KR101029827B1 - hexahedral framework of casette for loding LCD glass - Google Patents

Abstract

The present invention relates to a hexahedral frame structure of a glass loading cassette for a liquid crystal display device, wherein the frame structure is formed of a hexahedral skeleton by fastening means of channel frames made of improved metal, and

The improved metal channel frame includes a base 1 and both legs 2 bent vertically at both ends of the base 1, so that the ends of the legs 2 face each other. The two legs 2 are bent and parallel to each other to form a surface 2a, and a space S having a rectangular cross section is defined therein.

Bass, legs, space, cotton

Description

Hexahedral framework of casette for loding LCD glass

The present invention relates to a hexahedral framework of a liquid crystal display glass stacking cassette capable of stably supporting the liquid crystal display glass from vibration or impact.

The glass used for manufacturing the liquid crystal display device may be damaged even by a small external impact, so that the glass may be stored or transported by a glass stacking cassette capable of stacking the glass in multiple layers.

The hexagonal frame structure of the glass stacking cassette is, for light weight, a lower frame made of metal having a quadrilateral cross section as a hollow body, and a metal lower frame having a quadrangular cross section as a solid body, and both sides of the upper frame and the lower frame. It consists of a side frame having a quadrilateral cross section as a solid body for connecting the side frame, the side frame is composed of a metal pillar and a rigid synthetic resin molded body integrally molded to the metal pillar.

On the other hand, the hard synthetic resin molded body is formed at equal intervals along the pillar while supporting protrusions that can support the bottom of the glass protrude into the cassette.

The upper frame, the lower frame, and the side frame, which form a hexahedral frame structure that is a skeleton of the liquid crystal display device glass stacking cassette, are integrally connected to each other by welding.

However, since the frames are made of a hollow body having a quadrilateral cross section, there are many welding sites for connection between these frames, which slows down the manufacture of the hexahedral frame structure of the liquid crystal display glass stacking cassette.

In order to overcome this problem, there has been proposed a method in which the upper frame, the lower frame, and the side frame are adopted as hollow bodies having a rectangular cross section and connected by only fastening means, not welding, but the fastening means is the upper frame, the lower frame. There is a problem that the cassettes protrude to the outer surface of the hexahedral framework of the cassette made by the side frame and cannot be laminated.

In addition, when each frame is formed of a hollow body having a rectangular cross section, foreign matter enters into the hollow part of each frame, and there is a problem that the liquid crystal display glass loaded in the hexahedral frame structure is damaged, and that the liquid crystal display glass is damaged. In order to solve the problem, it is necessary to remove the foreign matter infiltrated into the hollow part, but since each frame is joined by welding or fastening means, it is impossible to clean the inside of the hollow part of each frame. There is a problem.

In order to overcome this problem, the section steel section of the four-sided section is shaped into a section section a section, section section section section section, section section section section section section I-shaped section section, or C-shaped channel section section, and they are not welded only by the fastening means It may be considered to manufacture a hexagonal frame structure of the glass loading cassette by the liquid crystal display device, but this also means that the fastening means protrude to the outer surface of the hexagonal frame structure of the cassette, or the steel section of the a-shaped cross section, the section steel of the triangular cross section. The corner portion or the tip portion of the section, the I-shaped section or the C-shaped channel section itself protrudes to the outer surface of the hexahedral frame structure of the cassette, so that the section section of the a-shaped section and the section section of the triangular section The hexahedron frame structures of the cassettes made by section I-shaped sections or C-shaped channel sections are stacked on each other or closely Could not be, when used for the transport of the cassette gateun vehicle a large storage space or transport means to prevent the cassettes have between buditchim there is a problem that should be interposed between the cassette.

The present invention has its problems in solving the above-mentioned problems.

The present invention includes a base having a cross section including a base and both legs bent vertically at both ends of the base, and the ends of the both legs are bent in a direction facing each other so that the surfaces parallel to each other are formed on both legs. The channel frame is adopted as the upper frame, the lower frame, and the side frame, and the horizontally extending channel frames of these improved channel frames are arranged with the base facing inward, and the vertically extending channel frame is placed. The above problems can be solved by fixing these channel frames by fastening means in a state of being disposed outward to provide a hexahedral frame structure of the liquid crystal display glass stack cassette.

The present invention solves the problem of the above-described problem, thereby quickly eliminating the welding required for a long working time, thereby rapidly manufacturing the hexahedral frame structure of the liquid crystal display device glass-loading cassette, and to the outer surface of the hexahedral frame structure. By providing a flat surface, it is possible to stack cassettes up, down, left and right.

Hereinafter, an embodiment according to the present invention will be described with reference to FIGS. 1 to 6.

1 shows a hexahedral framework of a liquid crystal display glass stack cassette according to the present embodiment.

The frame structure of the improved metal channel frame forms a hexahedral skeleton by the fastening means, and the improved channel frame of the metal material, as shown in Figure 2, both ends of the base 1 and the base 1 Including both legs (2) vertically bent in the, the ends of the two legs (2) are bent in a direction facing each other to form a surface (2a) parallel to each other on the two legs (2) As a result, a space S having a rectangular cross section is formed inside.

The frame structure includes a plurality of upper horizontal frames C1 extending parallel to each other with the same length in a state where the bottom surface of the base 1 faces the bottom surface of the frame structure, and the bottom surface of the base 1 is A plurality of lower horizontal frames C2 extending in parallel with each other with the same length in the state of facing the upper surface of the framework, the bottom of the base 1 has the same length in the state facing the inner surface of the framework The plurality of upper vertical frames C3 and the base 1, which extend in parallel but are fastened to both ends of the plurality of upper horizontal frames C1, have the same length in the state where the bottom surfaces of the base 1 face the inner surface of the frame structure. A plurality of lower vertical frames C4 extending in parallel and fastened to both ends of the plurality of lower horizontal frames C1, and both ends of the upper vertical frames C3 and the lower vertical frames ( A plurality of side standing frames C5 fastened to C4) and an upper horizontal frame C1 disposed at the rear of the plurality of upper horizontal frames C1 and a plurality of lower horizontal frames C2 at the rear. A plurality of rear side standing frames C6 are coupled to the lower horizontal frame C2 arranged at both ends.

Coupling between the upper horizontal frame C1 and the upper vertical frame C3 is made by the first fastening means 210, as shown in FIGS. 1 and 3.

The first fastening means 210 has a size and shape that can be inserted into the space S of one end of the upper horizontal frame C1, and the base 1 and the surface of the upper horizontal frame C1. A bundle in which a first female threaded groove 211a is formed in the portion that is formed, and a second female threaded groove 211b is formed in the portion facing the base 1 of the upper vertical frame C3. Part 211; Through-holes (O1, O3) formed in the bases (1, 1) of the upper horizontal frame and the upper vertical frame (C1, C3) facing the first and second female threaded grooves (211a, 211b), respectively; And a plurality of bolts for fastening the upper horizontal frame C1 and the upper vertical frame C3 inserted into the first and second female threaded grooves 211a and 211b through the through holes O1 and O3. (B1) is included.

Coupling between the lower horizontal frame (C2) and the lower vertical frame (C4) is made by the second fastening means 220, as shown in Figs.

The second fastening means 220, like the first fastening means 210, has a size and shape that can be inserted into the space (S) of one end of the lower horizontal frame (C2), the lower horizontal A third female threaded groove 221a is formed in the portion facing the base 1 of the frame C2, and a fourth female type is formed in the portion facing the base 1 of the lower vertical frame C4. Bundle portion 221 is formed with a screw groove (221b); Through-holes (O2, O4) formed in the bases (1, 1) of the lower horizontal frame and the lower vertical frame (C2, C4) respectively facing the third and fourth female threaded grooves (221a, 221b); And a plurality of bolts inserted into the third and fourth female threaded grooves 221a and 212b through the through holes O2 and O4 to fasten the lower horizontal frame C2 and the lower vertical frame C4. (B2) is included.

The coupling between the upper and lower ends of the side standing frame C5 and the upper vertical frame C3 and the lower vertical frame C4 is, as shown in FIGS. 1 and 5, the third fastening means 230 and the fourth fastening means. Made by 240.

The third fastening means 230 has a rectangular shape formed in the leg portion 2 disposed below both of the leg portions 2 and 2 of the upper vertical frame C3 so as to penetrate the upper end of the side standing frame C5. Through holes 231, through holes 232 and 232 formed at both sides of the base 1 at the upper end of the side standing frame C5, and the side standing frame C5 facing the through holes 232 and 232. Through-holes 233 and 233 formed in the surface 2a of the bottom surface), through-holes 234 and 234 formed in the base 1 of the upper vertical frame C3 facing the through-holes 233 and 233, and the The through holes 232 and 232, the through holes 233 and 233, and a nut N3 fastened to the bolt B3 sequentially passing through the through holes 234 and 234.

In addition, the fourth fastening means 240 is connected to the leg portion 2 disposed above the two leg portions 2 and 2 of the lower vertical frame C4 so as to penetrate the lower end of the side standing frame C5. The formed rectangular through hole 241, the through holes 242 and 242 formed on both sides of the base 1 at the lower end of the side standing frame C5, and the side standing frame facing the through holes 242 and 242. Through holes 243 and 243 formed in the surface 2a of (C5), and through holes 244 and 244 formed in the base 1 of the lower longitudinal frame C4 facing the through holes 243 and 243. ) And a nut N4 fastened to the bolt B4 sequentially passing through the through holes 242 and 242, the through holes 243 and 243, and the through holes 244 and 244.

The coupling between the upper and lower ends of the rear side standing frame C6 and the upper horizontal frame C1 and the lower horizontal frame C2 is, as shown in FIGS. 1 and 6, the fifth fastening means 250 and the sixth fastening. By means 260.

The fifth fastening means 250 has a size and shape that can be inserted into the space S of the upper end of the rear standing frame C6, and the base 1 and the surface of the upper horizontal frame C1. The fifth female threaded groove 251a is formed in the portion which is formed, and the sixth female threaded groove 251b is formed in the portion facing the surface 2a of the rear side standing frame C6. Bundle portion 251; A through hole (O5) formed in the base (1) of the upper horizontal frame (C1) facing the fifth female threading groove (251a); A through hole (O6) formed in the surface (2a) of the back side standing frame (C6) facing the sixth female threaded groove (251b); And a plurality of insertion holes in the fifth and sixth female threaded grooves 251a and 251b through the through holes O5 and O6 to fasten the upper horizontal frame C1 and the back standing frame C6. The bolt B5 is included.

In addition, the sixth fastening means 260 has a size and shape that can be inserted into the space S at the bottom of the rear standing frame C6, and the base 1 of the lower horizontal frame C2. The seventh female threading groove 261a is formed in the portion facing the surface, and the eighth female threading groove 261b is formed in the portion facing the surface 2a of the rear side standing frame C6. A bundle portion 261; A through hole (O7) formed in the base (1) of the lower horizontal frame (C2) facing the seventh female threaded groove (261a); A through hole (O8) formed in the surface (2a) of the back side standing frame (C6) facing the eighth female threaded groove (261b); And a plurality of holes inserted into the seventh and eighth female threaded grooves 261a and 261b through the through holes O7 and O8 to fasten the lower horizontal frame C2 and the back standing frame C6. The bolt B6 is included.

1 is a perspective view of a hexahedron framework of the present embodiment,

2 is a cross-sectional view of an improved metal channel frame forming the framework of FIG.

3 is a perspective view illustrating a coupling state between an upper horizontal frame and an upper vertical frame of FIG. 1;

4 is a perspective view illustrating a coupling state between a lower horizontal frame and a lower vertical frame of FIG. 1;

5 is a perspective view illustrating a coupling state between the upper and lower ends of the side standing frame of FIG. 1 and the upper vertical frame and the lower vertical frame, and

Figure 6 is a perspective view showing a coupling state between the upper and lower ends and the upper horizontal frame and the lower horizontal frame of the back standing frame of Figure 1;

Claims (5)

In the hexagonal frame structure of the liquid crystal display device glass cassette, The frame structure of the improved metal channel frames form a hexahedral skeleton by the fastening means, and The improved metal channel frame includes a base 1 and both legs 2 bent vertically at both ends of the base 1, so that the ends of the legs 2 face each other. The two legs portion 2 is bent and parallel to each other is formed to form a space (S) of the rectangular cross section inside, The frame structure includes a plurality of upper horizontal frames C1 extending parallel to each other in a state where the bottom surface of the base 1 faces the bottom surface of the frame structure, and the bottom surface of the base 1 is the top surface of the frame structure. A plurality of lower horizontal frame (C2) extending in parallel to each other in a state facing toward, the bottom of the base 1 extends in parallel to each other in a state facing the inner surface of the frame structure, the plurality of upper horizontal frame (C1) A plurality of upper vertical frames C3 and bottoms of the base 1 extending in parallel to each other in a state in which the bottom surfaces of the base 1 face the inner surface of the frame structure, and both ends of the plurality of lower horizontal frames C1 A plurality of lower vertical frames C4 fastened, a plurality of side standing frames C5 at both ends fastened to the upper vertical frame C3 and a lower vertical frame C4, and the plurality of upper horizontal frames C1 Middle And a plurality of rear side standing frames C6 having both ends fastened to an upper horizontal frame C1 disposed at the rear and a lower horizontal frame C2 disposed at the rear of the plurality of lower horizontal frames C2. A hexahedron frame structure of a glass loading cassette for a liquid crystal display device. The method of claim 1,  The coupling between the upper horizontal frame (C1) and the upper vertical frame (C3) is made by the first fastening means 210, The first fastening means 210 has a size and shape that can be inserted into the space S of one end of the upper horizontal frame C1, and the base 1 and the surface of the upper horizontal frame C1. A bundle in which a first female threaded groove 211a is formed in the portion that is formed, and a second female threaded groove 211b is formed in the portion facing the base 1 of the upper vertical frame C3. Part 211; Through-holes (O1, O3) formed in the bases (1, 1) of the upper horizontal frame and the upper vertical frame (C1, C3) facing the first and second female threaded grooves (211a, 211b), respectively; And a plurality of bolts for fastening the upper horizontal frame C1 and the upper vertical frame C3 inserted into the first and second female threaded grooves 211a and 211b through the through holes O1 and O3. A hexahedron frame structure of a liquid crystal display device glass stacking cassette, comprising (B1). The method of claim 1, The coupling between the lower horizontal frame (C2) and the lower vertical frame (C4) is made by a second fastening means 220, The second fastening means 220 has a size and shape that can be inserted into the space S of one end of the lower horizontal frame C2, and the base 1 and the surface of the lower horizontal frame C2. A bundle in which a third female threading groove 221a is formed in the portion which is formed, and a fourth female threading groove 221b is formed in the portion facing the base 1 of the lower vertical frame C4. Part 221; Through-holes (O2, O4) formed in the bases (1, 1) of the lower horizontal frame and the lower vertical frame (C2, C4) respectively facing the third and fourth female threaded grooves (221a, 221b); And a plurality of bolts inserted into the third and fourth female threaded grooves 221a and 212b through the through holes O2 and O4 to fasten the lower horizontal frame C2 and the lower vertical frame C4. A hexahedron frame structure of a liquid crystal display device glass stacking cassette, comprising (B2). The method of claim 1, The coupling between the upper and lower ends of the side standing frame C5, the upper vertical frame C3, and the lower vertical frame C5 is made by the third fastening means 230 and the fourth fastening means 240, The third fastening means 230 has a rectangular shape formed in the leg portion 2 disposed below both of the leg portions 2 and 2 of the upper vertical frame C3 so as to penetrate the upper end of the side standing frame C5. Through holes 231, through holes 232 and 232 formed at both sides of the base 1 at the upper end of the side standing frame C5, and the side standing frame C5 facing the through holes 232 and 232. Through-holes 233 and 233 formed in the surface 2a of the bottom surface), through-holes 234 and 234 formed in the base 1 of the upper vertical frame C3 facing the through-holes 233 and 233 and the A through hole 232, 232, the through hole 233, 233, and a nut N3 engaged with the bolt B3 which sequentially passes through the through hole 234, 234, and The fourth fastening means 240 has a rectangular shape formed in the leg portion 2 disposed above the two leg portions 2 and 2 of the lower vertical frame C4 so as to penetrate the lower end of the side standing frame C5. Through holes 241, through holes 242 and 242 formed on both sides of the base 1 at the lower end of the side standing frame C5, and the side standing frames C5 facing the through holes 242 and 242. Through-holes 243 and 243 formed in the surface 2a of the bottom face), through-holes 244 and 244 formed in the base 1 of the lower vertical frame C4 facing the through-holes 243 and 243, and the And a nut (N4) fastened to the through hole (242, 242), the through hole (243, 243), and the bolt (B4) sequentially penetrating the through hole (244, 244). Cube structure of glass cassette for liquid crystal display device. The method of claim 1, The coupling between the upper and lower ends of the rear side standing frame C6 and the upper horizontal frame C1 and the lower horizontal frame C2 is made by the fifth fastening means 250 and the sixth fastening means 260, The fifth fastening means 250 is The fifth female screw has a size and shape that can be inserted into the space (S) of the upper side of the rear standing frame (C6), facing the base (1) of the upper horizontal frame (C1) A bundle 251 in which a groove 251a is formed, and a sixth female threaded groove 251b is formed in a portion facing the surface 2a of the rear side standing frame C6; A through hole (O5) formed in the base (1) of the upper horizontal frame (C1) facing the fifth female threading groove (251a); A through hole (O6) formed in the surface (2a) of the back side standing frame (C6) facing the sixth female threaded groove (251b); And A plurality of bolts inserted into the fifth and sixth female threaded grooves 251a and 251b through the through holes O5 and O6 to fasten the upper horizontal frame C1 and the rear standing frame C6. It includes (B5), The sixth fastening means 260 is It has a size and shape that can be inserted into the space (S) at the bottom of the rear standing frame (C6), and the seventh female thread processing on the portion facing the base (1) of the lower horizontal frame (C2) A bundle 261 formed with a groove 261a and having an eighth female threaded groove 261b formed in a portion facing the surface 2a of the rear side standing frame C6; A through hole (O7) formed in the base (1) of the lower horizontal frame (C2) facing the seventh female threaded groove (261a); A through hole (O8) formed in the surface (2a) of the back side standing frame (C6) facing the eighth female threaded groove (261b); And A plurality of bolts inserted into the seventh and eighth female threaded grooves 261a and 261b through the through holes O7 and O8 to fasten the lower horizontal frame C2 and the rear standing frame C6. A hexahedron frame structure of a liquid crystal display device glass stacking cassette, comprising (B6).

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