KR101066613B1 - External wall construction device for building without field welding - Google Patents

Abstract

The present invention relates to an exterior wall construction apparatus capable of constructing an outer wall of a ramen type building in which an interlayer slab is completed or a curtain wall of a building in which a separate wall surface is completed without any field welding.
Specifically, the present invention includes at least one first elbow bracket fixed to the building with a first bolt and a first nut; One of a longitudinal beam and a horizontal beam secured to the first elbow bracket with a second bolt and a second nut and disposed vertically or horizontally along an outer surface of the building; The other of the longitudinal beam or the horizontal beam disposed vertically or horizontally along an outer surface thereof so as to intersect one of the longitudinal beam or the horizontal beam; A band bracket fixed to the longitudinal beam and the horizontal beam by a third bolt and a fourth nut and a fourth bolt and a fourth nut at an intersection point of the longitudinal beam and the horizontal beam; A second elbow bracket fixed to the other of the longitudinal beam or the horizontal beam with a fifth bolt and a fifth nut; An edge is guided to the second elbow bracket and includes a plate structure vertically disposed along the outer surface of the building, wherein the vertical beam and the horizontal beam are hollowed through the respective longitudinal directions and along the longitudinal direction of one outer surface. It provides a factory value for the exterior wall of a building that can be constructed without the spot welding, which is the same shape of an open square steel pipe with a slit-shaped opening.

Description

Outer-wall construction apparatus for building capale non field welded}

The present invention is an outer wall capable of constructing an outer wall of a ramen type building in which an interlayer slab is completed or a curtain wall of a building in which a separate wall surface is completed without any field welding. It relates to a construction apparatus.

In general, the outer wall refers to a vertical part which is installed on the outer circumference of a building to distinguish between the external and internal environments and exhibits water resistance, durability, fire resistance, sound insulation, and thermal insulation.

Recently, the appearance design of the building is becoming important, and the aesthetic utilization of the exterior wall is drawing attention. For example, in the past, if the walls were usually painted or affixed with bricks, large-area plate structures such as stone, metal, and glass are used to construct curtain walls, which are separate exterior walls. .

Meanwhile, curtain wall construction methods include 'wet construction method' and 'dry construction method'.

The wet construction method is to face the plate structure on the outside of the building wall, and then cement is placed therebetween. The wet construction method is rarely used at present because the construction period including the curing of cement is long and workability and workability are low. On the other hand, the dry construction method is a method of fixing the plate structure to the outside of the building wall using a bracket (bracket) or steel structure, etc., is excellent in workability and workability is currently widely used.

However, the dry construction method also presents some problems. Looking at some representative examples, it is virtually impossible to construct exterior walls other than curtain walls, the working environment is poor, and field welding is inevitable.

That is, the general dry construction method requires a separate wall surface for fixing brackets or steel structures, so it is difficult to construct a building without a wall surface, for example, a ramen-type building in which an interlayer slab is completed, and thus, double wall and curtain wall The structure shows high cost consumption. In addition, the work environment is poor because long time work must be carried out with a heavy plate structure on the outside of the wall surface, and field welding such as cutting and extension of the bracket or steel structure is inevitable depending on the working conditions such as the wall shape.

The present invention has been made to solve the above problems. In other words, the present invention is an exterior wall construction apparatus that can be applied to the outer wall of the ramen-type building in which the interlayer slab is completed or the curtain wall of the building in which the wall surface is completed without any field welding. The purpose is to present a concrete way to shorten the period and construction cost and to realize a relatively solid exterior wall.

The present invention to achieve the above object, the first elbow bracket fixed to the building by the first bolt and the first nut; One of a longitudinal beam or a horizontal beam arranged horizontally along the outer surface of the building by being fixed to the first elbow bracket with a second bolt and a second nut; The other of the vertical beam or the horizontal beam arranged horizontally along its outer surface to intersect one of the vertical beam or the horizontal beam; A band bracket fixed to the longitudinal beam and the horizontal beam with a third bolt, a third nut, a fourth bolt, and a fourth nut at an intersection point of the longitudinal beam and the horizontal beam; A second elbow bracket fixed to the other of the longitudinal beam or the horizontal beam with a fifth bolt and a fifth nut; An edge is guided to the second elbow bracket to include a plate structure vertically disposed along the outer surface of the building, wherein the longitudinal beam and the horizontal beam is a hollow through each longitudinal direction and the longitudinal direction of one side surface The slit-shaped opening of the square steel pipe is opened in the same shape, the openings respectively toward the outside of the building, the first elbow bracket is the first fixed end fixed to the building and one of the longitudinal beam or the horizontal beam opening And a first supporting end fixed to cover the second bracket, wherein the band bracket includes a second fixing end and the second fixing end which cover and fix the other opening of the horizontal beam or the vertical beam at the intersection of the horizontal beam and the vertical beam. Construction without field welding including a second support end that is bent outwardly at both ends of the second beam and covered by an opening of one of the horizontal beam and the vertical beam. If possible, provide factory values for exterior walls of buildings.

The present invention can be applied to the outer wall of the ramen-type building completed the interlayer slab or the curtain wall of the building complete with a separate wall, so the scope of application is wide, and can be constructed with bolts and nuts without any field welding, safe and convenient Of course, it is possible to realize a relatively solid outer wall while reducing the construction period and construction cost.

1 is a plan view of an exterior wall construction apparatus according to a first embodiment of the present invention.
2 to 4 are perspective views of the circle A, B, and C portions of FIG. 1, respectively.
5 to 9 is a process schematic diagram according to the construction procedure of the outer wall construction apparatus according to a first embodiment of the present invention.
10 is a plan view of the outer wall construction apparatus according to a second embodiment of the present invention.
FIG. 11 is a perspective view of the circle D portion of FIG. 10. FIG.
12 and 13 are process schematic diagrams according to the construction sequence of the outer wall construction apparatus according to a second embodiment of the present invention.
14 is a plan view of the outer wall construction apparatus according to a third embodiment of the present invention.
Figures 15 to 17 are perspective views of the section E, F, G of Figure 14, respectively.
18 is a plan view of the exterior wall construction apparatus according to a fourth embodiment of the present invention.
FIG. 19 is a perspective view of the H portion of the circle of FIG. 18. FIG.
20 is a cross-sectional view of the horizontal beam or vertical beam of the outer wall construction apparatus according to the present invention.
21 is a perspective view of a second bolt and a second nut of the outer wall construction apparatus according to the present invention.
22 is a plan view of the band bracket of the outer wall construction apparatus according to the present invention.
Figure 23 is a perspective view of a horizontal beam or vertical beam of the exterior wall construction apparatus according to the present invention.

Prior to the full description, the exterior wall construction device (hereinafter, referred to as 'outer wall construction device') of a building that can be constructed without on-site welding according to the present invention is a building in which an outer wall or a separate wall surface of a ramen-type building in which an interlayer slab is completed is completed. The curtain wall can be constructed. Therefore, each of the embodiments will be described separately by embodiment, and for convenience, common embodiments will be described in detail through the first or second embodiment, and other embodiments will focus on differences.

<First Embodiment>

1 is a plan view of an exterior wall construction apparatus according to a first embodiment of the present invention.

The present embodiment is for the external wall construction of the building, that is, the ramen-type building in which the interlayer slab is completed, and it is possible to identify the upper and lower slabs 2 and 4 which are ceilings and floors for arbitrary floors in the drawing. Also, although not shown, there are pillars on the left and right of the drawing.

And the outer wall factory factory according to the present embodiment through a plurality of horizontal beams (20, 21), the band bracket 30 is fixed horizontally along the outer surface of the building via at least one first elbow bracket (10) A plurality of vertical beams 40 fixed vertically along the outer surfaces of the horizontal beams 20 and 21, A plurality of plate structures fixed vertically along the outer surface of the vertical beam 40 via the second elbow bracket 50 (60).

At this time, in the present embodiment, the horizontal beams 20 and 21 may be divided into a main horizontal beam 20 fixed to the slabs 2 and 4 and an auxiliary horizontal beam 21 fixed to the pillar, and the auxiliary horizontal beam 21 ) Is suitably used for one or more load distributions applied to the main transverse beam 20. However, there is no benefit of a special division, hereinafter referred to as a horizontal beam (20).

And the building and the first elbow bracket 10, the first elbow bracket 10 and the horizontal beam 20, the horizontal beam 20 and the band bracket 30, the band bracket 30 and the vertical beam 40, vertical The beam 40 and the second elbow bracket 50 are coupled by bolts and nuts without any field welding, and the plate structure 60 is mounted on the second elbow bracket 50.

In addition, both the horizontal beam 20 and the vertical beam 40 are rectangular steel pipes through which a hollow penetrates along the length direction and a slit-shaped opening 24 is opened along the length direction of one outer surface. Orient of steel pipe or square steel pipe is shown.

That is, FIG. 20 is a cross-sectional view showing a cross section perpendicular to the longitudinal direction of the horizontal beam 20 or the vertical beam 40. The hollow 22 penetrated along the longitudinal direction and the slit shape opened along the longitudinal direction of one outer surface thereof. The opening 24 of can be confirmed. Here, preferably, both ribs 26 of the opening 24 are obliquely indented into the hollow 22, and the overall width e and the height f are about 75 mm and 45 mm, respectively. The width g of the opening portion 24 is preferably 10 to 15 mm, and the indentation degree h of the two side ribs 26 is preferably 2 to 4 mm. For reference, although the openings 24 are shown to be opened along the entire lengthwise direction in the drawings, the openings 24 may be partially opened in the longitudinal direction or in a dotted line at a predetermined interval.

As a result, the outer wall factory factory according to the present invention is characterized in that it is constructed with bolts, nuts without any field welding using the horizontal beam 20 and the vertical beam 40 of the same shape. 2 to 4 and the drawings to be mentioned separately will be described with reference to FIG. 1 for further details.

FIG. 2 is a perspective view of part A of the circle of FIG. 1 as part of an exterior wall construction apparatus according to a first embodiment of the present invention.

In the present embodiment, the horizontal beam 20 is horizontally fixed along the outer surface of the slab 2 via one first elbow bracket 10. To this end, the first elbow bracket 10 includes a first fixing end 12 and a first support end 16 perpendicular to each other, and a first fixing hole 14 is formed in the first fixing end 12. The first support hole 18 penetrates through the first support end 16. And the first fixed end 12 is the edge of the slab 2 by the first bolt (B1) pre-inserted to the upper or lower edge of the slab 2 and the first nut (N1) fastened thereto Is fixed to the first support end 16 so that the first support end 16 is arranged vertically alongside the outer surface of the slab 2. In addition, the horizontal beam 20 is horizontally positioned between the first fixed end 12 and the first support end 16 such that the opening 24 faces the first support end 16, thereby opening the first support hole 18. The second bolt B2 inserted through the opening 24 and the second nut N2 fastened thereto are fixed thereto.

In this case, for convenience, if the inside and outside directions of the building are the X-axis direction, the up-down direction is the Y-axis direction, and the left-right direction is the Z-axis direction, the width of the X-axis direction of the first fixing hole 14 is preferably the width of the Z-axis direction. It is a larger X-axis long hole, and the 1st support hole 18 is a Z-axis long hole whose width in a Z-axis direction is larger than the width of a Y-axis direction. Accordingly, the fastening position of the first bolt B1 and the first nut N1 with respect to the first fixing hole 14 and the second bolt B2 and the second nut N2 with respect to the first support hole 18 are thus determined. The fastening position can be adjusted appropriately within each limit.

The head of the second bolt B2 is a rectangular parallelepiped or the like and is inserted into the opening 24 of the horizontal beam 20 through the first support hole 18 of the first support end 16. The so-called flange nut is used for the second nut N2.

That is, FIG. 21 is an exploded perspective view showing the second bolt B2 and the second nut N2. The head H of the second bolt B2 has a short axis length and a minimum width of the first support hole 18. A rectangular parallelepiped having a width smaller than the width of the opening 24 of the horizontal beam 20 and the length of the major axis is larger than the minimum width of the first support hole 18 and the width of the opening 24. And at one end of the second nut (N2) is provided with a flange (barb) uneven protrusion (BA) in the opposite direction of the fastening along the contact surface facing the head (H) of the second bolt (B2) ( F) is enclosed.

Therefore, the operator rotates 90 ° after inserting the head H of the second bolt B2 through the opening 24 of the horizontal beam 20 through the first supporting hole 18 of the first supporting end 16. The second nut (N2) to the threaded portion (S), and then to both sides of the rib (20, 26, the same is the same) of the horizontal beam 20, and during this process both sides of the horizontal beam (20) Since the rib 26 is inclined inwardly, the rib 26 exhibits elasticity when the second bolt B2 and the second nut N2 are fastened to achieve a relatively firm coupling, and the second nut N2 The uneven protrusion BA exerts a strong frictional force in the unwinding direction.

3 is a perspective view of a portion B of the circle of FIG. 1 as part of an exterior wall construction apparatus according to a first embodiment of the present invention.

In the present embodiment, the vertical beam 40 is vertically fixed along the outer surface of the horizontal beam 20 via the band bracket 30. The band bracket 30 for this purpose is a second fixed end 32 that both ends are vertically bent in the same direction at the intersection of the horizontal beam 20 and the vertical beam 40 to cover the front and both sides of the vertical beam 40 And a pair of second support ends 36 which are bent outwardly from both ends thereof to be in close contact with the front side of the horizontal beam 20 at the left and right of the intersection point, and the second fixing holes 34 have a second fixing hole 34. The second support hole 38 penetrates through the second support end 36. The second fixing end 32 is connected to the third bolt N3 inserted through the opening 24 of the vertical beam 40 through the second fixing hole 34 and the third nut N3 fastened thereto. The fourth bolt N4 is fixed to the longitudinal beam 40 and the second support end 36 is inserted through the opening 24 of the horizontal beam 20 through the second support hole 38. The fourth nut N4 is fastened to the horizontal beam 20.

At this time, preferably, the second fixing hole 34 is a Y-axis hole having a width in the Y-axis direction greater than a width in the Z-axis direction, and the width of the second support hole 38 in the Z-axis direction is a width in the Y-axis direction. Larger Z-axis slot. Therefore, the fastening position of the third bolt B3 and the third nut N3 with respect to the second fixing hole 34 and the fourth bolt B4 and the fourth nut N4 with respect to the second support hole 38 are thus determined. The fastening position can be adjusted appropriately within each limit.

The third and fourth bolts B3 and B4 are substantially the same shape as the second bolt (see B2 in FIG. 21), and the third and fourth nuts N3 and N4 are the second nut (N2 in FIG. 21). Substantially the same as the flange nut. Details of this are the same as above, and thus a separate description is omitted.

In addition, the angle between the second fixing end 32 and the second support end 36 of the band bracket 30 is less than 90 ° to exhibit elasticity when the fourth bolt (B4) and the fourth nut (N4) is coupled Promote a relatively strong bond.

That is, the attached FIG. 22 is a plan view of the band bracket 30 to identify the second fixing end 32 and the pair of second support ends 36 that are bent outward at an angle of less than 90 ° at both ends thereof. have. For reference, a value of 2 to 3 mm is appropriate for the portion indicated by i in the drawing.

4 is a perspective view of the circle C portion of FIG. 1 as part of an exterior wall construction apparatus according to a first embodiment of the present invention.

In the present embodiment, the plate structure 60 is vertically fixed vertically in all directions along the outer surface of the longitudinal beam 40 via the second elbow bracket 50. The second elbow bracket 50 for this purpose includes a third fixing end 52 and a third supporting end 56 perpendicular to each other, and a third fixing hole 54 is formed in the third fixing end 52. The third support hole 56 (see 58 of FIG. 8, which is the same below) passes through the third support end 56. The third fixing end 52 is connected to the fifth bolt B5 inserted through the opening 24 of the vertical beam 40 through the third fixing hole 54 and the fifth nut N5 fastened thereto. It is fixed to the vertical beam 40, the third support end 56 supports the four upper, lower, left and right corners of the plate structure (60).

In this case, preferably, a separate extension pin 70 may be coupled to the third support end 56, and the extension pin 70 may properly adjust a gap between the vertical beam 40 and the plate structure 60. Used for. The extension pin 70 for this purpose is a plate in which the extension hole 72 is penetrated and overlapped with the third support end 56 to penetrate the third support hole 58 and the extension hole 72. It is fixed by the bolt B6 and the 6th nut N6 fastened to it. Therefore, the extension pin 70 may support four upper, lower, left, and right corners of the plate structure 60 in place of the third support end 56, and further, a separate pin hole 74 penetrates the extension pin 70. If the pin 78 is inserted into the two plate structures 60 vertically adjacent thereto, the plate structure 60 may be more stably fixed. For reference, when the extension pin 70 is not used, the pin 78 is inserted into the third support hole 58 of the third support end 56 and inserted into the two upper and lower plate structures 60.

The third fixing hole 54 is a Y-axis hole having a width in the Y-axis direction greater than a width in the Z-axis direction, and the width of the third support hole 58 and the extension hole 72 in the X-axis direction are respectively Z-axis. It is an X-axis hole larger than the width of the direction. Therefore, the fastening position of the fifth bolt B5 and the fifth nut N5 with respect to the third fixing hole 54 and the sixth bolt B6 with respect to the third support hole 78 and / or the extension hole 72. And the fastening position of the sixth nut (N6) can be appropriately adjusted within each limit.

In addition, the fifth bolt B5 is substantially the same shape as the second bolt (see B2 in FIG. 21), and the fifth nut N5 is a flange nut substantially the same as the second nut (see N2 in FIG. 21). . Detailed description thereof is the same as the above, and thus a separate description is omitted, and the sixth bolt B6 and the sixth nut N6 are generally used.

5 to 9 are each a process perspective view according to the construction order of the outer wall construction apparatus according to the first embodiment of the present invention, with reference to FIGS. 1 to 4 above.

First, as shown in FIG. 5, the first bolt B1 is inserted into an arbitrary slab edge. At this time, preferably the first bolt (B1) is an anchor bolt (anchor bolt) in which the head is embedded in the slab (2), by using the first nut (N1) fastened therein of the first elbow bracket 10 The first fixing end 12 is fixed. As a result, the first support end 16 of the first elbow bracket 10 is vertically fixed to be parallel to the outer surface of the slab 2. For reference, when the slab 2 is made of steel such as an H beam, the first fixing end 12 of the first bracket 10 may be welded.

Next, as shown in FIG. 6, the horizontal beam 20 is horizontally placed between the first fixing end 12 and the first support end 16 of the first elbow bracket 10, and the second bolt B2 and the first bolt are placed. 2 Secure with nuts (N2). In this case, the opening 24 of the horizontal beam 20 faces the first support end 16, and the second bolt B2 passes through the first support hole 18 of the first support end 16. Is inserted from the head (H) into the opening (24) of the (), and the flange nut is used for the second nut (N2).

On the other hand, the horizontal beam 20 is a main horizontal beam 20 which is directly fixed to the outer surface of the slab 2, if necessary at least one auxiliary to the outer surface of the two pillars via two or more first elbow brackets 10 The horizontal beam (see 21 in FIG. 1, hereinafter the same) can be further fixed. At this time, since both pillars play substantially the same role as the wall surface of the second embodiment to be described later will be described in detail in the second embodiment.

Next, after vertically arranging the vertical beam 40 along the outer surface of the horizontal beam 20, as shown in Figure 7 the third bolt (B3) and the third nut (N3) and the fourth bolt (B4) and fourth The band bracket 30 is fixed with the nut N4. In this case, the opening 24 of the vertical beam 40 faces the second fixing end 32, and the third bolt B3 passes through the second fixing hole 34 of the second fixing end 32. It is inserted from the head H into the opening 24 of the 40, and the flange nut is used for the third nut N3. In addition, the fourth bolt B4 is inserted into the opening 24 of the horizontal beam 20 from the head H through the second support hole 38 of the second support end 36, and the fourth nut N3, N4) is used for flange nuts.

Next, as shown in FIG. 8, the third fixing end 52 of the second elbow bracket 50 is fixed to the outer surface of the vertical beam 40 with the fifth bolt B5 and the fifth nut N5. At this time, the fifth bolt B5 is inserted into the opening 24 of the vertical beam 40 from the head H through the third fixing hole 54 of the third fixing end 52, and the fifth nut N5. Flange nuts are used. Subsequently, the extension pin 70 is folded on the third support end 56 and then fixed with the sixth bolt B6 and the sixth nut N6. At this time, the sixth bolt B6 and the sixth nut B6 are conventional ones.

Lastly, as shown in Figure 9, the top, bottom, left and right four extension pins 70, the top, bottom, left and right four corners of the plate structure 60, and then pins (74) to the pin hole 74 to be continuously fixed in all directions. And if the finish between the plate structure 60 with cement or silicon, depending on the purpose, the exterior wall construction for the ramen-type building in which the interlayer slab 2 is completed. At this time, the finishing work using cement or silicon may be performed inside the building.

&Lt; Embodiment 2 >

FIG. 10 is a plan view of an exterior wall construction apparatus according to a second embodiment of the present invention, and the same reference numerals are given to the same parts that play the same role as the first embodiment for convenience. This is the same in all the figures below.

In the present embodiment, the wall surface 6 can be confirmed in the drawing as a construction for the curtain wall in the building where the wall surface is completed. And the outer wall factory factory according to the present embodiment is a horizontal beam through a plurality of horizontal beams 20, the band bracket 30 is fixed horizontally along the outer surface of the building via at least one first elbow bracket (10) A plurality of vertical beams 40 fixed vertically along the outer surface of the 20, a plurality of plate structures 60 fixed vertically along the outer surface of the longitudinal beam 40 via the second elbow bracket 50 Include.

At this time, in the present embodiment, the horizontal beam 20 is fixed to the wall surface 6 without special division of main or auxiliary, and two first elbow brackets 10 for fixing the horizontal beam 20 are used in one pair. . Otherwise, since it is substantially the same as the first embodiment, the difference will be described with reference to the drawings separately mentioned with reference to FIG. 10.

FIG. 11 is a perspective view of a portion D of the circle of FIG. 10 as part of an exterior wall construction apparatus according to a second embodiment of the present invention.

In the present embodiment, the horizontal beam 20 is horizontally fixed along the wall surface 6 via the two first elbow brackets 10. For convenience, when one is called the 1-1 elbow bracket 10a and the other is called the 1-2 elbow bracket 10b, the 1-1 elbow bracket 10a is perpendicular to each other in the 1-1 fixed end 12a. And a 1-1 support end 16a, wherein the 1-1 fixing end 14a has a 1-1 fixing hole 14a, and the 1-1 support end 16a has a 1-1 support. A hole (see 18a in FIG. 12, which is the same below) is penetrated. The 1-2 elbow bracket 10b includes a 1-2 fixed end 12b and a 1-2 support end 16b that are perpendicular to each other, and the 1-2 fixed end 12b includes a first − The second fixing hole 14b penetrates the first and second support holes 18b through the first and second support ends 16b.

In addition, the first-first fixing end 12a of the first-first elbow bracket 10a includes the first-first bolt B1a previously inserted into the wall 6 and the first-first nut fastened thereto. It is fixed to the wall surface 6 by Na, and the 1-1st support end 16a is arrange | positioned perpendicularly to the wall surface 6 by this. In addition, the first and second fixing ends 12b of the second elbow bracket 10b are stacked on the first and second support ends 16a to support the first and second supporting holes 18a and the first and second fixing holes 14b. It is fixed by the 1-2 bolt B1b penetrating through and the 1-2 nut N1b fastened thereto, whereby the 1-2 fixing end 16b is disposed perpendicular to the wall surface 6 side by side. . In addition, the horizontal beam 20 is horizontally positioned between the first 1-2 fixing end 12b and the 1-2 support end 16b such that the opening 24 faces the 1-2 support end 16b. The second bolt B2 penetrated into the opening 24 through the -2 support hole 18b and the second nut N2 fastened thereto are fixed.

At this time, preferably, the 1-1 bolt (B1a) is an anchor bolt, the 1-2 bolt (B1b) is a conventional bolt. The 1-1 fixing hole 14a is a Y-axis hole whose width in the Y-axis direction is larger than the width in the Z-axis direction, and the width of the X-axis direction is the width in the Z-axis direction of the 1-1 support hole 18a. It is a larger X-axis long hole, the 1-2 fixing hole 14b is an X-axis long hole whose width in the X-axis direction is larger than the width in the Z-axis direction, and the 1-2 support hole 18b is a width in the Z-axis direction. It is a Z-axis hole larger than the width of the Y-axis direction. Therefore, the fastening position of the 1-1 bolt B1a and the 1-1 nut N1a to the 1-1 fixing hole 14a and the 1-1 support hole 18a and / or the 1-2 fixing The fastening positions of the 1-2 bolt B1b and the 1-2 nut N1b with respect to the hole 14b may be appropriately adjusted within each limit.

As a result, the horizontal beam 20 shows substantially the same arrangement relationship as the first embodiment, the vertical beam 40 fixed vertically along the outer surface of the horizontal beam 20 via the band bracket 30, The plate structure 60 fixed vertically along the outer surface of the vertical beam 40 via the second elbow bracket 50 may be applied in the same manner as in the first embodiment.

That is, the outer wall municipal factory according to the second embodiment of the present invention, in order to fix the horizontal beam 20 to the wall 6, a set of the first elbow bracket 10, that is, 1-1 and 1-2 elbow The difference is that the brackets 10a and 10b are used. In view of the fact that the outer surface of the interlayer slab is vertical and the outer surface of the wall surface 6 is horizontal, the auxiliary transverse beam of the first embodiment (see 21 in FIG. 1) is also implemented. As in the example, the first and second elbow brackets 10a and 10b may be fixed to the column.

12 and 13 are process perspective views of the construction order of the outer wall construction apparatus according to the second embodiment of the present invention, respectively, with reference to FIGS. 10 and 11 as appropriate.

First, as shown in FIG. 12, the 1-1 th bolt B1a is inserted into the wall surface 6. In this case, preferably, the 1-1 bolt B1a is an anchor bolt in which the head is embedded in the wall surface 6, and the 1-1 albo bracket 10a using the 1-1 nut N1a fastened thereto. 1-1 of the fixed end (12a) is fixed. Subsequently, the first fixing end 12b of the 1-2 elbow bracket 10b is folded on the 1-1 support end 16a of the 1-1 elbow bracket 10a, and then the 1-2 bolt B1a and It is fixed with the 1-2 nuts N1b. As a result, the first and second support ends 16b of the first and second elbow brackets 10b are vertically fixed to the wall surface 6.

Next, as shown in FIG. 13, the horizontal beam 20 is placed horizontally between the 1-2 fixing end 12b and the 1-2 supporting end 16b of the 1-2 elbow bracket 10b and the second beam is placed horizontally. Fix with bolt B2 and second nut N2. At this time, the opening 24 of the horizontal beam 20 faces the 1-2 support end 16b, and the second bolt B2 is the 1-2 support hole 18b of the 1-2 support end 16b. It is inserted from the head through the opening 24 of the horizontal beam 20 through, the second nut (N2) is used a flange nut.

The subsequent process can be easily seen with reference to FIGS. 7 to 9, whereby the curtain wall construction for the building on which the wall surface 6 is completed is completed.

Third Embodiment

14 is a plan view of the exterior wall construction apparatus according to a third embodiment of the present invention.

The present embodiment is for the external wall construction of the building, that is, the ramen-type building in which the interlayer slab is completed, and it is possible to identify the upper and lower slabs 2 and 4 which are ceilings and floors for arbitrary floors in the drawing. However, in the present embodiment, unlike the first embodiment, the plurality of longitudinal beams 40 and the band bracket 30 that are vertically fixed along the outer surface of the building through the at least one first elbow bracket 10 are mediated. A plurality of horizontal beams 20 vertically fixed along the outer surface of the vertical beam 40, a plurality of plate structures fixed vertically along the outer surface of the horizontal beam 20 via the second elbow bracket 50 ( 60).

That is, in the present embodiment, the horizontal beam 20 and the vertical beam 40 are constructed to be interchanged with each other, and two first elbow brackets 10 for fixing the vertical beam 40 to the slabs 2 and 4 are provided. Used as a jaw. In addition, except for a few contents accompanying the replacement construction of the horizontal beam 20 and the vertical beam 40, the bar is substantially the same as the first or second embodiment, with reference to the drawings separately mentioned with reference to FIG. Take a look.

FIG. 15 is an enlarged perspective view of part E of FIG. 14 as a part of an exterior wall construction apparatus according to a third embodiment of the present invention.

In the present embodiment, the vertical beam 40 is vertically fixed along the wall via two first elbow brackets 10. When any one of them is called the 1-1 elbow bracket 10a and the other one is the 1-2 elbow bracket 10b, the respective configurations and functions are substantially the same as those of the second embodiment. Only the bonding direction was properly switched. Therefore, referring to the drawings may be easily understood without a separate description.

FIG. 16 is an enlarged perspective view of part F of FIG. 14 as a part of an exterior wall construction apparatus according to a third embodiment of the present invention.

In the present embodiment, the horizontal beam 20 is vertically fixed along the outer surface of the vertical beam 40 via the band bracket 30. The band bracket 30 for this purpose is substantially the same as the first or second embodiment, but the angle is appropriately switched according to the positional change of the horizontal beam 20 and the vertical beam 40. Therefore, referring to the drawings may be easily understood without a separate description.

FIG. 17 is an enlarged perspective view of part G of FIG. 14 as part of an exterior wall construction apparatus according to a third embodiment of the present invention.

In the present embodiment, the plate structure 60 is vertically fixed in all directions continuously along the outer surface of the horizontal beam 20 via the second elbow bracket 50 to become an outer wall.

The second elbow bracket 50 for this purpose is substantially the same as the first or second embodiment, but the third fixing end 52 is the opening 24 of the horizontal beam 20 through the third fixing hole 54. ) Is fixed to the horizontal beam 20 by a fifth bolt B5 inserted through the fifth bolt and a fifth nut B5 fastened thereto. That is, since the second elbow bracket 50 is only fixed to the horizontal beam 20, the present embodiment may be easily understood without reference to the drawings, and further, the third embodiment of the present invention. The construction sequence of the exterior wall construction apparatus according to the example can also be easily estimated based on the above contents, so a separate description is omitted.

<Fourth Embodiment>

18 is a plan view of an exterior wall construction apparatus according to a fourth embodiment of the present invention.

The present embodiment is for constructing the curtain wall of the building wall is completed can be confirmed the wall surface 6 in the drawing. However, in the present embodiment, unlike the second embodiment, the plurality of longitudinal beams 40 and the band brackets 30 which are vertically fixed along the outer surface of the building through at least one first elbow bracket 10 are used as a medium. A plurality of horizontal beams 20 fixed horizontally along the outer surface of the vertical beam 40, a plurality of plate structures 60 fixed vertically along the outer surface of the horizontal beam 20 via the second elbow bracket 50 ).

That is, in the present embodiment, the horizontal beam 20 and the vertical beam 40 are constructed to be interchanged with each other, and two first elbow brackets 10 for fixing the vertical beam 40 to the slabs 2 and 4 are provided. Used as a jaw. In addition, except for a few contents accompanying the replacement construction of the horizontal beam 20 and the vertical beam 40, they are substantially the same as the first or second embodiment, with reference to the drawings separately mentioned with reference to FIG. Take a look.

FIG. 19 is a perspective view of a circle H portion of FIG. 18 as a part of an exterior wall construction apparatus according to a fourth embodiment of the present invention.

In the present embodiment, the vertical beam 40 is vertically fixed along the wall surface 6 via the two first elbow brackets 10. When any one of them is called the 1-1 elbow bracket 10a and the other one is the 1-2 elbow bracket 10b, the respective configurations and functions are substantially the same as those of the second embodiment. Only the binding direction was properly switched. Therefore, referring to the drawings may be easily understood without a separate description.

In addition, although not attached to the accompanying drawings, the structure or fixing method of the vertical beam 40 and the horizontal beam 20 using the band bracket 30, the horizontal beam 20 and the plate using the second elbow bracket 50 Since the fixing structure to the fixing method of the structure 20 is substantially the same as the third embodiment, a separate redundant description is omitted.

On the other hand, Figure 23 is a perspective view showing a part of the horizontal beam 20 or the vertical beam 40 of the outer wall construction apparatus according to the present invention from different directions.

When divided into (a) and (b) for convenience, the horizontal beam 20 or the vertical beam 40 is preferably an inner surface edge of both ribs 26 facing the opening 24, an outer surface of both ribs 26, First to third scratches SC1, SC2, and SC3 are present on the outer surface opposite to the opening 24, respectively. At this time, the first to third scratches (SC1, SC2, SC3) is to increase the friction force on the other components in close contact with the corresponding portion, the first scratch (SC1) is to prevent the head of the bolt in close contact with the corresponding portion. The second and third scratches SC2 and SC3 prevent the horizontal beam 20 or the vertical beam 20 from being in close contact with the corresponding portion.

That is, as described above, in the outer wall construction apparatus according to the present invention, the heads of the second to fifth bolts B2 to B5 are inserted into the openings 24 and are caught. Therefore, the first scratch SC1 increases the frictional force at the point of close contact with the head of the bolt, thereby achieving a relatively strong coupling.

In addition, in the outer wall construction apparatus according to the present invention, the horizontal beam 20 and the vertical beam 40 are fixed to each other cross. In this case, although the band bracket 30 is used to fix the horizontal beam 20 and the vertical beam 40, the second and third scratches SC2 and SC3 increase frictional force due to close contact with each other to provide a more firm coupling. Promote. In addition, the second scratch SC2 increases the frictional force on the first or second elbow brackets 10 and 50 in close contact with the corresponding portion, thereby adding to the overall rigidity of the outer wall construction device.

The above description is a preferred embodiment for describing the technical idea of the present invention, and it will be apparent to those skilled in the art that any modification is possible. However, all these modifications should be within the scope of the present invention, the scope of the present invention is limited only to the following claims.

2,4 slab 6: wall
10: first elbow bracket 20: horizontal beam
24: opening 30: band bracket
40: longitudinal beam 50: second elbow bracket
60: plate structure

Claims (7)

A first elbow bracket fixed to the building with a first bolt and a first nut;
One of a longitudinal beam or a horizontal beam arranged horizontally along the outer surface of the building by being fixed to the first elbow bracket with a second bolt and a second nut;
The other of the vertical beam or the horizontal beam arranged horizontally along its outer surface to intersect one of the vertical beam or the horizontal beam;
A band bracket fixed to the longitudinal beam and the horizontal beam with a third bolt, a third nut, a fourth bolt, and a fourth nut at an intersection point of the longitudinal beam and the horizontal beam;
A second elbow bracket fixed to the other of the longitudinal beam or the horizontal beam with a fifth bolt and a fifth nut; And
An edge is guided to the second elbow bracket to include a plate structure vertically disposed along the outer surface of the building, wherein the longitudinal beam and the horizontal beam is a hollow through each longitudinal direction and the longitudinal direction of one side surface The slit-shaped opening of the square steel pipe is opened in the same shape, the openings respectively toward the outside of the building, the first elbow bracket is the first fixed end fixed to the building and one of the longitudinal beam or the horizontal beam opening And a first supporting end fixed to cover the second bracket, wherein the band bracket includes a second fixing end and the second fixing end which cover and fix the other opening of the horizontal beam or the vertical beam at the intersection of the horizontal beam and the vertical beam. Construction without field welding including a second support end that is bent outwardly at both ends of the second beam and covered by an opening of one of the horizontal beam and the vertical beam. Possible external wall construction of the building.
The method according to claim 1,
The first fixing end of the first elbow bracket is fixed to the building with the first bolt and the first nut, and the first support end is one of the longitudinal beam or the horizontal beam with the second bolt and the second nut. The second bolt is fixed to the outer wall construction apparatus of the building that can be installed without the site welding is inserted into the opening of the one of the vertical beam or the horizontal beam through the first support end.
The method according to claim 1,
The first elbow bracket includes a 1-1 elbow bracket including a 1-1 fixed end and a 1-1 support end perpendicular to each other, and a first 1-2 fixed end and a 1-2 support end perpendicular to each other. Including the 1-2 elbow bracket, the 1-1 fixed end is fixed to the building with the first bolt and the first nut, the 1-1 support end is a separate 1-1 bolt and the first -1 nut is fixed to the 1-2 fixed end, the 1-2 support end is fixed to one of the longitudinal beam or transverse beam with the second bolt and second nut, the second bolt is Exterior wall construction apparatus of the building that can be installed without the site welding that the head is inserted through the opening of one of the vertical beam or the horizontal beam through the 1-2 support end.
The method according to claim 1,
The second fixed end of the band bracket is fixed to the other one of the horizontal beam or the vertical beam by the third bolt and the third nut, and the second support end is the horizontal beam by the fourth bolt and the fourth nut. Or fixed to one of the longitudinal beams. The third bolt is inserted into the other opening of the horizontal beam or vertical beam through the second fixed end, and the fourth bolt is one of the horizontal beam or vertical beam through the second support end. Apparatus for constructing exterior walls of a building that can be constructed without on-site welding, in which the head is inserted through the opening of the building. delete delete delete

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