KR20100003822U - A mounting structure of fabricated frame - Google Patents

Abstract

The present invention is able to quickly manufacture various types of frame structures through the same and easy assembly method using only a few types of connecting parts for relatively simple linear frames such as straight lines or curved lines, and also to reduce the completed frame structures. B relates to a connection structure of the prefabricated frame so that expansion or change of shape can be easily performed.

In the assembly structure of the assembled frame of the present invention, in the assembly structure of the assembled frame forming the frame structure, each of the first screw grooves are drilled from both surfaces in the x-axis direction and the second screw grooves are formed from both surfaces in the y-axis direction. A third threaded groove is drilled from both surfaces in the z-axis direction, respectively, and the first to third threaded grooves have an x, y, and z axis passing through the center of each threaded groove. Connection block formed in a cross shape with each other, the fixing bolt is screwed to one side to the first to third screw grooves of the connecting block, and made in the form of a cylinder, the screw coupling of the fixing bolt on one side in the longitudinal direction A screw groove is formed for the fastening block, and a fastening block in which a stepped portion having a reduced diameter is formed in the center, and an insertion hole for inserting the fastening block into both sides in the longitudinal direction is formed, and the width is wide. Screw holes are formed, wherein the screw holes form a frame spaced apart from one end in the longitudinal direction at an interval corresponding to the distance between the stepped portions at the inlet of the screw groove, and a spiral hole communicating with the screw holes of the frame, respectively. It includes two plate parts connected to each other perpendicular to each other in a state, and the support bracket is formed in the connection portion between the two plate portions, the bolt hole is formed, the spiral hole of the support bracket and the screw hole of the frame in turn The fastening step of tightening the step of the fastening block and the head portion is characterized in that it comprises a fastening bolt for tightening the flat plate to the surface of the frame.

Prefabricated Frames, Connecting Blocks, Fastening Blocks, Cylinders

Description

A mounting structure of fabricated frame

The present invention relates to a connection structure of a prefabricated frame, and more specifically, to a relatively simple linear frame such as a straight line or a curved line using only a few types of connecting parts, the frame structure of various forms is always available through the same and easy assembly method. The present invention relates to a connection structure of a prefabricated frame, which can be manufactured quickly and can be easily reduced or expanded or changed in form of a completed frame structure.

In general, a frame structure is used in the production of exhibition halls, showcases, booths, etc., such a frame structure is usually manufactured as a prefabricated frame. In other words, the prefabricated frame forms a frame structure that forms a basic skeleton in the manufacture of exhibition halls, showcases, booths, and the like.

The prefabricated frame comprises a frame of various lengths and connecting means for connecting the frames of various lengths to each other in the longitudinal or transverse direction. In other words, frames having various lengths of the prefabricated frame are connected to each other in the longitudinal and transverse directions by connecting means to form a frame structure of a predetermined size.

As described above, since the frame structure of a predetermined size is manufactured by a method of connecting frames having various lengths of the prefabricated frame to each other through a connecting means, the coupling structure between the frame and the connecting means is very important for the workability of manufacturing the frame structure. Acts as an element

However, various types of prefabricated frames that are currently provided have a relatively complicated structure in which the frames are connected to each other through a connecting means.

Accordingly, in manufacturing a frame structure of a predetermined scale, since a large number of frames are used even in a relatively small frame structure, it is difficult to manufacture the frame structure unless it is a highly skilled worker, and at the same time, it is necessary to manufacture the frame structure. The working time becomes relatively long. This leads to a phenomenon that the working time for dismantling after using the frame structure is also relatively long.

In addition, conventional prefabricated frames tend to require relatively various types of frames and connecting means depending on the shape of the frame structure. For this reason, the installation of the frame structure is no longer possible without a specific frame or connecting means. In other words, if the shape of the frame structure is accurately identified in advance, and the frame and the connecting means necessary for its installation are not completely prepared, the work may be frequently interrupted during the installation of the frame structure. In addition, there is a difficulty in expanding, changing, or reducing the completed frame structure, or in some cases, dismantling the entire frame structure and then installing the frame structure again.

In particular, due to the rapid development of the electronic communication industry, which is relatively faster than other industries, such as digital image technology and information and communication technology, it is easy to take into consideration the recent situation in which various exhibitions and exhibitions are frequently held. Through the process, it is possible to install and dismantle the frame structure of a certain size more quickly, and to produce various types of frame structures with only a few components, and also to easily expand and change the prefabricated frame structure. The provision of an urgent need is needed.

The present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to connect the linear frames of various lengths of the prefabricated frame to each other through a relatively easy assembly method, and at the same time can be easily dismantled during disassembly. It is possible to provide a connection structure of a prefabricated frame, which enables to assemble or dismantle a frame structure of a predetermined size manufactured through the prefabricated frame relatively quickly.

Another object of the present invention is to produce a variety of frame structures using only a relatively simple linear frame, such as straight or curved, and a few connecting parts, and at the same time reduce or expand or change the shape of the finished frame structure. It is to provide a connection structure of the prefabricated frame to be made easily.

In order to achieve the above object, the connection structure of the assembly frame according to the present invention is a connection structure of the assembly frame forming a frame structure, each of the first screw grooves are drilled from both sides in the x-axis direction and both sides in the y-axis direction Second thread grooves are drilled from the surface, respectively, and third thread grooves are drilled from both surfaces in the z-axis direction, respectively, wherein the first to third screw grooves have x, y, and z axes passing through the center of each screw groove. The connecting block is formed in the shape of crossing each other with respect to any one point inside the block, a fixing bolt that one side is screwed to the first to third screw grooves of the connecting block, and in the form of a column, A screw groove for screwing the fixing bolt is formed at one side, and a fastening block having a stepped portion having a reduced diameter in the center is formed at the center, and the fastening block is inserted at both sides in the longitudinal direction. An insertion hole is formed to be formed, and a screw hole in a width direction is formed, wherein the screw hole is spaced apart from one end in the longitudinal direction at an interval corresponding to the distance between the stepped portions at the inlet of the screw groove, and the screw of the frame. A support bracket having a bolt hole formed at a connection portion between the two flat plates, each having a flat plate connected to each other in a state in which a spiral hole communicating with the hole is formed, respectively, a spiral hole of the support bracket, and a screw of a frame It is characterized in that it comprises a fastening bolt coupled to the hole in turn to tighten the stepped portion of the fastening block while the head portion of the fastening the flat plate to the surface of the frame.

In addition, the connecting block may be formed in the form of a hexahedron, each of the first to third screw grooves are formed in the center of each surface.

In addition, a bolt for coupling a transparent, opaque or translucent panel to the frame may be fastened to the bolt hole of the support bracket.

With the connection structure of the prefabricated frame according to the present invention, the linear frames made of various lengths of the prefabricated frame are connected to each other through a relatively easy assembling method, and at the same time, the frame structure having a predetermined size can be comparatively easily dismantled. It can be quickly installed or dismantled.

In addition, various types of frame structures can be manufactured by using only a simple linear frame such as a straight line or a curved line and a small number of connecting parts, and can also be easily reduced, expanded, or changed in shape. Therefore, the shape of the frame structure can be changed in various ways during the exhibition or the fair, and at the same time, the entire frame structure can be deformed and used continuously without disassembling the entire frame structure at the exhibition or the fair following the end of any exhibition or fair.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a perspective view showing a frame structure manufactured by the connection structure of the assembled frame according to an embodiment of the present invention. Figure 2 is an exploded perspective view showing the main portion of the prefabricated frame connection structure according to an embodiment of the present invention. 3 is a perspective view of the combination of FIG. 4 is a cross-sectional view taken along the line A-A of FIG. 5 is a perspective view illustrating a state in which a panel is attached to the frame structure of FIG. 1.

As shown, the connection structure of the assembled frame according to an embodiment of the present invention is a connection block 110, connection bolt 120, fastening block 130, frame 140, support bracket 150, fastening bolt 153 is formed.

The connecting block 110 is formed in such a manner that the first to third screw grooves 111, 112, 113 are respectively drilled from both side surfaces in the x-axis direction, both side surfaces in the y-axis direction, and both surfaces in the z-axis direction. Is formed. In other words, in the connecting block 110, the first screw groove 111 is drilled from both surfaces in the x-axis direction, the second screw groove 112 is drilled from both surfaces in the y-axis direction, and both sides in the z-axis direction. The third threaded groove 113 is drilled from the surface. Here, the x, y, z axis passing through the center of the first screw groove 111, the second screw groove 112 and the third screw groove 113 is centered at any point inside the connection block 110. First to third screw grooves 111, 112, 113 are formed to cross each other. In other words, the virtual line passing through the center of the first screw groove 111 and the virtual line passing through the center of the second screw groove 112 and the virtual line passing through the center of the third screw groove 113 are connected to the connection block ( Intersecting with each other about any one point inside the 110.

In this embodiment, the connection block 120 is made of a hexahedral shape, the first to third screw grooves 111, 112, 113 are formed in the center of each surface, respectively, as an example, This is not limited to this, the connection block may be formed in various forms such as spherical or hexahedral or more polyhedron.

The connection bolt 120 is screwed to one side of the first to third screw grooves 111, 112, 113 of the connection block 110, the connection bolt 120 and the fastening block 130 It is for connecting the connection block 110 to each other.

The fastening block 130 is formed in the shape of a cylinder as a whole, a screw groove for screwing the connection bolt 120 is formed on one side of the fastening block 130 in the longitudinal direction. In other words, one side of the fastening block 130 forms a nut part 131 having a screw groove. In addition, a groove-shaped stepped portion 132 having a reduced diameter is formed between the nut portion 131 and the other side portion 133 of the fastening block 130, and the fastening bolt 153 is formed on the stepped portion 132. One end of the frame is inserted and supported at the same time, so that the frame 140 connected to the connection block 110 via the fastening block 130 is prevented from being separated from the fastening block 130.

The frame 140 is formed with insertion holes 141 for insertion of the fastening block 130 on both sides of the longitudinal direction, wherein the insertion holes 141 are formed only up to a predetermined length from both sides in the longitudinal direction of the frame 140, respectively. It may be a form, it may be a form penetrating from one side in the longitudinal direction of the frame 140 to the other side. In addition, as the screw hole 142 in the width direction is formed in the frame 140, the screw hole 142 is spaced at an interval corresponding to an interval between the inlet and the step 132 of the screw groove of the fastening block 130. It is formed spaced apart from one end in the longitudinal direction of the frame 140. In other words, the screw hole 142 is formed at a position to insert the front end of the fastening bolt 153 to be coupled to the groove stepped portion 132 inside.

The support bracket 150 includes two flat plate portions 151 and 152 connected vertically to each other, and a bolt hole 154 is formed in a portion where the two flat plate portions are connected to each other. Spiral holes 151a and 152a are formed in the 151 and 152, respectively, and the spiral holes 151a and 152a are formed at positions communicating with the screw holes 142 of the frame 140. In addition, the two flat plate portions 151 and 152 of the support bracket 150 are disposed in surface contact with the surface of the frame 140 connected to each other perpendicular to each other with respect to the connection block 110.

The fastening bolt 153 is screwed into the spiral holes 151a and 152a of the support bracket 150 and the screw holes 142 of the frame 140 in turn, and the stepped portion 132 of the fastening block 130. At this time, the front end of the fastening bolt 153 tightens the inner bottom surface of the stepped portion 132 at the same time, and the head of the fastening bolt 153 is the spiral holes 151a and 152a of the support bracket 150. ) By pressing the support bracket 150 is strongly tightened to the surface of the frame 140.

The operation of the assembled frame connecting structure according to an embodiment of the present invention having the above-described configuration will be described with reference to FIGS. 2 to 4.

First, as shown in FIG. 2, one side of the connection bolt 120 is screwed to the first to third screw grooves 111, 112, 113 of the connection block 110. In this embodiment, one side of two connection bolts 120 are screwed into the second screw groove 112 and the third screw groove 113, respectively, but the present invention is not limited thereto. In the following description, the present embodiment will be described with reference.

As described above, one side of the two fastening blocks 130 is screwed to the other side of the two connection bolts 120 screwed to the second screw groove 112 and the third screw groove 113 of the connection block 110, respectively. That is, that is, based on one fastening block 130, the fastening block 130 is screwed to the other side of the connection bolt 110 to the screw groove on one side thereof. Accordingly, the two fastening blocks 130 are connected to two surfaces of the connection block 110 that are connected to each other perpendicular to each other via the two connection bolts 120.

Then, two fastening blocks 130 are inserted into the insertion holes 141 of the two frames 140, respectively, and then two flat plate portions 151 and 152 of the support bracket 150 are centered on the connection block 110. The surfaces of the two frames 140 connected to each other at right angles are disposed in surface contact with each other. At this time, the spiral holes 151a and 152a of the two flat plate portions 151 and 152 are in communication with the screw holes 142 of the two frames 140, respectively.

Finally, the fastening bolts 153 are screwed into the spiral holes 151a and 152a of the flat plate portions 151 and 152 and the screw holes 142 of the frame 140 in turn, wherein the fastening bolts 153 The front end is inserted through the screw hole 142 of the frame 140 and inserted into the stepped portion 132 of the fastening block 130, and at the same time tightens the inner bottom surface of the stepped portion 132. The head portion presses the periphery of the spiral holes 151a and 152a of the flat plate portions 151 and 152 to tighten the support bracket 150 to the surface of the frame 140.

Accordingly, as shown in FIG. 4, the tip of the fastening bolt 153 is supported by the inner side of the stepped portion 132 of the fastening block 130, and the inner surface of the screw hole 142 of the frame 140 is supported. Since it is supported by the fastening bolt 153, the frame 140 is inserted into the fastening block 130 in the insertion hole 141 on one side of the longitudinal direction and at the same time maintained in a surface contact with one surface of the connection block 110. do. Then, the two plate portions 151 and 152 of the support bracket 150 are firmly tightened by fastening bolts 153 to the surfaces of the two frames 140 which are vertically connected to each other about the connection block 110. Since the surface is in contact, the vertical connection of the two frames 140 connected around the connection block 110 is reinforced to maintain a more robust connection.

According to the above, the linear frames of various lengths of the prefabricated frame can always be connected to each other through a relatively easy operation in the same assembly method, and at the same time, even when the frames are connected to each other through a relatively easy operation through the same dismantling process. Can be dismantled. Accordingly, the frame structure of a predetermined predetermined size can be installed or dismantled relatively quickly.

In addition, the frame structure of a predetermined shape can be produced using a relatively simple linear frame such as a straight or curved shape and a small number of connecting parts, and in addition, the first frame structure can be reduced or expanded or changed in form of a completed frame structure. Since it can be made easily while taking the same working method as the production method, the shape of the frame structure can be changed in various ways during the exhibition or the fair, and at the same time, the exhibition or the fair following the end of any exhibition or fair You can continue to use only part of the frame structure without dismantling it.

5 shows a state in which a panel is installed in the frame structure 100 of FIG. 1 manufactured by a connection structure of a prefabricated frame according to an embodiment of the present invention. Here, the panel 160 may be formed of a transparent, translucent, or opaque material. The panel 160 has a coupling hole 161 which is positioned in communication with the bolt hole 154 of the support bracket 150 along the periphery of the four sides, and thus the coupling hole 161 of the panel 160. The bolt 162 is screwed into the bolt hole 154 of the support bracket 150, while the head of the bolt 162 is pressed against the support bracket 150 by pressing the circumference of the coupling hole 161 of the panel. The panel 160 is firmly coupled to the frame 140.

In addition, in FIG. 5, the first screw groove 111 or the second screw groove 112 positioned outside the frame structure 100 may be used to adjust the overall height or the height of a portion of the frame structure 100. Used. In other words, when the installation site of the frame structure 100 is slightly inclined or even in a flat state, various types of components for height adjustment are coupled to the first screw groove or the second screw groove of the connecting block to the frame structure. You can adjust the overall height or the height of a portion of the.

Figure 6 shows another connection structure of the assembled frame in another embodiment of the present invention, as shown, the fastening bolt 170 is screwed directly to the screw hole 142 in a state in which the support bracket 150 is omitted It is a form that becomes. Since the fastening bolt 170 does not need to tighten the support bracket 150, the nut groove for inserting the tool may be formed in a state where the head is omitted.

What has been described above is only one embodiment for implementing the connection structure of the prefabricated frame according to the present invention, the present invention is not limited to the above embodiment, as claimed in the utility model registration claims below Without departing from the gist of the invention, anyone with ordinary knowledge in the field to which the invention belongs will have a technical spirit of the present invention to the extent that various modifications can be made.

1 is a perspective view showing a frame structure manufactured by the connection structure of the assembled frame according to an embodiment of the present invention

Figure 2 is an exploded perspective view showing the main portion of the prefabricated frame connection structure according to an embodiment of the present invention

3 is a perspective view of the combination of FIG.

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a perspective view showing a state in which a panel is attached to the frame structure of FIG.

Figure 6 is an exploded perspective view showing the main portion of the prefabricated frame connection structure according to another embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

100: frame structure 110: connection block

111: first screw groove 112: second screw groove

113: third screw groove 120: connecting bolt

130: fastening block 131: nut part

132: other side 133: locking part

140: frame 141: insertion hole

142: screw hole 150: support bracket

151,152 Plate part 151a, 152a Spiral hole

153: fastening bolt 154: bolt hole

160: panel 161: coupling hole

162: bolt 170: fastening bolt

Claims (3)

In the connection structure of the prefabricated frame forming a frame structure, The first screw groove is drilled from both surfaces in the x-axis direction, the second screw groove is drilled from both surfaces in the y-axis direction, and the third screw groove is drilled from both surfaces in the z-axis direction, respectively. The third screw groove may include a connecting block formed in a form in which x, y, z axes passing through the center of each screw groove cross each other with respect to any one point inside the block; Fixing bolt that one side is screwed to the first to third screw groove of the connecting block; The fastening block is formed in the form of a cylinder, the screw groove for screwing the fixing bolt is formed on one side in the longitudinal direction, the stepped portion of the groove shape is reduced in diameter is formed in the center; Insertion holes for inserting the fastening block are formed on both sides of the longitudinal direction, and a screw hole in the width direction is formed, the screw hole is spaced from one end in the longitudinal direction at an interval corresponding to the distance between the stepped portion at the inlet of the screw groove Frame formed; A support bracket including two flat plates connected to each other in a vertical direction with spiral screws communicating with the screw holes of the frame, and a bolt hole formed at a connection portion between the two flat plates; It is coupled to the spiral hole of the support bracket and the screw hole of the frame, the front end of the prefabricated frame, characterized in that the fastening step of tightening the stepped portion of the fastening block and the head portion of the flat plate to the surface of the frame. Connection structure. The method of claim 1, The connecting block is formed in the form of a hexahedron connecting structure of the prefabricated frame, characterized in that the first to third screw grooves are formed in the center of each surface. The method of claim 1, Connection structure of the prefabricated frame, characterized in that the bolt for fastening the transparent, opaque or semi-transparent panel to the frame in the bolt hole of the support bracket.

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