KR102393584B1 - Wedge Anchor at Face of Exterior Wall with Reinfoced Support Fixture - Google Patents

Abstract

The present invention is inserted and fixed in the outer wall of a building and provided with a reinforcing support for supporting the heat insulating material installed on the outer wall to stably support the heat insulating material regardless of the thickness, and the pressure in the heat insulating material is evenly distributed to deform the shape of the heat insulating material It relates to an anchor for fixing an outer wall provided with a reinforcing support to prevent it from happening.
An anchor bolt inserted into the hole 55 perforated in the outer wall 50 of the building and provided with a wing portion 12 extending outwardly at the end portion and having a screw thread 11 formed on the outer circumferential surface; Reinforcement support 30 having the same length as the thickness of the insulating material 60 installed on the outer wall 50 of the building, one end is in close contact with the outer wall 50 of the building, and the anchor bolt 10 is inserted; a nut 20 and a washer 25 fastened to the screw thread 11 of the anchor bolt 10 to support and fix the heat insulating material 60; And it is inserted into the anchor bolt 10 so as to be in close contact with the outer surface of the heat insulating material 60 and includes a pressure distribution plate 40 of a certain size for dispersing the pressure acting on the heat insulating material 60 by the nut 20. characterized in that

Description

Anchor for fixing an exterior wall with a reinforcement support {Wedge Anchor at Face of Exterior Wall with Reinfoced Support Fixture}

The present invention relates to an anchor for fixing an exterior wall provided with a reinforcement support, and more particularly, it is inserted and fixed to the exterior wall of a building and provided with a reinforcement support for supporting the insulation material installed on the exterior wall to stably secure the insulation regardless of the thickness It relates to an anchor for fixing an outer wall provided with a reinforcing support to prevent deformation of the shape of the insulator by evenly distributing the pressure to the insulator as well as supporting it.

In general, an anchor is a structural material used to fix a facility to concrete, etc., and has much stronger strength than a nail or a knife block (wall plug or screw anchor).

These anchors are divided into pre-installed anchors and post-installed anchors according to the installation method. Pre-installed anchors are fixed by pouring concrete after burying anchor bolts before pouring concrete. of anchor bolts are used. In addition, the post-installation anchor is constructed by drilling the finished concrete using a drill and then installing the anchor in the hole, and is divided into a set anchor and a wedge anchor according to the type.

After disassembling the entire anchor, the anchor bolt with the tip formed in the shape of a cone and the end of the anchor bolt are cut into multiple pieces, inserted into the anchor bolt, inserted into the sleeve supported by the cone part, and punched using a punching tool. This is an anchor in which the cutout of the sleeve expands outwardly by the cone part of the anchor bolt as the nut is tightened, and is firmly fixed. It is slow and has the disadvantage of lowering working time and efficiency as it is constructed and assembled after disassembling the entire anchor. In addition, there is another problem in that there is a deviation in the work according to the construction technology and skill level of the operator.

A wedge anchor is an anchor constructed by punching and inserting an anchor into a perforated hole and then tightening a nut to fix it, also called a stud anchor. These wedge anchors are fixed to concrete with wings extending outwardly at the ends of the anchor bolts, and in some cases, a hardener is filled between the holes and the anchor bolts. Since the wedge anchor does not use a sleeve, it is possible to drill a wall using a small hammer drill, which has the advantage of shortening the drilling time and anchoring time.

And, in the conventional construction method of the insulation of the exterior wall of the building, after drilling a hole in the exterior wall of the building, the anchor bolt is mounted and fixed, the insulation material with the hole is placed so that the anchor bolt is inserted, and then a nut is placed on the anchor bolt protruding to the outside of the insulation material. It is made by fastening the insulator to fix the insulation. Accordingly, the length of the anchor bolt protruding from the outer wall of the building is not constant and protrudes too long or too short, thereby making it difficult to construct the insulation.

That is, when the insulation material is constructed on the exterior wall of a building using the above-mentioned conventional post-construction anchor, if the protrusion length of the anchor bolt is short, the nut cannot be fastened or the nut is strongly tightened, so that the surface of the insulation material is deformed to impair the aesthetics. will become

In addition, when the thickness of the insulating material is changed, there is a problem in that it is difficult to accurately construct in response to the change in thickness. In other words, when the thickness of the insulation material is changed, it is not easy to change the insertion depth of the anchor bolt, and because of this, it is not possible to accurately match the protrusion length of the anchor bolt corresponding to the thickness of the insulation material. it will be difficult to do

On the other hand, as a result of investigating the prior art related to the present invention, a number of patent documents were searched, and some of them are introduced as follows.

Patent Document 1, a heat-insulating body extending long in the longitudinal direction and made of a heat-insulating material; a conical portion integrally formed on at least one end of the heat insulating body and having an inclined surface for preventing falling out; and a water stop rib extending annularly along the circumferential direction on the outer circumferential surface of the heat insulating body, wherein a fastening groove to which any one of an anchor and a coupling cap is separably fastened is formed in the inside of the conical part, the conical part The separation prevention slope is formed to be inclined so that the width becomes narrower toward the end of the conical part, thereby blocking the thermal bridge phenomenon occurring in the outer wall of the building to prevent heat loss of the building. Disclosed are a finishing material installation structure and an insulating material support structure.

Patent Document 2 discloses a heat insulator pre-constructed on the top of a concrete retaining wall, an anchor bolt fixed to the concrete retaining wall through the heat insulator, and the pre-constructed heat insulator is pressed in close contact with the anchor bolt to remove the heat insulator. It includes an anchor bolt support member constructed so as to penetrate without, wherein the anchor bolt support member includes: a support member body in which a coupling hole is formed so that the anchor bolt is fitted; Anchor bolts that are formed on the outer peripheral surface of the support member body and are fitted directly to the concrete retaining wall and fixed by being formed to prevent bending and deflection of the anchor bolts coupled to the coupling holes by forming wing portions to support the load in contact with the concrete retaining wall. Prevents loss and damage of internal and external insulation materials in supporting Disclosed are an anchor bolt support member coupled to an upper portion of an insulating material that is combined to prevent sagging and bending of the anchor bolt, and a construction method thereof.

Patent Document 3 discloses an anchor bolt fixed to a concrete retaining wall through an insulating material pre-constructed on a concrete retaining wall, a support member body having a coupling hole into which the anchor bolt is inserted, and the anchor extending from the outer periphery of the support member body. It includes a wing portion for preventing bending and deflection of the bolt, and a fixing clip having an angle structure coupled to an end of the anchor bolt, wherein the end of the anchor bolt is a fixing member composed of two nuts. In the anchor bolt support member coupled to the vertical hole, the fixing clip is provided with a horizontal extension on the upper portion of the body provided with the vertical hole, and the fixing clip is supported by the fixing member in the horizontal extension portion of the fixing clip. Disclosed is an anchor bolt support member having a deflection preventing structure in which a deflection preventing member supporting the fixing clip is installed in contact with the nut of the fixing member installed at the end of the anchor bolt to prevent sagging. .

KR 10-1402646 B1 KR 10-1527199 B1 KR 10-1815825 B1

The present invention has been devised to solve the problems of the prior art, and by separately providing a reinforcement support into which the anchor bolt is inserted while being supported on the outer wall of the building, the insertion depth and protrusion length of the anchor bolt can be freely adjusted according to the thickness of the insulating material. An object of the present invention is to provide an anchor for fixing the outer wall provided with a reinforcement support that facilitates the nut fastening operation and prevents the appearance of the insulation from being damaged by preventing surface deformation of the insulating material.

The anchor bolt for fixing the outer wall provided with the reinforcement support of the present invention for achieving the above object is inserted into a hole punched in the outer wall of the building and provided with a wing portion extending outwardly at the end portion and formed with a thread on the outer circumferential surface; a reinforcing support having a length equal to the thickness of the insulating material installed on the outer wall of the building and having one end in close contact with the outer wall of the building and into which the anchor bolt is inserted; Nuts and washers fastened to the threads of the anchor bolts to support and fix the heat insulating material; And it is inserted into the anchor bolt so as to be in close contact with the outer surface of the insulator, characterized in that it comprises a pressure distribution plate of a certain size for dispersing the pressure applied to the insulator by the nut.

In addition, according to the anchor for fixing the outer wall provided with the reinforcing support of the present invention, the reinforcing support and the pressure distribution plate are integrally formed.

In addition, according to the anchor for fixing the outer wall provided with the reinforcing support of the present invention, the reinforcing support is the tube body into which the anchor bolt is inserted, and the protrusion formed to protrude to a certain extent along the hole edge of the pressure distribution plate so as to be press-fitted. It is formed at one end of the tube body and characterized in that it consists of an enlarged diameter portion having a larger diameter than the tube body.

In addition, according to the anchor for fixing the outer wall provided with the reinforcement support of the present invention, it is characterized in that it further comprises a chemical curing agent injected between the outer wall of the building and the anchor bolt.

In addition, according to the anchor for fixing the outer wall provided with the reinforcing support of the present invention, it is characterized in that the insulating material is filled between the anchor bolt and the inner wall of the reinforcing support.

According to the anchor for fixing the outer wall provided with the reinforcing support according to the present invention, the anchor bolt is installed on the outer wall through the reinforcing support of the same length as the thickness of the insulating material installed on the outer wall of the building. It is possible to consistently construct an insulator, improving workability, as well as distributing the tightening pressure by the pressure distribution plate and preventing overtightening due to the short anchor bolt, so that the surface of the insulation is not deformed and exposed to the outside of the insulation. The length of the anchor bolts is unified, which has the effect of improving the appearance of the exterior wall.

In addition, according to the anchor for fixing the outer wall provided with the reinforcing support according to the present invention, when the reinforcing support and the pressure distribution plate are integrally formed, the number of parts is reduced to facilitate the preparation and management of construction materials, and the reinforcing support and the pressure distribution plate are formed integrally. In the case of a separate type, only the reinforcing support is replaced according to the thickness of the insulating material, and the pressure distribution plate can be used in common, thereby reducing material costs.

In addition, according to the anchor for fixing the outer wall provided with the reinforcement support of the present invention, when a chemical curing agent is injected between the outer wall of the building and the anchor bolt, there is an effect that the anchor bolt is firmly fixed.

In addition, according to the anchor for fixing the outer wall provided with the reinforcing support of the present invention, it is possible to prevent heat dissipation through the gap between the anchor bolt and the reinforcing support by filling the insulating material between the reinforcing support and the anchor bolt, thereby insulating the outer wall. has an improving effect.

1 is a perspective view showing an anchor for fixing an outer wall provided with a reinforcing support according to the present invention.
Figure 2 is an exploded perspective view showing the anchor for fixing the outer wall provided with a reinforcement support according to the present invention.
Figure 3 is a front view of the anchor for fixing the outer wall provided with a reinforcement support according to the present invention.
Figure 4 is a cross-sectional view of the anchor for fixing the outer wall provided with a reinforcing support according to the present invention.
Figure 5 is a cross-sectional view of the construction state of the insulating material using the anchor for fixing the outer wall having a reinforcement support according to the present invention.
Figure 6 is a cross-sectional view of the construction state of the insulation material showing a case in which the thickness is different using the anchor for fixing the outer wall having a reinforcement support according to the present invention.
7 is a cross-sectional view of a construction state showing another embodiment of the present invention.

Hereinafter, an anchor for fixing an outer wall having a reinforcing support of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing an anchor for fixing an outer wall provided with a reinforcing support according to the present invention, and FIG. 2 is a perspective view showing an anchor for fixing an outer wall provided with a reinforcing support according to the present invention, showing a preferred embodiment of the present invention It is an exploded perspective view, Figure 3 is a front view of the anchor for fixing the outer wall provided with the reinforcement support according to the present invention, Figure 4 is a cross-sectional view of the anchor for fixing the outer wall provided with the reinforcement support according to the present invention. And Figure 5 is a cross-sectional view of the construction state of the insulating material using the anchor for fixing the outer wall provided with the reinforcing support according to the present invention, Figure 6 is when the thickness is different using the anchor for fixing the outer wall having the reinforcing support according to the present invention is a cross-sectional view of the construction state of the insulating material showing, Figure 7 is a cross-sectional view of the construction state showing another embodiment of the present invention.

As shown in FIGS. 1 to 4, the anchor for fixing the outer wall provided with the reinforcement support according to the present invention includes an anchor bolt 10, a nut 20 and a washer 25, a reinforcement support 30, and a pressure distribution plate. (40).

The anchor bolt 10 is inserted and fixed in the hole 55 perforated in the outer wall 50 of the building, and when punched at the end of the anchor bolt 10, it expands outwardly and is in close contact with the inner wall of the hole 55 or penetrates the outer wall. It has a structure in which the wing portion 12 is provided and the screw thread 11 to which the nut 20 is fastened is formed on the outer circumferential surface. The wing part 12 has a protrusion 12a, and when the wing part 12 expands outwardly when punching and is in close contact with the inner wall of the hole 55 or penetrates the outer wall, the hole is formed by the protrusion 12a. The frictional force with the inner wall of (55) is increased to prevent the anchor bolt 10 from being separated from the outer wall (50). And the nut 20 is fastened to the outer end of the anchor bolt 10 to fix the insulating material 60 not to be separated, and is fastened to the anchor bolt 10 through a washer 25 . Here, the anchor bolt 10, the nut 20, and the washer 25 are not particularly limited, and commercially available anchor bolts, nuts and washers are used.

The reinforcing support 30 is a cylindrical structure formed to have the same length as the thickness of the insulating material 60 installed on the outer wall 50 of the building so that the anchor bolt 10 is inserted. When the anchor bolt 10 installed in close contact with the outer wall 50 and inserted therein is inserted into the hole 55 perforated in the outer wall 50 of the building, it serves to limit the insertion depth. Accordingly, it is possible to constantly maintain the insertion depth of the anchor bolt 10 installed on the outer wall 50 of the building while being inserted into the reinforcing support 30 . That is, as shown in FIG. 6 , when the thickness of the heat insulating material 60 is not thick, the length of the reinforcing support 30 is shortened, and when the thickness of the heat insulating material 60 becomes thick, the reinforcing support 30 . to lengthen the length of

The pressure distribution plate 40 is a circular or square-shaped plate in close contact with the outer surface of the heat insulating material 60, and has a structure in which a hole 45 into which the anchor bolt 10 is inserted is formed in the center. Since the pressure distribution plate 40 serves to distribute the tightening pressure of the nut 20 acting on the heat insulating material 60 , it is located below the washer 25 and is wider than the washer 25 . Of course, it is necessary to have an area. As described above, as the washer and the pressure distribution plate are sequentially arranged, the pressure applied by the tightening of the nut 20 is firstly distributed by the washer 25 and secondarily distributed by the pressure distribution plate 40 , It is possible to prevent the surface of the heat insulating material 60 from being deformed due to excessive tightening pressure.

And the reinforcing support 30 and the pressure distribution plate 40 may be formed integrally or separately. When the reinforcing support 30 and the pressure distribution plate 40 are integrally formed, the number of parts required for the construction of the insulator 60 is reduced, thereby increasing the convenience of material management, but the thickness of the insulator 60 is If it is not constant or varies, there is an inconvenience in that it is necessary to prepare an integral reinforcement support corresponding to the thickness of each insulating material 60 . However, when the reinforcing support 30 and the pressure distribution plate 40 are formed separately, the pressure distribution plate 40 can be used in common, so that only the reinforcement support 30 is the thickness of each heat insulating material 60 . It should be prepared in a length corresponding to . However, in order to ensure that the reinforcement support 30 and the pressure distribution plate 40 are integrally coupled, the pressure distribution plate 40 has a protrusion 41 formed to protrude to a certain extent along the edge of the hole 45 . And, the reinforcing support 30 should have a portion into which the protrusion 41 of the pressure distribution plate 40 is press-fitted. That is, the reinforcing support 30 is at one end of the tubular part 31 so that the tubular part 31 into which the anchor bolt 10 is inserted and the protrusion 41 of the pressure distribution plate 40 are press-fitted. It is formed and is made of an enlarged diameter portion 32 having a larger diameter than that of the tubular portion 31 .
Accordingly, the lower end of the protrusion 41 is in contact with the upper end of the tubular portion 31, and the pressure distribution plate 40 is provided such that the lower end is supported by the tube portion 31, so that the pressure distribution plate ( 40) is stably fixed to the reinforcing support 30.

Meanwhile, a chemical curing agent may be injected between the outer wall 50 of the building and the anchor bolt 10 so that the anchor bolt 10 is firmly fixed to the outer wall 50 of the building. That is, by inserting and fixing the anchor bolt 10 into the hole 55 formed in the outer wall 50 of the building, and then injecting the chemical curing agent into the hole 55 into which the anchor bolt is inserted, the chemical curing agent is cured while the anchor bolt (10) is to be fixed to the outer wall (50) of the building.

In addition, as shown in FIG. 7 , an insulating material 60 ′ may be filled between the anchor bolt 10 and the inner wall of the reinforcing support 30 . That is, the insulation effect of the outer wall is improved by filling the insulating material 60 ′ so that air does not flow into the gap between the anchor bolt 10 inserted into the reinforcing support 30 and the reinforcing support 30 .

The construction of the insulating material using the anchor for fixing the outer wall provided with the reinforcement support of the present invention configured as described above will be described as follows.

A hole 55 of a certain depth is drilled in the outer wall 50 of the building using a drill. At this time, it is natural that the hole 55 of the outer wall 50 is drilled with a larger diameter than that of the anchor bolt 10 . Next, after inserting a part of the anchor bolt 10 into the hole 55 , the reinforcement support 30 is installed so that the anchor bolt 50 exposed to the outside of the outer wall 50 is inserted. At this time, it is natural that the reinforcing support 30 is installed so that the end thereof is in close contact with the outer wall 50 of the building. And by punching the rear end of the anchor bolt 10 protruding to the outside of the reinforcement support 30, the wing portion 12 of the anchor bolt 10 is extended to the outside and fixed to the outer wall 50, and the reinforcement support ( 30) is separated from the anchor bolt (10).

When the fixing of the anchor bolt 10 is completed through the above process, the insulating material 60 having a hole corresponding to the reinforcing support 30 is prepared and the reinforcing support 30 is inserted into the hole of the insulating material 60 to be fixed. do. Here, the reason for inserting the reinforcement support 30 into the insulation 60 after separating it from the anchor bolt 10 is to install the insulation 60 in a state in which the reinforcement support 30 is coupled to the anchor bolt 10 . This is because a gap may be generated between the tube body 31 of the reinforcing support 30 and the heat insulating material 60, thereby reducing the heat insulation effect. That is, when the diameter of the expanded diameter of the reinforcement support 30 is greater than the diameter of the tube body, the diameter of the expanded diameter 32 of the reinforcement support 30 is first inserted into the heat insulating material 60 between the tube body 31 and the heat insulating material 60. A gap is generated, which reduces the thermal insulation effect.

Thereafter, after positioning the insulating material 60 so that the anchor bolt 10 is inserted into the reinforcement support 30 inserted and installed in the insulation 60, the anchor bolt 10 exposed to the outside of the reinforcement support 30 is formed in a hole ( 45), the pressure distribution plate 40 is positioned and the nut 20 is fastened to the anchor bolt 10 with the washer 25 interposed therebetween. At this time, in the nut 20, the protrusion 41 of the pressure distribution plate 40 is press-fitted into the enlarged diameter 32 of the reinforcing support 30 so that the pressure distribution plate 40 is in close contact with the outer surface of the insulating material 60. Tighten it until Accordingly, deformation of the surface of the heat insulating material 60 due to excessive tightening of the nut 20 is prevented, and the tightening pressure is evenly distributed on the surface of the heat insulating material 60 by the pressure distribution plate 40 so that the heat insulating material 40 is stable. is supported by

Although described and illustrated in relation to several embodiments for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as described above, and the scope of the technical idea described in the claims is not limited. It will be apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from it. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as falling within the scope of the present invention.

10...anchor bolts
11...thread
12... the wing
20... fastening nut
25...washers
30...reinforcement support
31....Public body
32...
40...Pressure pressure distribution plate
41...Protrusions
45...through hole
50...outer wall
55...hole
60, 60'...Insulation

Claims (5)

An anchor bolt inserted into the hole 55 perforated in the outer wall 50 of the building and provided with a wing portion 12 extending outwardly at the end portion and having a screw thread 11 formed on the outer circumferential surface;
Reinforcement support 30 having the same length as the thickness of the insulating material 60 installed on the outer wall 50 of the building, one end is in close contact with the outer wall 50 of the building, and the anchor bolt 10 is inserted;
a nut 20 and a washer 25 fastened to the screw thread 11 of the anchor bolt 10 to support and fix the heat insulating material 60;
It is inserted into the anchor bolt 10 so as to be in close contact with the outer surface of the heat insulating material 60 and includes a pressure distribution plate 40 of a certain size for dispersing the pressure acting on the heat insulating material 60 by the nut 20,
The reinforcing support 30 is such that the tube body 31 into which the anchor bolt 10 is inserted and the protrusion 41 formed to protrude to a certain extent along the edge of the hole 45 of the pressure distribution plate 40 are press-fitted. It is formed at one end of the tube portion 31 and consists of an enlarged diameter portion 32 having a larger diameter than that of the tube portion 31,
The lower end of the protrusion 41 is in contact with the upper end of the tubular portion 31, and the pressure distribution plate 40 is supported at the lower end by the tubular portion 31,
It contains a chemical curing agent injected between the outer wall 50 and the anchor bolt 10 of the building,
An insulating material 60' is filled between the inner wall of the anchor bolt 10 and the reinforcing support 30,
The wing portion 12 is provided with a protrusion 12a, and when the wing portion 12 is extended outwardly when punching and is in close contact with the inner wall of the hole 55 or penetrates the outer wall, the hole is formed by the protrusion 12a. By increasing the friction force with the inner wall of (55), the anchor bolt (10) is not separated from the outer wall (50),
After drilling a hole 55 of a certain depth with a larger diameter than that of the anchor bolt 10 using a drill in the outer wall 50 of the building, a part of the anchor bolt 10 is inserted into the hole 55 After that, the reinforcement support 30 is installed so that the anchor bolt 50 exposed to the outside of the outer wall 50 is inserted, and the rear end of the anchor bolt 10 protruding to the outside of the reinforcement support 30 is punched. The wing portion 12 of the bolt 10 is extended outward to be fixed to the outer wall 50 , and after separating the reinforcement support 30 from the anchor bolt 10 , a hole corresponding to the reinforcement support 30 . Prepare the formed heat insulator 60, insert the reinforcing support 30 into the hole of the heat insulator 60 to be fixed, and install the heat insulator 60 in a state in which the reinforcing support 30 is coupled to the anchor bolt 10 When this is done, a gap is generated between the tube body 31 of the reinforcing support 30 and the heat insulating material 60 to prevent the insulation effect from being lowered, and then, anchor bolts to the reinforcing support 30 inserted and installed in the heat insulating material 60 . After positioning the insulating material 60 so that the 10 is inserted, the pressure distribution plate 40 is positioned so that the anchor bolt 10 exposed to the outside of the reinforcement support 30 is inserted into the hole 45, and the washer 25 ) to fasten the nut 20 to the anchor bolt 10 via By tightening the pressure distribution plate 40 until it is in close contact with the outer surface of the heat insulating material 60, surface deformation of the heat insulating material 60 due to excessive tightening of the nut 20 is prevented, and the tightening pressure is applied to the pressure distribution plate 40 ) to be evenly distributed on the surface of the heat insulator (60) to stably support the heat insulator (40). delete delete delete delete

Images