KR101474747B1 - Frame od Structure such as Steel House - Google Patents

Abstract

The frame of the steel house according to the present invention is formed with first to seventh plate portions parallel to each other in the longitudinal direction by first to sixth folding lines extending in parallel to each other in the longitudinal direction, , The third plate portion and the fifth plate portion are formed to be shorter than the first plate portion and the seventh plate portion, and the first plate portion, the third plate portion, the fifth plate portion, A fourth bent portion, and a sixth bent portion, wherein the bent portion is formed by intersecting the U-shaped convex portion and the concave portion and bent at both ends so as to contact the inner inner side.

Description

Frame of a structure such as a steel house.

The present invention relates to a frame applied to a structure such as a steel house. In general, the frame of the steel house is simple in manufacturing process and low in cost, so it is widely used in temporary housing, factory structures and the like, and is also useful as a solar module support of a solar power plant. However, since the steel house should be structurally rigid enough to withstand the load and earthquake of the structure located at the upper part, the structure of the frame used in the structure and the method of fastening the frame and the frame are important.

A conventional technique related to the present invention is disclosed in Korean Patent Registration No. 10-0634895. 1 is a main structural view relating to the conventional structural member and the method of manufacturing the structural member. In FIG. 1, the conventional structural member is a structural member 32A used for a large beam of a steel house. The structural member 32A has a pair of structural elements 16 and the structural element 16 includes three grooves 18a, 18b and 18c alternately facing in the opening direction, and a substantially longitudinal cross-section Respectively. The structural element 16 is also provided with a first planar portion 20a, 20b, 20c, 20d, 20e, 20f, and 20g, which are adjacent to each other and are substantially orthogonal to each other and having substantially seven rectangles . Further, the pair of structural elements 16 of the structural member 32A are arranged in a line so that the grooves 18a and 18c of the respective opposite ends of the respective corresponding grooves 18a and 18c can face each other, and the pair of structural elements 16 Groove-like steel 46 is used as a joining member for joining the joining members. Both side surfaces 46a of the groove-like steel 46 on the left side overlap with the respective second flat surface portions 20b, which are the bottom surfaces of the groove 18a at the left end facing each other. At that time, the bottom surface 46b of the left grooved steel 46 overlaps the first planar portion 20a of each of the pair of opposed structural elements 16. The both side surfaces 46a of the groove-like steel 46 on the right side overlap with the respective sixth flat surface portions 20f, which are the bottom surfaces of the right-side groove 18c facing each other. At this time, the bottom surface 46b of the right- Which overlaps the seventh planar portion 20g of each of the structural elements 16, In addition, a space 84A having an H-shaped cross section closed by the pair of groove-like steel members 46 and the pair of structural elements 16 is formed, and a filling member (filler member ) 84B is charged. As the filling member 84B, a material having heat insulation and sound insulation such as foamed styrol can be used. That is, the two side surfaces 46a of one of the pair of the groove-like steels 46 overlap with the inner surface of the second flat portion 20b of each of the pair of the structural elements 16, and the two side surfaces 46a of the other groove- 46a overlap with the inner surface of the sixth planar portion 20f of each of the pair of structural elements 16. The bottom surface 46b of one of the pair of the groove-like steels 46 overlaps the inner surface of the first flat portion 20a of each of the pair of the structural elements 16, and the bottom surface 46a of the other groove- And overlaps the inner surface of each seventh planar portion 20g of element 16. In addition, the filling member 84B is provided in the space 84A having an H-shaped sectional shape formed by the groove-like steel 46 and the structural element 16. [ With the above configuration, both sides 46a of the groove-like steel 46 are accommodated in the grooves 18a or 18c at both ends of the structural element 16 so as to open inward. The width of the groove 18a or 18c is preferably larger than the height of the side surface 46a of the groove-like steel 46 in order to accommodate the side surface 46a of the groove-like steel in the groove 18a or 18c of the structural element 16. [ Since the filling member 84B is filled in the entire H-shaped space 84A, the filling member 84B contacts most of the inner surface of the structural member 32A to support the structural member 32A. Therefore, the filling member 84B can provide a resistance against the deformation of the structural member 32A. Therefore, the compressive strength when the load is applied to the structural member 32A in the longitudinal direction and the flexural strength when the load is applied to the structural member 32A in the vertical (vertical) direction with respect to the longitudinal direction of the structural member 32A Bending strength) is increased. By filling the space 84A formed in the structural member 32A with the filling member 84B having the heat insulating property, the structural member 32A is provided with the heat insulating property so that the condensation in the building can be reduced. By using the material having the car sound as the filling member 84B, And noise outside the building such as traffic noise can be reduced. It is also possible to perforate the first planar portion 20a and the seventh planar portion 20g of the structural element by punching or the like outside the structural element 16 or by punching the first planar portion 20a and the seventh planar portion 20g by means of a caulking or a clinch, The concave portion 52 is formed by sandwiching the portion 20a and the third flat portion 20c or the fifth flat portion 20e and the seventh flat portion 20g to fix the structural element 16 and the groove-like steel 46. [ The structural element 16 and the groove-like steel 46 can be fixed by rivets, drilling screws, tapping screws, screw nails, bolts, welding or the like. That is, the first flat portion 20a and the seventh flat portion 20g of each of the pair of the structural elements 16 among the overlapping portions of the structural element 16 and the groove-like steel 46 are divided into the first flat portion 20a and the seventh flat portion 20g, The first planar portion 20a and the seventh planar portion 20g of each of the pair of structural elements 16, which have the concave portion 52 for fixing the steel 46 and in which the structural element 16 overlaps with the grooved steel 46, A rivet, a drilling screw, a tapping screw, a screw nail or a bolt for fixing the steel 46, or it may be fixed by welding. In addition, the structural member 32A thus combined is not limited to a large beam because it has a large compressive strength, and can be used as a column.

The conventional structural member as described above has a plurality of grooves, and the end of the structural member has a straight shape, which makes it difficult to fasten the structural member. Also, since the conventional structural member as described above is formed as a straight end, the structural member is scratched at the other end when fastened, and zinc plating is peeled off from the skin of the structural member. In addition, the conventional structural member made of a galvanized steel sheet has a short life span. It is therefore an object of the present invention to facilitate the fastening through the structure of the structural member, thereby reducing the manufacturing cost of the structure. Another object of the present invention is to prevent scratching during fastening due to the end of the structural member.

In order to achieve the above object, a frame of a steel house according to the present invention, which can be used as a column or a beam of a structure, includes first to sixth folding lines extending in parallel in the longitudinal direction, Wherein the first to seventh plate portions are parallel to each other in the longitudinal direction and the third plate portion and the fifth plate portion are formed to be shorter than the first plate portion and the seventh plate portion, The third plate, the fifth plate, and the seventh plate are bent perpendicularly to the second plate, the fourth plate and the sixth plate so that the U-shaped convex and concave portions are formed in an intersection so that both ends abut on the inner side of the inner side And is a frame characterized by a constitution of a curved end bent portion. In addition, four frames as described above are connected and fastened with rivets or the like to form a frame structure to be used as a column or a beam. In addition, the material of the steel house frame may be a galvanized steel sheet or a color steel sheet for prolonging its life.

The frame of the steel house constructed as described above and the frame structure using the frame are easy to fasten and have a high durability, thereby reducing the construction cost. In addition, there is no scratching phenomenon due to the end of the frame at the time of frame fastening, so that there is no damage to the frame and it is easy to manage. In addition, the frame structure of the present invention has an effect that it is easy to engage and fasten by a bent portion at the time of fastening each frame and frame. In addition, since the length of the plate portions in the center is smaller than the length of the plate portions in the outer side, the material cost is low and the operation is easy.

1 is a perspective view of a conventional structural member,
Fig. 2 is a sectional view of the first embodiment of the frame of the present invention,
3 is a perspective view of the first embodiment of the present invention,
4 is a perspective view of the structure using the first embodiment of the present invention,
5 is a sectional view of a structure using the first embodiment of the frame of the present invention,
6 is a sectional view of a second embodiment of the frame of the present invention,
Fig. 7 is a cross-sectional view of a third embodiment of the frame of the present invention,
8 is a sectional view of the fourth embodiment of the frame of the present invention,
9 is a perspective view of a structure according to an embodiment of the present invention.

      A frame of the steel house of the present invention which can be used as a column or a beam of a steel house or a solar cell module with the above objects and a frame structure using the same will be described with reference to FIGS. 2 to 9.

2 is a sectional view of the first embodiment of the frame of the present invention. 2, the first embodiment 100 of the frame of the present invention is used as a column or a beam of a steel house or a solar cell module which is a building structure, and includes a first bent portion 101 extending in parallel to the longitudinal direction, The first bending section 102, the third bending section 103, the fourth bending section 104, the fifth bending section 105 and the sixth bending section 106, The first plate portion 201 is divided into a second plate portion 202, a third plate portion 203, a fourth plate portion 204, a fifth plate portion 205, a sixth plate portion 206 and a seventh plate portion 207, The third plate portion 203 and the fifth plate portion 205 are smaller in height than the first plate portion 201 and the seventh plate portion 207. The third plate portion 203 and the fifth plate portion 205 are smaller in height than the first plate portion 201 and the seventh plate portion 207, The plate portion 203, the fifth plate portion 205 and the seventh plate portion 207 are bent perpendicularly to the second plate portion 202, the fourth plate portion 204 and the sixth plate portion 206 and are bent in a U- Concave portions are formed at intersections and the ends of the first plate portion 201 and the seventh plate portion 207 are joined to the inner side surface on the inner side So that the bent formed end is bend frame comprising the 301,302. The height of the third plate portion 203 and the fifth plate portion 205 is the same as that of the first plate portion 201 and the seventh plate portion 207 , It is advantageous that the material cost is small and the operation is easier when the frame is fastened to the structure using a plurality of frames.

3 is a perspective view of the first embodiment of the present invention. 3, the first embodiment of the frame 100 according to the present invention includes a first plate 201, a first bent portion 301 formed at one end of the first plate 201, The other side of the second plate portion 202 is bent 90 degrees inward by the first bent portion 101 in the longitudinal direction to constitute the second plate portion 202. The second plate portion 202 is again bent in the longitudinal direction of the second bent portion 102, And the third plate portion 203 constitutes a third plate portion 203 which is shorter than the height of the first plate portion 201 by being bent 90 degrees inward by the third bent portion 103 And the fourth plate portion 204 is further bent 90 degrees outwardly by the fourth bent portion 104 in the longitudinal direction, and the seventh plate portion 207 , And the fifth plate portion 205 is further bent 90 degrees inwardly by the fifth bent portion 105 in the longitudinal direction of the fifth plate portion 205 And the sixth plate portion 206 is bent at 90 degrees inward by the sixth bent portion 106 in the longitudinal direction to form a seventh plate portion 207 and the seventh plate portion 207 And an end bending portion 302 bent at an inner side by 180 degrees and contacting the inner side surface.

4 is a perspective view of a structure using the first embodiment of the present invention. 4, the structure 400 using the first embodiment of the present invention has four frames, each having first to sixth bent portions in the longitudinal direction and first to seventh plate portions in the longitudinal direction, And a plurality of rivet holes 503 are formed in each frame in the longitudinal direction so that a plurality of rivets 501 are fastened and joined at a point where the frame and the frame are in contact with each other. In addition, the frame structure may be filled with a heat insulating material such as a styrofoam, and a noise material may be filled in the frame structure to reduce the noise of the building or to provide a thermal insulation effect.

5 is a cross-sectional view of a structure using the first embodiment of the present invention. 5, the structure 400 using the first embodiment of the present invention has a structure in which four frames are fastened, and the four frames each have a first bent portion, a second bent portion, a third bent portion, A fourth plate section, a fourth plate section, a fourth plate section, a fifth plate section, a sixth plate section, and a sixth plate section, A fifth plate portion, a sixth plate portion and a seventh plate portion that are shorter in height than the seventh plate portion, and the first plate portion, the third plate portion, the fifth plate portion, and the seventh plate portion, when folded by the folding line, , A fourth bending portion and a sixth bending portion which are bent at right angles to each other so that a U-shaped convex portion and a concave portion intersect with each other and the ends of the first and seventh plate portions contact the inner side surface. . In addition, the frame structure of the present invention has a structure in which the second frame 420 is fastened to one side of the first frame 410 among the four frames having the above-described structure, The fourth frame 440 is fastened to one side of the third frame 430 and the other side of the fourth frame 440 is fastened to the other side of the first frame 410 . In the above method, the seventh plate portion of the first frame 410 and the second frame 420 fasten and weld the second plate portion with the rivets 501 and the like. Further, in the sixth plate portion 420 of the second frame 420, The first plate portion of the second frame 430 and the third plate portion 430 of the fourth frame 440 are fastened to each other by the rivets 501 and the seventh plate portion of the third frame 430 and the second plate portions of the fourth frame 440 are fitted to the rivets 501, And so on. The sixth plate portion of the fourth frame 440 is engaged with the first plate portion of the first frame 410 by a rivet 501 or the like. The frame structure fastened as described above is a structure in the longitudinal direction and has a shape like a column.

6 is a sectional view of a second embodiment of the frame of the present invention. 6, the frame 600 according to the second embodiment of the present invention is used as a column or a beam of a steel house or a solar cell module, which is a building structure. The frame 600 includes a first bent portion 601 extending in parallel to the longitudinal direction, The first bent portion 602, the third bent portion 603, the fourth bent portion 604, the fifth bent portion 605 and the sixth bent portion 606, The second plate portion 620 and the fifth plate portion 650 whose height is shorter than the third plate portion 630, the fourth plate portion 640 and the seventh plate portion 670 which are shorter than the first plate portion 610, A sixth plate portion 660 and a seventh plate portion 670. The third plate portion 630 and the fifth plate portion 650 are divided into a first plate portion 610 and a seventh plate portion 670 The third plate portion 630, the fifth plate portion 650 and the seventh plate portion 670 are bent in the second plate portion 620 and the fourth plate portion 630 640 and the sixth plate portion 660, and the U-shaped convex portion and the concave portion intersect with each other To the frame, it characterized in that formed. The height of the third plate portion 203 and the fifth plate portion 205 is the same as that of the first plate portion 201 and the seventh plate portion 207 It is advantageous in that the material cost is reduced and the operation is easier when a plurality of frames are fastened to the structure.

7 is a cross-sectional view of the third embodiment of the frame of the present invention. 7, the third embodiment 700 of the present invention is used as a column or a beam of a steel house or a solar cell module that is a building structure, and includes a first bent portion 701 and a second bent portion 701 extending in parallel to each other in the longitudinal direction, Shaped third folded portion 703, a rounded fourth folded portion 704, a fifth bent portion 705 and a sixth folded portion 706, and the six bent portions 703, The third plate 730, the fourth plate 740 and the fifth plate 770 having a height shorter than that of the seventh plate 770 are formed by the first plate 710, the second plate 720, The first plate portion 710, the second plate portion 720, and the third plate portion 730 are bent at the bending by the folding line. The first plate portion 710, the second plate portion 720, The third plate 730 and the fourth plate 740 and the fourth plate 740 and the fifth plate 750 are bent in an arc shape and the fifth plate 750, The plate portion 760 and the seventh plate portion 770 are formed to be bent perpendicularly to each other The first plate portion 710 and the seventh plate portion 770 have end bent portions 781 and 782 formed by curving the inner side toward the inner side, . The material of the frame may also be a galvanized steel sheet or a colored steel sheet for prolonging its life.

8 is a cross-sectional view of a fourth embodiment of the frame of the present invention. 8, the fourth embodiment 800 of the present invention is used as a column or a beam of a steel house or a solar cell module that is a building structure. The first bent portion 801 and the second bent portion 801, 802, a third bent portion 803, a fourth bent portion 804, a fifth bent portion 805 and a sixth bent portion 806. The six bent portions 801, A fourth plate 840, a fifth plate 850 having a height shorter than the seventh plate 870, a second plate 820 having a height shorter than the first plate 810, The third plate portion 830 and the fifth plate portion 850 are divided into a sixth plate portion 860 and a seventh plate portion 870 and the height of the third plate portion 830 and the fifth plate portion 850 is shorter than that of the first plate portion 810 and the seventh plate portion 870 The first plate portion 810, the second plate portion 820 and the third plate portion 830 are bent perpendicular to each other and the third plate portion 830 and the fourth plate portion 840 are bent perpendicularly to each other, And the fourth plate portion 840 and the fifth plate portion 850 are bent in an arc shape, The sixth plate 860, the sixth plate 860 and the seventh plate 870 are bent perpendicularly to each other so that a U-shaped convex portion and a concave portion are alternately formed. The height of the third plate 830 and the fifth plate 850 may be the same as the thickness of the first plate 810 and the seventh plate 870 It is advantageous in that the material cost is reduced and the operation is easier when a plurality of frames are fastened to the structure.

9 is a perspective view of a structure according to an embodiment of the present invention. 9 shows a state in which a column and a beam are installed using a structure 400 in which a frame of the present invention is fastened to a base, and a solar cell module 1000 is installed in the beam top. As described above, the frame of the present invention is characterized in that it is easy to work and the material cost is low.

100, 600, 700, 800: frame, 101, 601, 701, 801:
103, 603, 703, 803: a third bent portion, 105, 605, 705, 805: a fifth bent portion,
201, 610, 710, 810: first plate portion, 203, 630, 730, 830: third plate portion,
205, 650, 750, 850: fifth plate portion, 207, 670, 770, 870: seventh plate portion,
301, 302, 781, 782: end bending part 400: frame structure,
410: first frame, 430: third frame,
501: Rivet, 503: Rivet hole,

Claims (6)

delete delete delete delete delete A frame of a structure to be used for a column or a beam of a structure,
Wherein the frame of the structure comprises:
The first bending portion 801, the second bending portion 802, the third bending portion 803, the fourth bending portion 804, the fifth bending portion 805, and the sixth bending portion 805, which extend in parallel in the longitudinal direction, A second plate portion 820 and a third plate portion 830 shorter than the first plate portion 810 and a fourth plate portion 840 A fifth plate portion 850, a sixth plate portion 860 and a seventh plate portion 870 having a height shorter than the seventh plate portion 870. The first plate portion 810 The second plate portion 820 and the third plate portion 830 are perpendicularly bent and the third plate portion 830 and the fourth plate portion 840 and the fourth plate portion 840 and the fifth plate portion 850 are bent The fifth plate portion 850, the sixth plate portion 860, and the seventh plate portion 870 are bent perpendicularly to each other. The U-shaped convex portion and the concave portion are formed in an intersecting manner. The first plate portion 710, And the seventh plate portion 770 are bent at an angle of 180 degrees toward the inner side of the end, and end bent portions 781, 782). ≪ / RTI >

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