KR101529970B1 - Non-welded truss wings beam for panel mounting - Google Patents

Abstract

The present invention relates to a non-welded wing beam truss for panel installation and, more specifically, to a non-welded wing beam truss for panel installation capable of fixing wing beams on wings protruding from both sides of a slab (Wall) of a building using wedge anchors, installing insulation materials between the wing beams, and then finishing designated panels, collar steel sheets, boards, gypsum boards, and like in bolt coupling grooves of protrusion members using rectangular pipe angles without welding. According to the present invention, the non-welded wing beam truss to install insulation materials (52) and designated panels (52) in front of a wall (50) comprises: wing beams (10) having a wing (14) vertically fixed in front of the wall (50) at a constant interval using wedge anchors (51) and bolt coupling grooves (13, 13a, 13b) formed on the front surface and both side surfaces of the protrusion members (11); insulation materials (52) installed between the wing beams (10) at the same height as the protrusion members (11) and finished on the wings (14) and the protrusion members (11) using adhesives; rectangular pipe angles (30) to fix a horizontal rectangular pipe (40) with fixing screws (35) by forming a bolt slot (32) to be fixed on one among the bolt coupling grooves (13, 13a, 13b) of the wing beams (10) by a spring T-bolt (45) and a nut (47) and pipe fixing holes (34) in the upper and lower parts; and the horizontal rectangular pipe (40) horizontally fixed in the rectangular pipe angles (30) and fixing the designated panels (42) in front thereof using pieces (43).

Description

[0001] The present invention relates to a non-welded truss wings beam for panel mounting,

The present invention relates to a non-welded wing beam truss for panel installation, and more particularly, to a wing beam truss which is used to fix a wing beam by using a wedge anchor in protruding wings on both sides of a slab (wall) of a building, Welded wing beam truss for panel installation in which a specified panel, a colored steel plate, a board, a gypsum board, and the like are finished by welding without using any angles in the bolt fastening groove of the projecting member.

In general, the outer wall refers to the outer wall of the building, which has been painted or bricked in the past. However, in recent years, a panel or metal plate structure has been fixed And a method of pursuing an exquisite appearance is widely used.

In this case, the panel or metal plate structure fixed to the outside of the wall of the building is sometimes called an exterior panel.

Meanwhile, the method of fixing the plate structure on the finished wall surface of the building is largely a wet method and a dry method. In the wet method, a plate structure is arranged on the outer side of the wall surface, The construction time is long and workability and workability are poor, so it is rarely used at present.

On the other hand, the dry method is a method of assembling a plate structure to the outside of a wall surface by using a separate fixture made of metal or the like, and is excellent in workability and workability.

However, panel or metal plate structures are difficult to handle due to their heavy load, and the walls must be constructed from the outside of the completed building, so that in the case of a high-rise building, it involves a long period of high-level work.

Furthermore, the fixture for fixing the plate structure to the wall surface of the building has a simple structure in which the plate structure is fixed to the anchor bolt on the wall surface, and then the plate structure is fixed with bolts and nuts, The bolts and the nuts are fastened together in a narrow space between them.

However, the work of fixing the plate structure to the wall of the building was inevitably made of welding work, which is more difficult than the bolt and nut tightening work, and once it is applied, And there is a problem that the replacement is impossible.

Also, in fixing the anchor bolt to the wall surface for fixing the plate structure to the outer wall of the building, the anchor bolt must be fixed on the vertical surface of the outer wall surface, so that it is difficult to fix the anchor bolt.

In addition, various panels are fixed not only on the outer wall but also on the inner wall and the roof of the building to finish the outer appearance. However, complicated work processes for fixing the panel are required, and the welding operation is indispensable. Holes are formed in the holes to reduce the heat insulation and soundproofing performance. In addition, since many holes are formed during the process of installing the panel, a lot of noise is generated, which causes causes of complaints and delays in fixing work.

And because there is a process to install the truss, it is difficult to shorten the air and the cost is high. Since the horizontal reinforcement is installed in the vertical pipes, there are many drawbacks such as heavy consumption of materials and risk of fire in welding. The life span is shortened, and various problems cause difficulties in working and a drawback that the load on the building is increased.

Particularly, since the bolts, the nuts and the angles are connected to each other in a state where a large number of holes are perforated in the heat insulating material, there is a defect that the heat insulating can not be normally performed.

Literature 1. Patent Registration No. 0852218 (2008. 08. 07. Registration) Literature 2. Patent Registration No. 1360371 (Registered on Mar. 02, 03) Document 3. Patent Registration No. 0900062 (registered on May 22, 2009) Document 4. Patent Publication No. 2012-0007568 (disclosed on Jan. 25, 2012)

Accordingly, it is an object of the present invention to provide a structure capable of sufficiently supporting a truss load without rust, and to finish the installation work of a designated panel without welding .

Another object of the present invention is to provide an open joint construction when a panel using a wing beam is used, and to provide a simple and convenient construction of a heat insulating material and a designated panel, and to reduce cost by reducing materials.

Another object of the present invention is to enable a perfect construction in which the finishing is convenient, the side construction is easy, and the load is not given much to the building.

The present invention relates to a non-welded wing beam truss for installing a heat insulating material and a designated panel in front of a wall,

A wing beam formed by wedge anchors at predetermined intervals in the longitudinal direction at the front of the wall and formed of bolt fastening grooves formed on the front and both sides of the protruding member;

A heat insulating material disposed between the vane beams at the same height as the protruding member and being finished with an adhesive at the vane and the protruding member;

A bolt hole formed in one of the bolt fastening grooves of the wing beam to be fixed by a spring tie bolt and a nut, and a pipe fixing hole formed on the upper side and the lower side to fix the transverse angle pipe with a fixing screw;

And a horizontal angle pipe which is fixed in the horizontal direction at the angle of each square pipe and fixes the designated panel with a piece at the front.

The present invention provides a structure in which no rust occurs due to an aluminum material and a structure in which a truss load can be sufficiently sustained according to a protruding member structure of a wing rheo, and a mounting operation of a designated panel can be finished without welding, thereby providing a light and durable structure .

Since the wing beam is made of aluminum, there is no rust, and it is possible to construct an open joint when the panel is constructed. The construction of the insulation and the designated panel uses the bolt fastening groove of the wing beam, It is not necessary to install additional reinforcing bars, so it is possible to reduce the cost of materials by reducing the cost.

Since the present invention is not welded and there is no danger of fire and when it is closed inside, the wing is formed on both sides of the wing beam and the finish is convenient. Since the bolt fastening groove is provided on both sides of the wing beam, The present invention provides an effect that enables perfect construction in which the load is not given much.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view of an installation state showing a preferred embodiment of the present invention
2 is a front view showing a truss installation state of the present invention
3 is a front view showing the state of the designated panel construction of the present invention
4 is a plan sectional view showing an installation state of the present invention
Fig. 5 is a perspective view of the wing beam of the present invention,
FIG. 6 is a perspective view of a wing beam according to the present invention,
7 is a perspective view of a wing beam according to the present invention,
FIG. 8 is a perspective view of a wing beam of the present invention,
Figure 9 is a top view of the wing beam of the present invention
Fig. 10 is a perspective view of the angular tube of the present invention
11 is an enlarged cross-sectional view of the main part of the wing beam of the present invention,
FIG. 12 is an enlarged cross-sectional view showing a state where a plywood is fixed to a wing beam according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a front view showing a truss installation state of the present invention, FIG. 3 is a front view showing a state of a designated panel construction according to the present invention, FIG. 4 is a front view Fig. 2 is a plan sectional view showing an installation state of the battery pack.

Two wing beams 10 are installed at positions to install one design panel 53 in the longitudinal direction in front of the wall 50 of the building so that wedge anchors 51 are used at both sides of the wing beams 10, (50).

A heat insulating material 52 is fixed between the wing beams 10 with an adhesive, and the wing beam 10 is formed by extruding aluminum.

A bracket angle 30 is fixed to the front of the wing beam 10 by spring tie bolts 45 and then a horizontal angle pipe 40 is fixed inside the angle bracket 30 and a designated panel 42 is installed .

After the wing beam 10 is installed in the vertical direction, no horizontal transverse reinforcement is used in the transverse direction, and the designated panel 53 is easily installed without welding.

The wing beam 10 installed in the longitudinal direction is installed as a wedge anchor 51 so that the upper side and the lower side of the wing beam 10 are fixed and connected to each other.

A plywood 60 and a double gypsum board 61 are provided between the vane beam 10 and the vanes 14 of the wall 50. [

Fig. 5 is a perspective view of the wing beam of the present invention, Fig. 6 is a perspective view of the wing beam of the present invention, and Fig. 7 is a cross- Fig. 8 is a perspective view of a wing beam of the present invention, in which angular corners are separated from each other, and Fig. 9 is a plan view of a wing beam of the present invention.

The wing beam 10 is fixed to the wall body 50 with the wedge anchor 51 by projecting the wing 14 on both sides and a plurality of projecting members 11 formed forward by the wings 14 projecting on both sides A vertical reinforcing bar 16 and a transverse reinforcement bar 17 having a number of hollows 18 are formed on the front and both side surfaces of the protruding member 11. Bolt connecting grooves 13, ).

The vanes 14 and the longitudinal reinforcing bars 16 are preferably formed to have the same thickness and the vane fixing portions 19 having a thin thickness formed at both ends of the vanes 14 are formed.

The heat insulating material 52 provided between the vane beams 10 is formed to have the same thickness as the thickness of the protruding member 11 and to have a thickness corresponding to the height at which the vane 14 and the protruding member 11 protrude And is formed so as to be integrally and continuously fixed using an adhesive at a portion where the blade (14) and the projecting member (11) meet.

The angular tube 30 is fixed to the bolt engagement grooves 13, 13a and 13b of the wing beam 10 through the spring tibet 45 to which the angled spring 46 is connected, The horizontal angle pipe (40) is connected to the angular pipe angle (30).

FIG. 10 is a perspective view of a corner tube angle according to the present invention, and FIG. 11 is an enlarged sectional view of a main part in a state where a designated panel is installed in a wing beam of the present invention.

The angular tube 30 is connected to the bolt connecting grooves 13, 13a and 13b of the wing beam 10 through the nut 46 and the spring tibet 45 to which the tilted spring 46 is coupled.

The angled pipe 30 is connected to the front of the angled body 31 formed in a " C " shape so as to cross the diagonal pipe 40 and fixed to the upper and lower sides of the pipe fixing hole 34 And an angled protrusion 33 is protruded to the upper side of the angle body 31 to form a bolt slot 32 through which a spring tibot 45 penetrates and is fixed by a nut 46. [

And a design panel 42 is fixed to the front of the horizontal angle pipe 40 with a piece 43.

Since the heat insulating material 52 is not disposed in front of the protruding member 11 of the vane beam 10, the adhering Ondol heat insulating material 56 corresponding to the width of the protruding member 11 is bonded So that the insulation is achieved.

A plywood 60 and a double gypsum board 61 are provided between the vane beam 10 and the vanes 14 of the wall 50. [

FIG. 12 is an enlarged cross-sectional view showing a substantial part showing a state where a plywood is fixed to a wing beam according to the present invention. A blade fixing part 19 having a thin thickness is formed at the tip of a wing 14 protruding to both sides of the wing beam 10 A plywood board 60 is fixed between the vanes 14 and the wall 50 and fixed to the wing 14 with a board fixing piece 62 and then a double internal board board 61 is installed .

An air layer 63 is formed on both sides of the vane 14 between the plywood 60 and the heat insulating material 52.

Since the wing beam 10 is used by being extruded by aluminum, it is used permanently without causing rust, and the protruding member 11 is provided with a plurality of vertical reinforcement rods 16 and a plurality of horizontal reinforcement rods 17 The hollows 18 and the bolt fastening grooves 13,13a and 13b are formed in three directions so as to effectively bear the loads of the designated panel 53 and the heat insulating material 52, It is light and durable.

The wing beam 10 can be firmly fixed to the wall body 50 by the wedge anchor 51 through the wings 14 formed on both sides and the heat insulating material 52 can be easily It is possible to completely insulate internal insulation.

Adhesive Ondol heat insulating material 56 is adhered to the front side of the protruding member 11 of the vane beam 10 so that the entire surface is adiabated through the heat insulating material 52 and the Ondol heat insulating material for adhesion 56, .

Since the wing beam 10 is made of aluminum, there is no occurrence of rust. Therefore, the wing beam 10 can be utilized as an open joint construction when the design panel 53 is installed. When the wing beam 10 is installed on the design panel 53, 13 can be easily fastened from the bolt slot 32 of the angle projection 33 on the upper side of the angle 30 to the nut 47 by the spring tibot 45 so that the worker can easily construct it.

When the design panel 53 is installed, after the wing beam 10 is fixed in the vertical direction, the truss process for installing the horizontal beam for fixing the wing beam 10 in the horizontal direction is not performed, It is possible to reduce cost, reduce the number of processes, and shorten the air.

Since the vane beam 10 can be easily connected to the spring tilts 45 by forming the bolt connecting grooves 13, 13a and 13b on the front side and the both side surfaces of the projecting member 11 made of the cross crucible 12, And the side surfaces of the left and right side surfaces are connected to each other through bolt fastening grooves 3a and 13b formed on both sides in addition to the bolt fastening grooves 13 for mounting the designated panel 53 in the forward direction, (10).

Since there is no welding process in the process of constructing the wing beam 10, the heat insulating material 52 and the designated panel 53, there is no danger of fire, and the life of the building is semi-permanent.

Since the wing beam 10 is constructed by cutting the upper and lower portions of the slabs of the building slabs, the load applied to each building is distributed to each floor, thereby distributing the load to the building and facilitating finishing at the finishing portion.

After the wing beam 10 is installed on the wall 50, an adhesive is applied and laminated to the portion where the heat insulating material 52 and the wing 14 and the projecting member 11 meet within the wing beam 10 It is possible to install the heat insulating material 52 quickly.

It is possible to quietly install the designated panel 53 using the wing beam 10 because no mechanical noises for drilling holes are generated during the construction of the designated panel 53,

In order to join the angled pipe 30 to the wing beam 10, the adhesive on-road thermal insulation material 56 at the joining position of the angular pipe 30 is removed by a knife or the position to which the spring tie- The angular tube 30 can be easily installed by the spring tie-bolt 45 and the nut 47. [

The horizontal angle pipe 30 is coupled with the horizontal angle pipe 30 and the horizontal angle pipe 40 is fixed with respect to the horizontal direction by using the fixing screw 35 in the pipe fixing hole 34, 40 to be easily fixed to the piece 43 with the design panel 42 being held thereon.

However, when another load is applied, the vertical angle pipe 40 is welded to the horizontal angle pipe 40 at regular intervals, or parts are used for the vertical angle pipe 40 So as to be further reinforced in the longitudinal direction.

The plywood 60 is screwed and secured to the both ends of the vanes 14 of the vane beam 10 by blade fixing parts 19 having a reduced thickness.

It is difficult to fix the board fixing piece 62 when the thickness of the vane 14 is maintained as it is. Therefore, the vane fixing part 19 having a thickness reduced to about half is formed, 60 can be directly fixed.

A double gypsum board (61) is installed between the plywood (60) and the wall (50) to provide insulation and soundproofing.

In the present invention, a wing beam installed at a predetermined interval in the longitudinal direction of a wall is firmly fixed through a wing, a heat insulating material is completely installed between the wing without requiring a reinforcement bar in a lateral direction, And it is an object of the present invention to provide a very useful invention capable of installing a designated panel by installing a square pipe angle and a square pipe in front of a wing beam after a truss operation without welding.

10: wing beam 11: projecting member
13, 13a, 13b: bolt fastening groove 14: wing
16: vertical reinforcing bar 17: horizontal reinforcing bar
18: hollow 19:
30: Angle of each pipe 31: Angle body
32: bolt hole 33: angle projection
34: pipe fixing hole 35: fixing screw
40: Horizontal Angle Pipe 45: Spring Tibot
46: inclined spring 47: nut
50: wall 51: wedge anchor
52: Insulation material 53: Design panel
55: fitting groove 56: Ondol insulation for adhesion
60: Plywood 61: Interior gypsum board
62: board fixing piece 63: air layer

Claims (7)

In a wing-beam truss without welding, in which a heat insulating material (52) and a designated panel (53) are installed in front of the wall (50)
A wing 14 fixed to the wedge anchor 51 at predetermined intervals in the longitudinal direction at the front of the wall 50 is formed and the bolt fastening grooves 13, 13b; < / RTI >
A heat insulating material 52 installed between the vane beams 10 at the same height as the protruding member 11 and finished with an adhesive at the vane 14 and the protruding member 11;
Bolt holes 32 are formed at any one of the bolt connecting grooves 13, 13a and 13b of the vane beam 10 to be fixed by the spring tie bolts 45 and the nuts 47, 34) and fixing the horizontal cross pipe (40) with the fixing screw (35);
And a horizontal angle pipe (40) fixed in the horizontal direction at the angle (30) and fixing the designated panel (42) to the front by a piece (43).
The method according to claim 1,
Characterized in that the wing beam (10) is fixed to the wall (50) in the longitudinal direction and no transverse reinforcement is installed in the transverse direction.
The method according to claim 1,
The wing beam 10 has a plurality of hollows 18 formed in the longitudinal ribs 16 and the transverse ribs 17 so that the protruding members 11 formed in front of the wings 14 formed on both sides thereof And the bolt fastening grooves (13, 13a, 13b) are formed on both sides thereof so that the spring bolt (23) can install the designated panel (53) in three directions. .
The method according to claim 1,
Wherein the heat insulating material (52) is provided so as to be laminated with the same thickness as the protruding member (11) by applying an adhesive to a portion where the blade (14) and the protruding member (11) meet between the wing beams (10) Non-welded wing beam truss for installation.
The method according to claim 1,
Wherein a wing beam truss is installed in front of the protruding member (11) of the wing beam (10) by adhering a heat insulating material (56) for adhering to the wing beam (10).
The method according to claim 1,
The wing beam 10 is formed with a wing fixing part 19 having the tips of both wings 14 formed thin and a plywood 60 is provided between the wing fixing part 19 and the wall 50 to fix the wing beam 10 with the board fixing piece 62 An air layer 63 is formed between the plywood 60 and the heat insulating material 52 and an inner gypsum board 61 is provided between the plywood 60 and the wall 50. [ Non-welded wing beam truss.
The method according to claim 1,
Each of the angled pipes 30 has a pipe fixing hole 34 formed at the upper side and the lower side for fixing the angled pipe 40 to the front portion of the angled body 31 formed in a " And a bolt slot (32) is formed in an angle projection (33) projecting upward from the angle body (31).

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