizontal frames B1 on both sides of the horizontal frame B1. 200 and the inner connector 100 are arranged in a plurality of rows in the width direction and the vertical direction and the inner connector 100 is arranged at the uppermost position in the height direction, And an upper inner connector (110), a lower inner connector (130) and a central inner connector (120), wherein the outer connector (200) The horizontal insertion groove of the inner connection port 100 and the outer connection hole 200 are formed to extend to a portion of the vertical insertion groove, Horizontal It is also possible that a part of the frame B1 extends over the vertical insertion groove.

The upper inner connector 110 includes a first horizontal insertion portion 111-1 and a second horizontal insertion portion 111-2 in which the horizontal lines of the same line are inserted from the left and right sides, A third horizontal insertion portion 113 into which a connection frame B3 disposed between the upper inner connecting portion 110 and the upper inner connecting portion 110 which are adjacent to each other in the width direction is inserted and a vertical insertion portion 112 into which the vertical frame B2 is inserted, The horizontal insertion slot 111a of the first horizontal insertion portion 111-1 and the horizontal insertion slot 111a of the second horizontal insertion portion 111-2 are communicated with each other so that the horizontal frame B1 is inserted into the vertical insertion slot 112a, And the horizontal insertion groove 113a of the third horizontal insertion portion 113 is formed to extend to a portion of the vertical insertion groove 112a so that a part of the connection frame B3 is inserted into the vertical insertion groove 112a, Or may be formed so as to extend over the upper surface 112a.

The lower inner connecting part 130 includes a vertical insertion part 132 in which a vertical frame B2 is inserted and a connection frame B3 arranged between another lower inner connecting part 130 in the width direction, 3 horizontally inserting portion 133 as shown in Fig.

It is also possible to further include a first horizontal insertion portion and a second horizontal insertion portion into which the horizontal frame B1 is inserted from both sides.

The center inner connector 120 includes a first vertical insertion portion 122-1 and a second vertical insertion portion 122-2 in which the vertical frame B1 is inserted in the vertical direction, A first horizontal inserting portion 121-1 and a second horizontal inserting portion 121-2 which are inserted from the right and left sides of the connecting frame B1, And a third horizontal inserting portion 123 into which the first horizontal insertion portion B3 is inserted,

The horizontal insertion holes 121a of the first horizontal insertion portion 121-1 and the horizontal insertion slots 121a of the second horizontal insertion portion 121-2 are communicated with each other so that the horizontal frame B1 passes over the vertical insertion groove 122a And the horizontal insertion groove 123a of the third horizontal insertion portion 123 is inserted into the vertical insertion groove 122a of the first vertical insertion portion 122-1 and the second vertical insertion portion 122-2, It is also possible that a part of the connection frame B3 is formed to extend over the vertical insertion groove 122a.

The upper outer connector 210 is disposed between a first horizontal insertion portion 211 into which the horizontal frame is inserted and another upper outer connector 210 which is adjacent to the upper outer connector 210 in the width direction A horizontal insertion slot 213 in which the connection frame B3 is inserted and a vertical insertion slot 212 in which the vertical frame B2 is inserted, 211a may be formed so as to extend to a portion of the vertical insertion groove 212a so that a part of the horizontal frame B1 extends over a part of the vertical insertion groove 212a, It is also possible that the horizontal insertion groove 213a is formed to extend to a portion of the vertical insertion groove 212a so that a part of the connection frame B3 extends over the vertical insertion groove 212a.

The center outer connector 220 includes a first vertical insertion portion 222-1 and a second vertical insertion portion 222-2 in which the vertical frame B2 is inserted in the vertical direction, And a third horizontal insertion portion (223) into which a connection frame (B3), which is disposed between the adjacent center outer connection ports (220), is inserted, wherein the first horizontal insertion portion (221) The horizontal insertion groove 221a of the horizontal insertion portion 221 is formed to extend to a portion of the vertical insertion groove 222a so that a part of the horizontal frame B1 extends over a part of the vertical insertion groove 222a Or a horizontal insertion groove 223a of the third horizontal insertion portion 223 is formed to extend to a portion of the vertical insertion groove 222a so that a part of the connection frame B3 extends over the vertical insertion groove 222a .

The lower outer connector 230 includes a vertical insertion portion 232 to which the vertical frame B2 is inserted and a connection frame B3 disposed between the other lower inner connection portion 230 adjacent to the lower vertical connector B2. 3 horizontally inserting portion 233 as shown in Fig.

The lower outer connector 230 includes a first horizontal insertion portion 231 into which the horizontal frame B1 is inserted, a vertical insertion portion 232 into which the vertical frame B2 is inserted, And a third horizontal insertion portion 233 into which the connection frame B3 disposed between the inner connection ports 230 is inserted.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

According to the present invention, the load of the object is dispersed in the horizontal insertion portion and the vertical insertion portion, so that even when a heavy object is disposed, the load can be supported without being damaged.

1 is a partial cross-sectional perspective view showing a conventional connector,
FIG. 2 is a partial cross-sectional perspective view showing a connector according to an embodiment of the present invention; FIG.
3 is a perspective view showing a support according to an embodiment of the present invention,
FIGS. 4A through 4C are a perspective view showing an upper inner connector according to an embodiment of the present invention, and a partial cross-
5A-5C are perspective views showing a central inboard connector according to one embodiment of the present invention, and partially cutaway perspective views from the front and side,
FIGS. 6A and 6B are a perspective view showing a lower inner connector according to an embodiment of the present invention,
FIGS. 7A through 7C are a perspective view showing a connector disposed on the left side of an upper outer connector according to an embodiment of the present invention,
8A to 8C are a perspective view and a partial cross-sectional perspective view, respectively, illustrating the center outboard connector according to one embodiment of the present invention, and front and side views.
9A-9B are perspective and partial cross-sectional perspective views of a lower outer connector according to an embodiment of the present invention.
10A to 10C are a perspective view showing a lower outer connector according to another embodiment of the present invention, and a partial cross-sectional perspective view viewed from the front and side.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as exemplifications of the constituent elements set forth in the claims of the present invention, and are included in technical ideas throughout the specification of the present invention, Embodiments that include components replaceable as equivalents in the elements may be included within the scope of the present invention.

3 is a perspective view illustrating a support according to an embodiment of the present invention, and FIGS. 4A to 4C are views showing an embodiment of the present invention. FIG. 3 is a perspective view of a support according to an embodiment of the present invention. FIGS. 5A to 5C are cross-sectional perspective views illustrating a connector disposed on the left side of the upper outer connector according to an embodiment of the present invention, and FIGS. 5A to 5C are perspective views, respectively, FIGS. 6A and 6B are a perspective view and a partial cross-sectional perspective view, respectively, of a connector disposed on the left side of a lower outer connector according to an embodiment of the present invention; FIGS. 7A to 7C are perspective views, Fig. 7C is a perspective view showing an upper inner connector according to an embodiment of the present invention, and a partial cross-sectional perspective view seen from a front side and a side view, Fig. Figure 8c is a partial cross-sectional perspective view as viewed from the front and side perspective view and showing a central inner connector according to one embodiment of the present invention.

Example

2, the support 10 according to an embodiment of the present invention includes a horizontal insertion portion 11 into which the horizontal frame B1 is inserted, a vertical insertion portion 12 into which the vertical frame B2 is inserted, The horizontal insertion portion 11 is formed with a horizontal insertion groove 11a formed therein at a predetermined depth so as to insert the horizontal frame B1. The vertical insertion portion 12, A vertical insertion groove 12a is formed at a predetermined depth to insert the vertical frame B2.

At this time, the horizontal insertion groove 11a is formed so as to extend to a portion of the vertical insertion groove 12a, and a part of the horizontal frame B1 is struck by a distance L on a part of the vertical insertion groove 12a.

That is, since the horizontal insertion slot 11a enters the vertical insertion slot 12a by the distance L, the horizontal frame B1 inserted into the horizontal insertion slot 11a is inserted into the vertical insertion slot 12a As shown in FIG.

According to the present invention, since the load applied to the horizontal frame B1 is dispersed and acted on the horizontal insertion portion 11 and the vertical insertion portion 12, it is possible to support an object heavier than the conventional one.

The horizontal frame B1 and the vertical frame B2 are inserted into the horizontal insertion groove 11a and the vertical insertion groove 12a as described above, And the same applies to each of the connectors described below, so that a duplicate description will be omitted.

2, the horizontal insertion portions 11 are arranged in the x direction in the figure and the vertical insertion portions 12 are arranged in the z direction in the figure and are formed to be orthogonal to each other. As long as the load can be dispersed in the horizontal insertion portion 11 and the vertical insertion portion 12 as described above, it falls within the scope of the present invention. Do.

The horizontal insertion groove 11a and the vertical insertion groove 12a may have a rectangular cross section as shown in the figure and are only examples corresponding to the cross sections of the horizontal frame B1 and the vertical frame B2 The horizontal frame B1 and the vertical frame B2 can be inserted into the frame of the present invention.

3, the connector 10 includes an inner connector 100 disposed between neighboring horizontal frames B1 and an inner connector 100 disposed on the outer side of the outermost horizontal frame B1 among the horizontal frames B1, And may include an outer connector 200 disposed in each case.

At this time, the outer connector 200 and the inner connector 100 may be arranged in a plurality of rows in the width direction (Y direction) and the vertical direction (Z direction) to form a support as a whole.

The inner connector 100 may include an upper inner connector 110, a lower inner connector 130 and a center inner connector 120 disposed at the uppermost position, the lowest position and the uppermost position in the height direction, respectively, The upper outer connector 210, the lower outer connector 230, and the center outer connector 220, which are disposed at the uppermost, lowermost, and intermediate positions in the height direction, respectively.

That is, as shown in FIG. 2, the outer connector 200 is disposed on the left and right sides of the inner connector 100 in the drawing, and one row is arranged in the same arrangement in the width direction (Y direction) The support base 1 can be formed.

At this time, the horizontal insertion grooves of the inner connector 100 and the outer connector 200 are formed to extend to a portion of the vertical insertion groove, so that a part of the horizontal frame B1 extends over a part of the vertical insertion groove, The load acting on the horizontal frame B1 is dispersed and acted on the horizontal insertion portion 11 and the vertical insertion portion 12 so that it is possible to support a heavier object than the conventional one. Will be described in detail.

4A, the upper inner connector 110 includes a first horizontal inserting portion 111-1 and a second horizontal inserting portion 111-2 in which the horizontal line frames of the same line are respectively inserted from the left and right sides, A third horizontal insertion portion 113 into which a connection frame B3 disposed between the inner connection port 110 and another upper inner connection 110 adjacent in the width direction is inserted; (112).

That is, the first horizontal insertion portion 111-1 and the second horizontal insertion portion 111-2 are formed at left and right sides in the X direction in the figure, the third horizontal insertion portion 113 is formed in the Y direction, The vertical insertion portion 112 may be formed to insert the horizontal frame B1, the connection frame B3, and the vertical frame B2.

At this time, as shown in FIG. 7B, which is a perspective view taken along the direction aa of FIG. 7A, the horizontal insertion grooves 111a of the first horizontal insertion portion 111-1 and the second horizontal insertion portion 111-2 are communicated with each other The horizontal frame B1 is formed to span over the vertical insertion groove 112a.

According to the upper inner coupling 110 of the present invention, since the horizontal insertion slot 111a of the upper inner coupling hole 110 is communicated, the upper inner coupling hole 110 can freely move along the horizontal frame B1 . Accordingly, it is possible to more effectively support the weight by moving the upper inner connector 110 at a portion where a heavy load acts locally.

To this end, both the upper inner coupling 110 and the central inner coupling 120 described below can be cast by die casting to improve the strength.

7C, which is a perspective view taken along the line bb in FIG. 7A, the horizontal insertion groove 113a of the third horizontal insertion portion 113 is extended to a portion of the vertical insertion groove 112a by a distance L So that a part of the connecting frame B3 may extend over the vertical insertion groove 112a.

As a result, the load can be dispersed in the horizontal insertion groove 113a and the vertical insertion groove 112a as described above.

Meanwhile, the upper inner connection 110-3, which is adjacent in the width direction of the upper inner connection 110, is symmetrical with the upper inner connection 110 in the x direction, so that redundant description and illustration are omitted.

5A, the central inner connector 120 includes a first vertical insertion portion 122-1 and a second vertical insertion portion 122-2 in which the vertical frame B1 is vertically inserted, A first horizontal inserting portion 121-1 and a second horizontal inserting portion 121-2 in which the horizontal line B1 on the same line is inserted from the left and right sides, And a third horizontal insertion portion 123 into which the connection frame B3 to be arranged is inserted.

That is, the first horizontal insertion portion 121-1 and the second horizontal insertion portion 121-2 are formed at left and right sides in the X direction in the drawing, and the horizontal insertion groove 121a is communicated, The horizontal insertion portion 123 is formed and the connection frame B3 is inserted and the first vertical insertion portion 122-1 and the second vertical insertion portion 122-2 are formed vertically in the Z direction, Respectively.

5B, a horizontal insertion groove 121a of the first horizontal insertion portion 121-1 and a horizontal insertion groove 121a of the second horizontal insertion portion 121-2 are communicated with each other as shown in FIG. 5B, The horizontal frame B1 may be formed to extend over the vertical insertion groove 122a so that the central inner connector 120 freely moves on the horizontal frame B1 as described above, Can be deployed.

After the horizontal frame B1 is cut according to the working environment, the horizontal frame B1 is inserted into both the first horizontal insertion portion 121-1 and the second horizontal insertion portion 121-2, It is also possible to fix it through and to assemble more easily.

5C, a horizontal insertion groove 123a of the third horizontal insertion portion 123 is inserted into the first vertical insertion portion 122-1 and the second vertical insertion portion 123b, as shown in FIG. 5C, It is also possible that a part of the connecting frame B3 is formed so as to extend over a part of the vertical insertion groove 122a by entering the distance L on the vertical insertion groove 122a of the part 122-2, Load distribution as shown in Fig.

6A, the lower inner connector 130 includes a vertical insertion portion 132 to which the vertical frame B2 is inserted and a connection frame 130 disposed between the lower inner connector 130 and the lower inner connector 130, And a third horizontal inserting portion 133 into which the first and second horizontal inserting portions B3 and B3 are inserted.

6B, the vertical insertion groove 132a of the vertical insertion portion 132 extends over the horizontal insertion portion 133 so that the load can be dispersed. As shown in FIG.

6A and 6B, the lower inner connector 130 has no horizontal insertion portion corresponding to the x direction in the drawing, so that the horizontal frame B1 is not mounted. This prevents the horizontal frame from being installed, .

The horizontal frame B1 is mounted on the lower inner connecting part 130 and the lower outer connecting part 130-3 spaced apart from the lower inner connecting part 130 by a predetermined distance in the left and right direction of the lower outer connecting part 130 The first horizontal insertion portion and the second horizontal insertion portion are formed symmetrically with respect to the upper inner coupling 110, so that overlapping description and illustration are omitted.

7A, the upper outer connector 210 includes a first horizontal insertion portion 211 into which the horizontal frame is inserted, and a second horizontal insertion portion 211 which is adjacent to the upper outer connector 210 in the width direction (Y direction) A third horizontal insertion portion 213 into which a connection frame B3 disposed between the outer connection port 210 is inserted and a vertical insertion portion 212 into which the vertical frame B2 is inserted.

3, the first horizontal insertion portion 211 is formed on the right side in the X direction to insert the horizontal frame B1, A vertical insertion portion 212 is formed below the upper Z-direction to insert the vertical frame B2. In addition, a third horizontal insertion portion 213 is formed at the rear side in the Y direction in the drawing, and the connection frame B3 is inserted.

7A, the horizontal insertion groove 211a of the first horizontal insertion portion 211 is extended to a portion of the vertical insertion groove 212a as shown in FIG. 7B, And a part of the horizontal frame B1 is formed to extend over the vertical insertion groove 212a.

The horizontal insertion slot 211a is formed to enter the vertical insertion slot 212a by a distance L so that the horizontal frame B1 inserted into the horizontal insertion slot 211a is spaced apart from the vertical insertion slot 212a by a distance L .

According to the present invention, since the load is dispersed in the horizontal insertion portion 211 and the vertical insertion portion 212, it is possible to improve the performance of supporting the load as described above, thereby preventing damage to the support 1 have.

7C, which is a perspective sectional view taken along the line bb in FIG. 4A, the horizontal insertion groove 213a of the third horizontal insertion portion 213 also enters the vertical insertion groove 212a by a distance L So that the connection frame B3 is allowed to extend over the vertical insertion groove 212a.

The width M2 of the vertical insertion groove 212a of the vertical insertion portion 212 is set larger than the width M1 of the horizontal insertion groove 211a as shown in FIG. (B3) may be placed on the vertical insertion groove 212a.

In addition, the first horizontal insertion portion 211, the vertical insertion portion 212, and the third horizontal insertion portion 213 may be formed to be orthogonal to each other in the X, Y, and Z directions as shown in the drawing, As long as the horizontal frame B1, the vertical frame B2 and the connecting frame B3 can be inserted and supported as described above, the first horizontal inserting portion 211, The vertical insertion portion 212, and the third horizontal insertion portion 213 are changed, it goes without saying that the present invention belongs to the category of the present invention.

3, the upper outer connectors 210-2 are symmetrical with respect to the Y direction, and the upper outer connectors 210-3 and 210-4 arranged in another row in the width direction are symmetrical in the X direction, Description and illustration are omitted.

8A, the center outer connector 220 includes a first vertical insertion portion 222-1 and a second vertical insertion portion 222-2 in which the vertical frame B2 is inserted in the vertical direction, A third horizontal insertion portion 223 into which a connection frame B3 disposed between the adjacent center outer connection ports 220 is inserted is provided with a first horizontal insertion portion 221 into which the horizontal frame B1 is inserted, .

That is, the first vertical inserting portion 222-1 and the second vertical inserting portion 222-2 are formed on the upper and lower sides in the Z direction in the figure, and the horizontal inserting portion 221 is formed in the X direction in the drawing, The third horizontal insertion portion 223 can be formed in the Y direction in the drawing.

8A, the horizontal insertion groove 221a of the first horizontal insertion portion 221 is extended to a portion of the vertical insertion groove 222a by a distance L, as shown in FIG. 8B, And a part of the horizontal frame B1 extends over the vertical insertion groove 222a so that the load is dispersed toward the horizontal insertion groove 221a and the vertical insertion groove 222a as described above.

8C, a horizontal insertion groove 223a of the third horizontal insertion portion 223 is extended to a portion of the vertical insertion groove 222a by a distance L, as shown in FIG. 8C, And a part of the connecting frame B3 is formed to cover a part of the vertical insertion groove 222a, so that the load can be dispersed.

8A to 8C are perspective views showing the center outboard connector 220 disposed on the left side in FIG. 3, the center outboard connector 220-2 disposed on the right side in the drawing is symmetrical in the Y direction and disposed in another row in the width direction And the center outer side connectors 220-3 and 220-4 are overlapped in the X direction and are not shown.

9A, the lower outer connector 230 includes a vertical insertion portion 232 to which the vertical frame B2 is inserted, and a connection frame (not shown) disposed between another lower inner connection portion 230 that is adjacent in the width direction B3) is inserted into the third horizontal insertion portion 233.

At this time, as shown in FIG. 9B, which is a cross section taken along the line bb in FIG. 9A, the vertical insertion groove 232a of the vertical insertion portion 232 is extended on the horizontal insertion portion 233 to disperse the load.

9A to 9B, the lower outer connector 220 has no horizontal insertion portion corresponding to the x direction in the drawing, so that the horizontal frame B1 is not mounted. This prevents the horizontal frame from being installed, .

9A and 9B, since the vertical frame B2 is placed on the connection frame B3, the lower outer connector 220 may be structurally unstable. Therefore, as shown in FIG. 9C, It is also possible to form the third horizontal insertion groove 233a to the side of the bottom frame 232a and to bring the vertical frame B2 down to the bottom.

10A, the lower horizontal connector 230 and the lower horizontal connector 230-4 (see FIG. 3) spaced apart from each other in the width direction may include a first horizontal insertion portion And a third horizontal inserting portion 233 for inserting a connecting frame B3 disposed between the vertical inserting portion 232 into which the vertical frame B2 is inserted and another lower inner connecting portion 230 adjacent in the width direction, ).

10B and 10C, after the vertical insertion groove 232a of the vertical insertion portion 232 is formed up to the bottom as described above, the third horizontal It is also possible to form the insertion groove 231a and the third horizontal insertion groove 233a of the third horizontal insertion portion 233 up to the side of the vertical insertion groove 232a.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification or improvement is possible.

It is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: inner connector 110: upper inner connector
120: central medial connector 130: lower medial connector
200: outer connection port 210: upper outer connection port
220: central medial connector 230: lower outer connector

Claims (10)

A horizontal insertion portion 11 into which the horizontal frame B1 is inserted and a vertical insertion portion 12 into which the vertical frame B2 is inserted,
The horizontal insertion portion 11 is formed with a horizontal insertion groove 11a formed therein with a predetermined depth to insert the horizontal frame B1,
The vertical inserting portion 12 is formed with a vertical insertion groove 12a having a predetermined depth to insert the vertical frame B2,
Wherein the horizontal insertion groove 11a is formed so as to extend to a portion of the vertical insertion groove 12a so that a part of the horizontal frame B1 extends over the vertical insertion groove 12a. The method according to claim 1,
The connector 10 includes an inner connector 100 disposed between neighboring horizontal frames B1 and an outer connector 200 disposed on the outer sides of the outermost horizontal frames B1 on both sides of the horizontal frame B1. , ≪ / RTI &
The outer connector 200 and the inner connector 100 are arranged in a plurality of rows in the width direction and the vertical direction,
The inner connector 100 includes an upper inner connector 110, a lower inner connector 130, and a center inner connector 120 disposed at the uppermost portion, the lowermost portion,
The outer connector 200 includes an upper outer connector 210, a lower outer connector 230, and a center outer connector 220 disposed at the uppermost portion, the lowermost portion and the uppermost portion of the outer connector 200 in the height direction,
Wherein a horizontal insertion groove of the inner connector 100 and the outer connector 200 is formed to extend to a portion of the vertical insertion groove so that a part of the horizontal frame B1 extends over the vertical insertion groove. 3. The method of claim 2,
The upper inner connector 110 includes a first horizontal insertion portion 111-1 and a second horizontal insertion portion 111-2 in which the horizontal lines of the same line are respectively inserted from the left and right sides, A third horizontal insertion portion 113 into which a connection frame B3 disposed between another upper inner connection 110 adjacent in the width direction is inserted and a vertical insertion portion 112 into which the vertical frame B2 is inserted However,
The horizontal insertion slot 111a of the first horizontal insertion portion 111-1 and the horizontal insertion slot 111a of the second horizontal insertion portion 111-2 are communicated with each other so that the horizontal frame B1 is passed over the vertical insertion slot 112a Formed,
The horizontal insertion groove 113a of the third horizontal insertion portion 113 is formed to extend to a portion of the vertical insertion groove 112a so that a part of the connection frame B3 extends over the vertical insertion groove 112a . 3. The method of claim 2,
The lower inner connecting part 130 includes a third horizontal part 130 inserted with a connection frame B3 disposed between a vertical insertion part 132 into which the vertical frame B2 is inserted and another lower inner connecting part 130 which is adjacent in the width direction, And an insertion portion (133). 5. The method of claim 4,
Further comprising a first horizontal insertion portion and a second horizontal insertion portion in which the horizontal frame (B1) is inserted from both sides. 3. The method of claim 2,
The central inner connector 120 includes a first vertical insertion portion 122-1 and a second vertical insertion portion 122-2 into which the vertical frame B1 is vertically inserted,
A first horizontal inserting section 121-1 and a second horizontal inserting section 121-2 in which the horizontal line B1 on the same line is inserted from the left and right sides,
And a third horizontal insertion part (123) into which a connection frame (B3), which is disposed between the adjacent central inner connection ports (120), is inserted,
The horizontal insertion holes 121a of the first horizontal insertion portion 121-1 and the horizontal insertion slots 121a of the second horizontal insertion portion 121-2 are communicated with each other so that the horizontal frame B1 passes over the vertical insertion groove 122a Respectively,
The horizontal insertion groove 123a of the third horizontal insertion portion 123 extends to a portion of the vertical insertion groove 122a of the first vertical insertion portion 122-1 and the second vertical insertion portion 122-2 , And a part of the connection frame (B3) is formed to extend over the vertical insertion groove (122a). 3. The method of claim 2,
The upper outer connector 210 includes a first horizontal insertion portion 211 for inserting a horizontal frame and a connection frame 210 disposed between the upper outer connector 210 and another upper outer connector 210 adjacent to the upper outer connector 210 in a width direction. A third horizontal insertion portion 213 into which the vertical frame B3 is inserted and a vertical insertion portion 212 into which the vertical frame B2 is inserted,
The horizontal insertion groove 211a of the first horizontal insertion portion 211 is formed to extend to a portion of the vertical insertion groove 212a so that a part of the horizontal frame B1 extends over a part of the vertical insertion groove 212a Or,
The horizontal insertion groove 213a of the third horizontal insertion portion 213 is formed to extend to a portion of the vertical insertion groove 212a so that a part of the connection frame B3 extends over the vertical insertion groove 212a . 3. The method of claim 2,
The center outer connector 220 includes a first vertical insertion portion 222-1 and a second vertical insertion portion 222-2 in which the vertical frame B2 is inserted in the vertical direction, And a third horizontal inserting portion 223 into which a connecting frame B3 disposed between the adjacent second outer connecting portions 220 is inserted,
The horizontal insertion groove 221a of the first horizontal insertion portion 221 is formed to extend to a portion of the vertical insertion groove 222a so that a part of the horizontal frame B1 extends over a part of the vertical insertion groove 222a so formed or
The horizontal insertion groove 223a of the third horizontal insertion portion 223 is formed to extend to a portion of the vertical insertion groove 222a so that a part of the connection frame B3 extends over the vertical insertion groove 222a . 3. The method of claim 2,
The lower outer connector 230 includes a vertical insertion portion 232 into which a vertical frame B2 is inserted and a third horizontal connector 230 into which a connection frame B3 disposed between another lower inner connector 230 in the width direction is inserted. And an insertion portion (233). 3. The method of claim 2,
The lower outer connector 230 includes a first horizontal insertion portion 231 into which the horizontal frame B1 is inserted, a vertical insertion portion 232 into which the vertical frame B2 is inserted, And a third horizontal insertion portion (233) into which a connection frame (B3) disposed between the first horizontal insertion portion (230) and the second horizontal insertion portion (233) is inserted.

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