KR102251013B1 - Anchor unit for fixing insulation and its manufacturing method - Google Patents

Abstract

An anchor bolt (20) longer than a sleeve (10) and having a shaft unit (24) and a screw thread unit (26) integrally formed from a head unit (22) at the front end thereof is inserted into the sleeve (10) having a hollow and longitudinally extended shape. The head unit (22) and the screw thread unit (26) of the anchor bolt (20) are exposed from the front and rear ends of the sleeve (10). A flange (30) for tightly supporting an insulator is integrally coupled to the rear end of the sleeve (10). An extension unit (12) with two or more cut slits (12a) arranged and formed thereon is provided on the front end of the sleeve (10). A body unit (14) is integrally extended with the extension unit (12). Three or more dented units (14a) are arranged and formed around the body unit (14). Inner walls of the dented units (14a) are formed to stick to or approach the outer diameter of the screw threads (26) of the anchor bolt (20) to minimize the gap between the inner walls of the dented units (14a) and the screw threads (26) of the anchor bolt (20) to increase the load to be supported in combination with each other even if the length of the anchor bolt (20) becomes longer in accordance with an increase in the thickness of the insulator (60).

Description

Anchor unit for fixing insulation and its manufacturing method {ANCHOR UNIT FOR FIXING INSULATION AND ITS MANUFACTURING METHOD}

The present invention relates to an anchor for bonding an insulating material, and in particular, to an anchor unit for fixing an insulating material used to fix a building exterior insulating material to an outer wall of a building.

In general, a finishing material (exterior material) such as marble, tile, and terracotta is bonded to the exterior wall of a building made of a concrete structure to enhance the appearance.

In the past, in order to increase the insulation efficiency of buildings, before installing the finishing material, the insulation material is pre-installed on the outer wall and then the finishing material is installed on the insulation material. A number of methods have been developed and disclosed in various ways for firmly and stably bonding insulation materials to the exterior walls of buildings.

However, in recent years, the energy problem has emerged as a social problem, and the insulation standards in buildings are reinforced, and the insulation material is getting thicker, and accordingly, the anchor bolts are getting longer. In this case, depending on the thickness of the insulation material, the length of the anchor bolts that are directly fitted and fixed to the concrete outer wall must be extended.

However, the exterior material is coupled to the end of the anchor bolt through a separate coupling member, and the exterior material is marble, tile, and terracotta that have a large amount of self-weight, and as the length of the anchor bolt increases, the anchor bolt is bent and sag due to the weight of the exterior material It causes the problem of becoming vulnerable to the problem.

Korean Patent Publication No. 10-2014-0137879 “Anchor assembly for exterior construction including insulation of concrete walls”

Accordingly, an object of the present invention is to provide an anchor unit for fixing an insulating material so that a load that can be supported by the anchor bolt can be increased even when the length of the anchor bolt increases with an increase in the thickness of the insulating material.

In addition, the present invention is to provide an anchor unit for fixing an insulating material that can improve workability, including storage and mobility.

The present invention for achieving the above object is that the inside of the sleeve 10 having a hollow and elongated shape is longer than the length of the sleeve 10, and the shaft portion 24 and the threaded portion ( 26) is configured such that the anchor bolt 20 is fitted so that the head portion 22 and the threaded portion 26 of the anchor bolt 20 are exposed from the front and rear ends of the sleeve 10, respectively. , At the rear end of the sleeve 10, a flange 30 that closely supports the insulating material is integrally coupled,

The sleeve 10 is composed of an extension part 12 in which two or more incision slits 12a are arranged at the tip end and a body part 14 extending integrally with the extension part 12, and the body part 14 Three or more depressions (14a) are formed to be arranged around the circle, but the inner wall of the depression (14a) is formed in close contact with or close to the outer diameter of the thread 26 of the anchor bolt (20). By minimizing the clearance between the thread 26 and the inner wall of the depression 14a, the load that can be supported will increase even when the length of the anchor bolt 20 increases as the thickness of the insulation material 60 increases in association with each other. I made it possible.

The present invention increases the load that the anchor bolt can support even when the length of the anchor bolt increases as the thickness of the insulation material increases, and the anchor bolt does not fall out while being fitted and fixed in the sleeve, and the incision constituting the sleeve Since the body and the body are integrally formed, there is an advantage that workability can be improved including storage and mobility.

1 is a block diagram of an anchor unit for fixing an insulating material according to an embodiment of the present invention,
Figure 2 is a cross-sectional view of Figure 1,
3 is a manufacturing process diagram of an anchor unit for fixing an insulating material according to an embodiment of the present invention,
Figure 4 is a state of use of the anchor unit for fixing insulation according to an embodiment of the present invention.

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

1 to 2 together, the anchor unit 2 for fixing an insulating material according to an embodiment of the present invention is largely a sleeve 10, an anchor bolt 20 fitted into the sleeve 10, and a sleeve 10. ) Is composed of a flange 30 integrally coupled to the rear end of the nut 40, which is screwed to the anchor bolt 20.

The sleeve 10 is hollow and has an elongated shape so that the anchor bolt 10 is coupled therein. The anchor bolt 20 has a shaft portion 24 and a threaded portion 26 integrally formed from the head portion 22 of the tip end, and the total length thereof is longer than the length of the sleeve 10, so that the head portion of the anchor bolt 20 ( 22) and the threaded portion 26 are exposed from the front and rear ends of the sleeve 10, respectively. The flange 30 coupled to the rear end of the sleeve 10 closely supports the insulating material 60.

The sleeve 10 includes an extension part 12 in which two or more (three are molded in the present invention) of incision slits 12a are arranged at the front end and a body part 14 extending integrally with the extension part 12. ). Conventionally, there was a hassle of having to separately manufacture and prepare an expansion cap corresponding to the expansion part 12 on which the incision slit 12a is formed, and to fit it into the anchor bolt during work, and a pipe that is fitted to the rear of the expansion cap There were various problems, such as not being able to smoothly expand the expansion cap when hitting due to the difference in aperture between the body shape and the struck part. In the present invention, in configuring the sleeve 10, the expansion part 12 and the body part 14 are integrally formed to solve various problems caused by separately configuring the existing expansion cap.

In particular, in the present invention, the body portion 14 has three or more (4 in the present invention) of the recessed portions 14a are arranged around and formed, but the inner wall of the recessed portion 14a is an anchor bolt 20 ) Is formed in close contact with or close to the outer diameter of the thread 26 of the anchor bolt 20 and the gap between the thread 26 of the anchor bolt 20 and the inner wall of the depression 14a is minimized so that the thickness of the insulation material 60 is combined with each other Even when the length of the anchor bolt 20 increases according to the increase of, the load that can be supported can be increased.

That is, if there is no depression 14a in the body part 14, there is a lot of clearance between the anchor bolt 20 located inside the body part 14 and the inner wall of the body part 14, so that the anchor bolt 20 and the body part We are in a situation where each has to bear the load of each other. Therefore, when an excessive load occurs, one of the two, the first to receive the load, is bent, and the other is bent again in succession. In addition, the anchor bolt 20 is free to move within the clearance space with the inner wall of the body 14, and thus, distortion may occur even after the construction of the insulation material, which may cause problems in construction.

Accordingly, in the present invention, the anchor bolt 20 and the body portion 14 are arranged so that the recessed portion 14a in the body 14 is in close contact with or close to the outer diameter of the thread 26 of the anchor bolt 20. ) Are in close contact with each other and are united to endure the load at the same time (together) so that they can stably support even larger loads. In addition, the shape of the depression 14a is added to the point that it is a more robust configuration to the load as compared to a simple circular tubular shape.

Referring to FIG. 2, the inner diameter d3 of the extended portion 12 of the sleeve 10 may be smaller than the outer diameter of the threaded portion 26 of the anchor bolt 20. This prevents the anchor bolt 20 fitted inside the sleeve 10 from being completely separated from the inside of the sleeve 10, thereby improving workability including storage and mobility.

Referring to FIG. 1, the outer surface of the flange 30 may have an irregularity 34 formed in a radial shape, and when the fastener 50 for installing the exterior material is coupled as shown in FIG. 4 by the irregularity 34 When the nut 40 is tightened, the fastener 50 is prevented from spinning. The irregularities 34 can be formed in various shapes and methods.

The anchor unit 2 for fixing the insulation material of the present invention having the above configuration is manufactured by the following process as shown in FIG. 3.

First, prepare a metal wire (8) that extends to the required length as shown in ① and whose cross-section is a pipe. (S1) If you cut it to the required length using a long pipe, a large number of wire rods (8) can be supplied.

Next, as shown in ②, two or more cutout grooves 8a are arranged in the front end of the prepared wire 8. (S2) The reason for forming the cutout groove 8a is that the subsequent expansion part 12 is formed. This is to ensure that the incision slit 12a is formed smoothly.

Next, as shown in ③, the length of the wire rod 8 is longer than the length of the wire rod 8, and the shaft portion 24 and the threaded portion 26 are integrally formed from the head portion 22 of the tip. The anchor bolt 20 is fitted so that the head portion 22 and the threaded portion 26 of the anchor bolt 20 are exposed from the front and rear ends of the wire rod 8, respectively. (S3)

Next, as shown in ④, the wire rod 8 is molded into the sleeve 10 in the above state. As described above, the sleeve 10 is composed of an extension part 12 and a body part 14 integrally, and in molding the extension part 12 and the body part 12, the anchor bolt 20 is In the inserted state, one of the extension part 12 and the body part 12 may be first molded and then the other one may be molded, or the extended part 12 and the body part 12 may be simultaneously molded.

That is, the cutting groove (8a) is changed to the cutting slit (12a) by molding to have a diameter (d2) smaller than the diameter (d1) of the wire rod (8) with respect to the tip of the wire rod (8) formed with the cutting groove (8a). The molding in which the extension part 12 is formed is defined as the first molding, and the recessed part 14a is arranged around the rear end of the wire 8 so that the body part 14 is configured. The inner wall of the depression 14a is in close contact with or close to the outer diameter of the thread 26 of the anchor bolt 20 so that the clearance between the thread 26 of the anchor bolt 20 and the inner wall of the depression 14a is minimized. When the second molding is defined as the second molding, the molding in which the load that can be supported is increased even when the length of the anchor bolt 20 increases as the thickness of the insulation material 60 increases in association with each other. The tubular wire 8 is formed into the sleeve 10 by selectively performing one of the first and the other after the second molding, or simultaneously performing the first and second moldings. .(S4)

During the first molding of the expansion part 12 in the process (S4), the inner diameter d3 of the expansion part 12 is smaller than the outer diameter of the threaded part 26 of the anchor bolt 20. It can be molded, which prevents the anchor bolt 20 fitted into the sleeve 10 from being completely separated from the inside of the sleeve 10 as described above, so that storage and mobility and workability can be improved. The advantage of being generated occurs.

The process (S4) can be implemented by forging processing among metal processing methods.

Finally, the flange 30 is integrally coupled to the rear end of the sleeve 10 and the nut 40 is optionally fastened. (S5)

The anchor unit 2 for fixing the insulation material of the present invention as described above increases the load that the anchor bolt 20 can support even when the length of the anchor bolt 20 increases with the increase in the thickness of the insulation material 60 In addition, the anchor bolt 20 does not come off while being fitted and fixed to the sleeve 10, and the incision 12 and the body 14 constituting the sleeve 10 are integrally formed to provide storage and mobility. Workability is improved.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but should be determined by the claims and equivalents to the claims.

(2)--Anchor unit for fixing insulation material
(8)--Tubular wire rod (8a)--Incision groove
(10)--Sleeve (12)--Expansion
(12a)--Incision Slit (14)--Body
(14a)--depression
(20)--Anchor bolt (22)--Head part
(24)--Shaft (26)--Screw thread
(30)--Flange (32)--Through hole
(34)--Uneven (40)--Nut
(50)--Fastener for exterior installation (60)--Insulation
(70)--Concrete wall

Claims (4)

The inside of the sleeve 10 having a hollow and elongated shape is an anchor bolt that is longer than the length of the sleeve 10 and is integrally formed with the shaft portion 24 and the threaded portion 26 from the head portion 22 of the tip end ( 20) is fitted so that the head portion 22 and the threaded portion 26 of the anchor bolt 20 are exposed from the front and rear ends of the sleeve 10, respectively, and an insulating material is provided at the rear end of the sleeve 10. The flange 30 to be closely supported is integrally coupled,
The sleeve 10 is composed of an extension part 12 in which two or more incision slits 12a are arranged at the tip end and a body part 14 extending integrally with the extension part 12, and the body part 14 Three or more depressions (14a) are formed to be arranged around the circle, but the inner wall of the depression (14a) is formed in close contact with or close to the outer diameter of the thread 26 of the anchor bolt (20). By minimizing the clearance between the thread 26 and the inner wall of the depression 14a, the load that can be supported will increase even when the length of the anchor bolt 20 increases as the thickness of the insulation material 60 increases in association with each other. To be able to
The inner diameter (d3) of the extension part 12 is smaller than the outer diameter of the threaded part 26 of the anchor bolt 20, so that the anchor bolt 20 fitted into the sleeve 10 is attached to the sleeve 10 ) Anchor unit for fixing insulation, characterized in that it prevents complete separation from the inside to improve storage and mobility as well as workability.
delete The method of claim 1,
Unevenness 34 is formed on the outer surface of the flange 30 so that when the fastener 50 for installing the exterior material is coupled, the fastener 50 is prevented from spinning when the nut 40 is tightened. Anchor unit for fixing insulation, characterized in that.
In the manufacturing method of the anchor unit for fixing insulation,
The process of preparing a metal wire (8) that is extended to the required length and whose cross section is a pipe (S1),
The process of arranging two or more cutout grooves 8a at the tip of the prepared wire 8 (S2),
An anchor bolt (20) that is longer than the length of the wire (8) in the wire (8) in which the cut groove (8a) is formed, and from the head (22) of the tip to the shaft (24) and the threaded (26) ) To be fitted so that the head portion 22 and the threaded portion 26 of the anchor bolt 20 are exposed from the front and rear ends of the wire rod 8, respectively (S3),
In the above state, the cutting groove (8a) is changed to the cutting slit (12a) by forming to have a diameter (d2) smaller than the diameter (d1) of the wire rod (8) with respect to the tip of the wire rod (8) in which the cutting groove (8a) is formed. The first molding is defined as the first molding, and three or more depressions 14a are arranged around the rear end of the wire 8 so that the body part 14 is formed. However, the inner wall of the depression 14a is in close contact with or close to the outer diameter of the thread 26 of the anchor bolt 20, so that the clearance between the thread 26 of the anchor bolt 20 and the inner wall of the depression 14a When the second molding is defined as the molding so that the load that can be supported can be increased even when the length of the anchor bolt 20 increases according to the increase in the thickness of the insulation material 60 in association with each other, the For the first molding and the second molding, one of the first and the other is performed later, or the first molding and the second molding are performed selectively, so that the tubular wire rod 8 is formed into the sleeve 10 The process of being molded into (S4) and,
An anchor unit manufacturing method for fixing an insulating material, characterized in that consisting of a process (S5) of integrally coupling the flange (30) to the rear end of the sleeve (10) and optionally fastening the nut (40).

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