KR102842421B1 - Spatial Separation Wall Connector - Google Patents

Abstract

The present invention relates to a space dividing wall connecting device that can connect two dividing walls while they are erected by using a square connecting column with sides that correspond one-to-one to one side of a vertical frame that constitutes a wall that functionally and visually naturally divides a space, and in particular, by fastening the legs at the bottom while the dividing wall is erected, it is convenient to install and move even by one person, and it is convenient when connecting and installing multiple high dividing walls, and there is no gap in the connecting part.
To this end, one embodiment of the present invention comprises: a plurality of main bodies, each of which has a plurality of horizontal frames provided on the same plane between a pair of vertical frames spaced apart from each other, each of which connects the vertical frames at least at the upper, middle, and lower portions, and a porous perforated plate provided on the same plane to cover a grid-like space formed by the vertical frames and the horizontal frames; a connecting column having a cross-section that is square in all directions with a side surface corresponding one to one of the vertical frames of one of the main bodies; and a hole through which a fastening bolt passes through one of the vertical frames of the main bodies, and a threaded portion to which the fastening bolt is fastened is formed in the connecting column, so that each of the main bodies, when erected, is connected to a desired length in the shape of a straight line, a right angle, a T, and a cross through the fastening bolt and the connecting column.

Description

Spatial Separation Wall Connector

The present invention relates to a space partition wall connecting device that functionally and visually naturally separates a space, and more specifically, to a space partition wall connecting device that can connect both sides of the partition wall in an erected state by using a square connecting column formed in all directions with sides corresponding one-to-one to one side of a vertical frame constituting the partition wall, and in particular, by fastening the lower legs in a state where the partition wall is erected, it is convenient to install and move even by one person, and it is convenient to connect and install multiple high partition walls, and it relates to a space partition wall connecting device that does not create a gap at the connecting part.

Room dividers, commonly referred to as room divider partitions, can be made of various materials, including paper, fabric, glass, wood, and metal. They can be either movable or fixed. Movable walls can be used to separate spaces as needed, while fixed walls can be used to permanently separate spaces. These walls can be used to divide a room into two distinct spaces, such as an office space into a private space, a guest room into a bedroom, or to create a more inviting and personalized space. It's important to consider the size, shape, and intended use of the room when choosing a room divider. For small spaces, lightweight, movable walls may be a good choice, while for larger spaces, a heavier, more durable wall might be the better choice.

Modern partition walls are constructed of perforated steel, using a metal frame that provides structural support and stability. These frames are made of steel or aluminum and are designed to withstand the loads and forces applied to the partition wall. Among the main components of the steel partition wall, the vertical frame, also known as a column or support, is a vertical member that supports the perforated steel panels and connects them to the floor or ceiling. The horizontal frame, on the other hand, connects the uprights and provides additional support to the perforated steel panels, evenly distributing the load and contributing to the overall rigidity.

These steel partition walls were constructed by flipping them over, attaching legs to the bottom, and then re-erecting and reattaching multiple pieces. However, because the partition walls can be over 2 meters high, the repeated process of flipping multiple pieces, assembling the legs, and re-erecting them requires a lot of force, which can easily lead to fatigue. Furthermore, because the individual partition walls are simply pressed together without being connected, they can be prone to swaying. While some detached partition walls are tied back together with cable ties, this can be unsightly and presents other problems.

<Prior Art Research Literature>

Document 1: Domestic Patent No. 2092580

Document 2: Domestic Patent No. 1158089

The present invention has been developed in consideration of the problems of the prior art, and the purpose of the present invention is to provide a space partition wall connecting device that can connect both partition walls in an erected state by forming a square connecting column with sides that correspond one-to-one to one side of a vertical frame that constitutes a partition wall that functionally and visually naturally divides a space, and in particular, by fastening the legs at the bottom in a state where the partition wall is erected, it is convenient to install and move even by one person, and it is convenient to install multiple high partition walls, and there is no gap in the connecting part.

Another object of the present invention is to provide a space partition wall connecting device in which connecting columns are installed on the vertical frame of the partition wall so that when these connecting columns are combined, they become one connecting column, and further, protrusions and grooves are formed on each of the connecting columns so that when these protrusions and grooves are combined, the partition wall is connected in a straight, right-angled, T-shaped, and cross-shaped manner, so that the partition wall is detachably connected and thus disassembly and assembly are convenient, and can be quickly performed when rearranging the space or installing the partition wall on site.

To this end, one embodiment of the present invention comprises: a plurality of main bodies, each of which has a plurality of horizontal frames provided on the same plane between a pair of vertical frames spaced apart from each other, each of which connects the vertical frames at least at the upper, middle, and lower portions, and a porous perforated plate provided on the same plane to cover a grid-like space formed by the vertical frames and the horizontal frames; a connecting column having a cross-section that is square in all directions with a side surface corresponding one to one of the vertical frames of one of the main bodies; and a hole through which a fastening bolt passes through one of the vertical frames of the main bodies, and a threaded portion to which the fastening bolt is fastened is formed in the connecting column, so that each of the main bodies, when erected, is connected to a desired length in the shape of a straight line, a right angle, a T, and a cross through the fastening bolt and the connecting column.

According to one embodiment of the present invention, since a connecting column having a square cross-section with sides corresponding one-to-one to one side of a vertical frame constituting a partition wall is provided, by pressing the sides of the vertical frame of the partition wall against opposite sides of the connecting column and fastening them with bolts, two partition walls can be connected in an erected state. In addition, by pressing the sides of the vertical frame of the partition wall against two orthogonal sides of the connecting column and fastening them with bolts, the partition walls can be connected at a right angle, and three partition walls can be connected in a T shape or four partition walls can be connected in a cross shape. In addition, since the sides of the vertical frames of the connecting column and the partition walls are pressed against each other, no gaps are formed, so there are advantages such as a good appearance.

In addition, according to another embodiment of the present invention, connecting columns are provided for each vertical frame of the partition wall, and when these connecting columns are connected as one, the partition walls that are separated from each other can be connected in a straight, right-angled, T-shaped, and cross-shaped manner. In particular, since the connecting columns have protrusions and grooves formed at corresponding portions so that they can be detachably connected, there is an advantage such as convenience when rearranging space or installing a large number of partition walls on site.

Figure 1 is a perspective view of a space in which a separation wall of one embodiment of the present invention is installed.
Figures 2 to 4 are perspective views of the assembly of a connecting device according to one embodiment of the present invention.
Figure 5 is an enlarged cross-sectional view of a portion of a connecting device of one embodiment of the present invention.
Figure 6 is an enlarged cross-sectional view of a portion of a connecting device of one embodiment of the present invention.
Figure 7 is an exploded perspective view of a connecting device of another embodiment of the present invention.
Figure 8 is an assembled perspective view of a connecting device of another embodiment of the present invention.
Figures 9 and 10 are exploded perspective views of a connecting device of another embodiment of the present invention.

In FIGS. 1 to 6, a connecting device according to an embodiment of the present invention comprises a main body (10) composed of vertical frames (11) on both sides and a horizontal frame (12) connecting the vertical frames (11) at the top, middle, and bottom, and a porous perforated plate (13) made of steel is attached to the vertical frames (11) and the horizontal frames (12) to divide a space. The vertical frames (11) and the horizontal frames (12) are composed of hollow tubes with a square cross-section, and a connecting column (20) having a square cross-section in which a side corresponding to one side of the vertical frame (11) is arranged in all directions is provided.

The above connecting pillar (20) is used when connecting multiple main bodies (10) in a row, right angle, T shape, and cross shape, and Fig. 2 shows a state where the main bodies (10) are connected at right angles. The vertical frame (11) is formed with a plurality of head receiving portions (15) in multiple stages into which the heads (41) of the fastening bolts (40) are fitted, and a hole (14) through which the fastening bolts (40) pass is bored in a straight line with each of the head receiving portions (15). In addition, the connecting pillar (20) is formed with a plurality of screw portions (21) in multiple stages corresponding to each of the head receiving portions (15) and the holes (14), through which the fastening bolts (40) are fastened. Therefore, as shown in Fig. 2, two main bodies (10) are arranged at right angles so that the corners of each vertical frame (11) meet, and then the connecting pillar (20) is installed in close contact with the vertical frames (11) arranged at right angles between them, and the fastening bolt (40) is inserted into the hole (14) and fastened to the screw portion (21), so that the two main bodies (10) are connected at right angles through the connecting pillar (20) in a standing state with the head (41) inserted into the head receiving portion (15).

Fig. 3 shows three bodies (10) connected in a T shape, with the corners of the vertical frames (11) of the three bodies (10) aligned to form a T shape, and connecting columns (20) installed in close contact with the corresponding sides of the vertical frames (11). Then, when the fastening bolt (40) is inserted into the hole (14) and fastened to the screw portion (21), the three bodies (10) are connected in a T shape through the connecting columns (20) with the head (41) retracted into the head receiving portion (15). Fig. 4 shows four bodies (10) connected in a cross shape, with the corners of the vertical frames (11) of the four bodies (10) aligned to form a cross, and connecting columns (20) installed in close contact with the corresponding sides of the vertical frames (11). And when the fastening bolt (40) is inserted into the hole (14) and fastened to the screw portion (21), the four main bodies (10) are connected in a T shape through the connecting pillar (20) with the head (41) inserted into the head receiving portion (15). Afterwards, when the legs are fastened in a straight or T shape to the horizontal frame (12) located at the bottom of each main body (10), the main bodies (10) assembled through the connecting pillar (20) are erected vertically.

In addition, a leg (30) connecting both sides is fastened to the bottom of the horizontal frame (12) at the bottom of each main body (10). To this end, a head receiving portion (15) and a hole (14) into which the head (41) of the fastening bolt (40) is fitted are perforated in each horizontal frame (12), and a screw portion (31) is formed in the leg (30). Therefore, when each main body (10) is erected, the leg (30) is placed on the horizontal frame (12) at the bottom of both corresponding main bodies (10) and fastened with the fastening bolt (40), so that the leg (30) can be fastened in the erected state of each main body (10). In addition, when fastening the leg (30) to the horizontal frame (12) at one end of the main body (10) in a T-shape, the main body (10) does not shake when it is erected.

In one embodiment of the present invention, the connecting device configured in this way is such that each main body (10) is erected and connected in various shapes through connecting pillars (20) arranged in all directions with sides corresponding one-to-one to one side of the vertical frame (11). In particular, when connecting a low main body (10) and a high main body (10), if the connecting pillars (20) are formed long enough to fit the high main body (10), there is an advantage in that the low main body (10) and the high main body (10) can be connected in a straight, right-angled, T-shaped, and cross-shaped manner. Fig. 2 shows a low main body (10) and a high main body (10) connected at a right angle, and the connecting pillars (20) are formed at the same height as the high main body (10). Therefore, when the side of the connecting column (20) and one side of the vertical frame (11) of the high main body (10) are aligned with each other and then aligned with a connecting bolt (40), and then the low main body (10) is aligned with the opposite side of the connecting column (20) and aligned with a connecting bolt (40), the low main body (10) and the high main body (10) are joined through the connecting column (20), so there is an advantage in that it is convenient to connect main bodies (10) of various heights in an upright state.

Also, in the case of T-shapes and cross-shapes, each main body (10) is arranged in a T-shape or cross-shape so that the corners of the vertical frames (11) are aligned, and then the side of the connecting pillar (20) is pressed against the side of the vertical frames (11) and the fastening bolt (40) is fastened so that each main body (10) is connected while being erected in a T-shape or cross-shape. At this time, since main bodies (10) of different heights can be fastened in various combinations, a variety of spatial separations can be created.

FIGS. 7 to 10 illustrate another embodiment of the present invention, in which a connecting column (20) is divided and pre-fastened to the vertical frame (11) of each main body (10), and then the connecting columns (20) are detachably coupled to assemble each main body (10). To this end, in another embodiment of the present invention, a connecting column (20) is fastened to the upper part of the vertical frame (11) of one main body (10) with a fastening bolt (40), and a connecting column (20) is fastened to the lower part of the vertical frame (11) of another main body (10) with a fastening bolt (40). When two main bodies (10) are coupled to each other, the connecting column (20) is split into two and coupled to the upper and lower parts, respectively, and when three main bodies (10) are coupled to each other, the connecting column (20) is split into three and coupled to the upper, middle, and lower parts, respectively. And when the four main bodies (10) are connected to each other, the connecting pillars (20) are divided into four and connected to the vertical frames (11) of the respective main bodies (10) at a position where they become one. In addition, each connecting pillar (20) has a protrusion (22) and a groove (23) formed at the lower and upper ends corresponding to each other, so that each connecting pillar (20) is connected as one by the combination of the protrusions (22) and the grooves (23), and since the protrusions (22) and the grooves (23) are configured with a square cross-section, they do not rotate in place when connected to each other, so that the connecting positions of the main bodies (10) that are connected to each other are fixed in a straight, right-angled, T-shaped, and cross-shaped manner.

Another embodiment of the present invention configured in this way is that the connecting pillars (20) are divided into two, three, and four to connect the main body (10) in a straight, right-angled, T-shaped, and cross-shaped manner. In particular, since they are connected in a detachable manner, there is an advantage of convenience when rearranging space or moving. As shown in FIG. 8, the process of assembling two main bodies (10) in a straight or right-angled shape is shown, and in order to connect the two main bodies (10), the connecting pillars (20) are configured to be separated into two, and one connecting pillar (20) is fastened to the upper side of the vertical frame (11) of one main body (10), and the other connecting pillar (20) is fastened to the lower side of the vertical frame (11) of the other main body (10). And since a protrusion (22) having a square cross-section is formed at the lower part of the connecting column (20) fastened to the upper side, and a groove (23) having a square cross-section is formed at the connecting column (20) fastened to the lower side, when the protrusion (22) is detachably fitted into the groove (23), the two main bodies (10) are connected in a straight or right-angled shape. When the connecting columns (20) are connected while the two main bodies (10) are aligned parallel, the main bodies are connected in a straight shape, and when the connecting columns (20) are connected while the two main bodies (10) are at a right angle, the main bodies are connected at a right angle.

As shown in Fig. 9, in order to connect three main bodies (10) in a T shape, the connecting pillars (20) are divided into three and fastened to the upper, middle, and lower parts of the vertical frame (11) of each main body (10). At this time, since a protrusion (22) is formed on the lower part of the connecting pillar (20) connected to the upper and middle parts, the protrusion (22) of the connecting pillar (20) located on the upper part is fitted into the groove (23) formed on the upper part of the connecting pillar (20) located on the middle part, and when the protrusion (22) formed on the lower part of the connecting pillar (20) located on the middle part is fitted into the groove (23) formed on the upper part of the connecting pillar located on the lower part, and each connecting pillar (20) is connected as one, the three main bodies (10) are connected in a T shape.

Also, as shown in Fig. 10, in order to connect the four main bodies (10) in a cross shape, the connecting pillars (20) are divided into four and fastened to the upper, middle, and lower parts of the vertical frame (11) of each main body (10). At this time, since a protrusion (22) is formed on the lower part of the connecting pillar (20) connected to the upper and middle parts, the protrusion (22) of the connecting pillar (20) located on the upper part is fitted into the groove (23) formed on the upper part of the connecting pillar (20) located on the middle part, and the protrusion (22) formed on the lower part of the connecting pillar (20) located on the middle part is fitted into the groove (23) formed on the upper part of the connecting pillar located on the lower part, so that when each connecting pillar (20) is connected as one, the four main bodies (10) are connected in a cross shape. Therefore, when assembling the main body (10) on site, it is assembled in a detachable manner, enabling easy and quick assembly, and there is an advantage in that there is no need to loosen the fastening bolts and disassemble the main body when rearranging space or moving, etc.

10: Body 11: Vertical Frame
12: Horizontal frame 13: Perforated plate
14: Hole 15: Head receiving area
20: connecting column 21: screw part
22: Protrusion 23: Home
30: Leg 31: Screw
40: Fastening bolt

Claims (3)

delete delete A plurality of horizontal frames are provided on the same plane between a pair of vertical frames spaced apart from each other, connecting these vertical frames at least in the upper, middle and lower parts, and a plurality of bodies are provided on the same plane, in which porous perforated plates covering a grid-shaped space made of these vertical frames and horizontal frames are provided, and a connecting column having a square cross-section formed in all directions with a side corresponding one-to-one to one side of the vertical frame of one of the bodies is configured.
The above connecting pillar is divided into two, three and four pieces, and when divided into two pieces, it is respectively connected to the upper part of the vertical frame of one body and the lower part of the vertical frame of the other body, and the opposite surfaces of the divided connecting pillars are formed with protrusions and grooves of a square cross-section that do not rotate in place when fitted together, so that the two bodies are connected in a straight or right angle shape.
When the above connecting column is divided into three, it is connected to the upper part of the vertical frame of one of the main bodies and the middle and lower parts of the other two main bodies, respectively, and the opposite surfaces of the divided connecting columns are formed with protrusions and grooves of a square cross-section that do not rotate in place when fitted together, so that the three main bodies are connected in a T shape.
A space separation wall connecting device characterized in that when the above connecting column is divided into four, it is connected to the upper, middle, and lower parts of the vertical frames of the four main bodies at positions where they are connected as one, and the opposing surfaces of the divided connecting columns are formed with protrusions and grooves of a square cross section that do not rotate in place when fitted together, so that the four main bodies are connected in a cross shape.