KR102640984B1 - Stiffner Reinforcement Bendable Angle Fastener - Google Patents

Abstract

The present invention provides a stiffener-reinforced bent angle fastener that is manufactured only by cutting and bending forming of a steel plate, thereby reducing production costs, preventing structural deformation of the split surface, and demonstrating necessary rigidity and ductility. The stiffener reinforced bent angle fastener according to a suitable embodiment of the present invention is an angle horizontal plate having a slot hole for bolt connection by cutting a steel plate according to a development plan and then bending it along a planned bend line, and the angle horizontal plate is bent at a right angle to face each other. A pair of side stiffeners, a pair of angle vertical plates that are bent from the pair of side stiffeners and placed on the same plane in a direction at right angles to the angle horizontal plate, and at the same time have opposing angle vertical plate separation surfaces. An angle fastener body including a fastener bolt insertion hole formed in connection with the separation surface and a joint fitting hole formed in each pair of angle vertical plates; It is characterized by including a vertical plate connection joint that has a joint bolt insertion hole in the center and is fitted at both ends into joint fitting holes of the angle fastener body to prevent the pair of angle vertical plates from opening.

Description

Stiffner Reinforcement Bendable Angle Fastener}

The present invention relates to a stiffener-reinforced bent angle fastener used for installing exterior materials or joining various frames. In particular, it is manufactured only by cutting and bending forming of steel plates, which reduces production costs, prevents structural deformation of the dividing surface, and maintains the necessary rigidity. It relates to a stiffener-reinforced bending angle fastener that can demonstrate hyperductility.

In the past, in order to install exterior materials, there are cases where profiles are welded to produce an underlying material (underlying frame). In this case, a fire occurs due to welding, resulting in increased casualties and property loss, and additional management costs.

Recently, due to a shortage of welding manpower, unqualified welders are being put into the field, which is one of the causes of welding defects. Therefore, it is easy to secure the quality of non-welded substrate materials that exclude the welding process, and it is easy to secure seismic performance during an earthquake. In addition, non-welded substrates have the advantage of shortening the construction period and can be recycled, making them an eco-friendly installation method.

Existing, base materials continue to be developed, but angle fasteners for joining are using existing products as is, failing to secure appropriate rigidity. Therefore, a new fastener that secures rigidity while reducing steel quantity and production costs is required.

Existing, angle fasteners are fasteners for connecting existing buildings and the underlying material and require great rigidity, and fasteners for joining vertical and horizontal materials to the underlying material require both great rigidity and ductility. In the case of existing angle fasteners, the in-plane bending resistance depends on the bending resistance of the angle, but the rigidity is insufficient. Products have been developed to secure rigidity, but the main problem is that the amount of steel and production cost increases.

As the technology behind the present invention, Korean Patent Registration No. 10-1541411 (Patent Document 1) proposes an 'anchor assembly for exterior construction'. This is to improve the sleeve that maintains the gap between the insulation layers attached to the wall, so that the sleeve itself inserted into the anchor bolt prevents the anchor bolt from sagging or bending, thereby stably maintaining the load of the exterior material. Another technology that forms the background of the present invention is Korean Patent Registration No. 10-1815825 (Patent Document 2), which proposes an 'anchor bolt support member with a sagging prevention structure'. This prevents the deflection phenomenon of the fixing clips on which the load of the exterior panel acts, making it possible to implement construction that maintains the correct spacing between the exterior panels positioned above and below.

However, the exterior material assembly and main body presented in these background technologies have a problem of low rigidity because they are manufactured only in an L shape and do not have a reinforcing structure.

Korean Patent Registration No. 10-1541411 Korean Patent Registration No. 10-1815825

The purpose of the present invention is to provide a stiffener-reinforced bent angle fastener that is manufactured only by cutting and bending forming of a steel plate, thereby reducing production costs, preventing structural deformation of the split surface, and demonstrating the necessary rigidity and ductility.

The stiffener reinforced bent angle fastener according to a suitable embodiment of the present invention is an angle horizontal plate having a slot hole for bolt connection by cutting a steel plate according to a development plan and then bending it along a planned bend line, and the angle horizontal plate is bent at a right angle to face each other. A pair of side stiffeners, a pair of angle vertical plates that are bent from the pair of side stiffeners and placed on the same plane in a direction at right angles to the angle horizontal plate, and at the same time have opposing angle vertical plate separation surfaces. An angle fastener body including a fastener bolt insertion hole formed in connection with the separation surface and a joint fitting hole formed in each pair of angle vertical plates; It is characterized by including a vertical plate connection joint that has a joint bolt insertion hole in the center and is fitted at both ends into joint fitting holes of the angle fastener body to prevent the pair of angle vertical plates from opening.

Additionally, the pair of side stiffeners is characterized by having straight inclined surfaces.

In addition, the pair of side stiffeners is characterized in that the inclined surface forms a concave curved shape.

In addition, the angle horizontal plate is characterized by having slot holes for bolt connection arranged in a double-row structure.

In addition, in order to increase the ductility of the angle fastener body, the side stiffener is characterized in that a side hypotenuse opening that is open to the oblique surface is further formed.

In addition, in order to increase the ductility of the angle fastener body, side edge openings are further formed at the corners of the side stiffener.

In addition, in order to increase the ductility of the angle fastener body, the side stiffener is characterized by a side hypotenuse opening that is open to an oblique surface and a side corner opening formed at the corner.

In addition, in place of the vertical plate connection joint, a flat friction pad having a bolt insertion hole in the center and friction protrusions distributed on one surface is installed.

According to the stiffener reinforced bent angle fastener of the present invention, production costs are reduced compared to the welding joining method because it is manufactured only by cutting and bending forming of steel plates.

In addition, the angle fastener body can obtain the necessary rigidity by using side stiffeners as reinforcement.

In addition, the angle fastener body is configured to connect the vertical plate connection joint, thereby preventing structural deformation of the dividing surface of the angle vertical plate side.

In addition, the angle fastener body exhibits ductility through the side hypotenuse opening or side corner opening on the side stiffener side, thereby preventing damage and improving the seismic performance of the joint.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention along with the detailed description of the invention. Therefore, the present invention is limited to the matters described in the attached drawings. It should not be interpreted as limited.
1 is a perspective view of an angle fastener body according to an embodiment of the present invention.
Figure 2 is a cutting state diagram according to the sheet metal development diagram for manufacturing the angle fastener body of Figure 1.
Figure 3 is a perspective view of the cut angle fastener body shown in Figure 2 after first bending.
Figure 4 is a diagram of a lower frame manufactured by applying the angle fastener body shown in Figure 1.
Figure 5 is a joining process diagram of the angle fastener body according to an embodiment of the present invention.
Figure 6 is a joining process diagram of the angle fastener body according to another embodiment of the present invention.
7 to 10 are illustrations showing various forms of an angle fastener body according to an embodiment of the present invention.
Figure 11 is an exemplary diagram showing another form of an angle fastener body according to an embodiment of the present invention.

Below, the present invention will be described in detail with reference to embodiments shown in the attached drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

As shown in FIG. 1, the stiffener reinforced bent angle fastener 100 according to the present invention includes an angle fastener body 10 and a vertical plate connection joint 18 of FIG. 5 that prevents structural deformation when installing the angle fastener body 10. It is composed. The stiffener reinforced bent angle fastener 100 can be used to manufacture the lower frame 1000 by connecting the vertical member 1100 and the horizontal member 1200 as shown in FIG. 4, for example. Of course, a stiffener reinforced bent angle fastener 100 may be used to secure the lower frame 1000 to a structure (for example, a wall).

The angle fastener body 10 is manufactured by cutting a steel plate according to the development diagram of FIG. 2 and then bending it along the planned bending lines (C1, C2). At this time, the thickness of the steel plate is designed so that the angle fastener body 10 can have appropriate strength. Looking at the configuration after cutting the steel plate according to the development view, as shown in Figure 2, an angle horizontal plate 12 having a slot hole 121 for bolt connection, a pair of sides bent at a right angle from the angle horizontal plate 12 and facing each other. Stiffeners (14, 14) are bent from a pair of side stiffeners (14, 14) and are disposed on the same plane in a direction perpendicular to the angle horizontal plate (12) and have an angle vertical plate separation surface (15) facing each other. A pair of angle vertical plates (16, 16), a fastener bolt insertion hole (17) formed by being connected to the angle vertical plate separation surface (15), and a joint formed on each of the pair of angle vertical plates (16, 16). It has a configuration that includes fitting holes (161,161) for coupling.

Looking at the manufacturing method of the angle fastener body 10 having this configuration, a steel plate is cut according to the development diagram as shown in FIG. 2 to form an angle horizontal plate 12 having a slot hole 121 for bolt connection, and an angle horizontal plate 12. A pair of side stiffeners 14, 14 are in contact with the first bend line C1, and a pair of side stiffeners 14, 14 are in contact with each other along the second bend line C2, and at the same time, an angle vertical plate is formed. It can be divided into a pair of angle vertical plates 16 and 16, each having a separation surface 15 and a bolt insertion groove 17a.

Next, the pair of side stiffeners 14 and 14 are bent along the first bending line C1 and placed at right angles to the angle horizontal plate 12 as shown in FIG. 3 .

Next, the pair of angle vertical plates 16 and 16 are bent along the secondary bending line C2 so that they are at right angles to each other at the pair of side stiffeners 14 and 14 as shown in FIG. 1, and at the same time, the angle vertical plates are It can be manufactured by closing the bolt insertion grooves 17a and 17a on the separation surface 15 to form one fastener bolt insertion hole 17.

Of course, here, a pair of angle vertical plates (16, 16) are placed upright by bending along the secondary bend line (C2), and the primary bend line (C1) is later bent to form a pair of side stiffeners (14, 14). ) can also be produced by proceeding in the order of standing up.

Meanwhile, as shown in Figure 5, the vertical plate connection joint 18 has a joint bolt insertion hole 181 in the center, and both ends are respectively inserted into the fitting holes 161 and 161 for joint coupling, forming a pair of angle vertical plates 16 and 16. Prevents structural deformation, i.e., opening. In addition, as shown in FIG. 6, the vertical plate connection joint 18 performs the function of a washer (preventing bolt loosening and distributing load) in fastening the fastening bolt 41. The vertical plate connection joint 18 has fitting jaws 182 at both ends for fitting into the joint fitting holes 161 and 161. This vertical plate connection joint 18 may be made of steel, for example.

Here, as shown in FIG. 6, a flat friction pad 18a having a bolt insertion hole 181a in the center and friction protrusions 181b distributed on one surface may be used instead of the vertical plate connecting joint 18.

On the other hand, the angle fastener body 10 may be implemented in various forms as described below.

As shown in FIGS. 7 and 8 , the pair of side stiffeners 14 and 14 may have a straight inclined surface 141 or may have a concave curved shape as shown in FIGS. 8 and 10 . At this time, as shown in FIGS. 8 and 10, slot holes 121 for bolt connection may be arranged in a double-row structure in the angle horizontal plate 12.

On the other hand, when the inclined surface 141 is straight or concave curved as shown in FIGS. 7 to 10, the side stiffeners 14 and 14 are provided with an inclined surface 141 in order to increase the ductility of the angle fastener body 10. An open side hypotenuse opening 141a may be further formed. In another form, in order to increase the ductility of the angle fastener body 10, side edge openings 141b may be further formed at the corners of the side stiffeners 14 and 14. Of course, in order to increase the ductility of the angle fastener body 10, the side stiffeners 14 and 14 may be formed with both a side hypotenuse opening 141a open to the oblique surface 141 and a side edge opening 141b at the corner.

When the stiffener-reinforced bent angle fastener 100 is installed on the lower body frame 1000 as shown in FIG. 4 by the side hypotenuse opening 141a or the side edge opening 141b formed in the angle fastener body 10, an earthquake may occur. The hour angle fastener body 10 exhibits deformation without breaking through the side hypotenuse opening 141a or the side edge opening 141b, thereby improving earthquake resistance performance.

For example, the stiffener-reinforced bent angle fastener 100 configured as described above may have a bolt joint structure in which the vertical plate connection joint 18 is assembled to the angle fastener body 10 as shown in FIG. 5. That is, the fastening bolt 41 is inserted into the fastener bolt insertion hole 17, the vertical plate connection joint 18 is inserted into the fastening bolt 41 and coupled to a pair of angle vertical plates 16, 16, and the nut (43) is fastened to the fastening bolt (41). The spring 42 is used to allow the fastening bolt 41 to be easily fixed to the vertical member 1100 or the horizontal member 1200 of FIG. 4. In addition to general bolts, the fastening bolts 41 may be root angle bolts or anchor bolts. At this time, in place of the vertical plate connection joint 18, a flat friction pad 18a may be assembled as shown in FIG. 6 to have a bolt joint structure. The planar friction pad 18a has a bolt insertion hole 181a in the center and has friction protrusions 181b distributed on one surface.

In this way, the stiffener reinforced bent angle fastener 100 of the present invention can realize the joining of the lower frame 1000 only by bolt joining without welding, eliminating concerns about welding fire and welding quality. In addition, the angle fastener body 10 has the advantage of being able to secure appropriate rigidity with a pair of bent side stiffeners 14 and 14 and being recyclable after disassembling the bolt. In addition, the side hypotenuse opening 141a and the side corner opening 141b of the angle fastener body 10 exhibit ductility that does not break, which is advantageous for earthquake-resistant construction of various structures in which the stiffener reinforced bent angle fastener 100 is installed.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various variations and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such variations and modifications, but is limited by the claims appended below.

10: Angle fastener body
12: Angle horizontal plate
121: Slot hole for bolt connection
14: Side stiffeners
141a: Lateral hypotenuse opening
141b: Side corner opening
15: Angle vertical plate separation surface
16: Angle vertical plate
17: Bolt insertion hole
18: Vertical plate connection joint

Claims (18)

After cutting the steel plate according to the development drawing, bending it along the planned bending line creates an angle horizontal plate (12) with a slot hole (121) for bolt connection, and a pair of side stiffeners that are bent at right angles and face each other in the angle horizontal plate (12). (14,14), which is bent at a pair of side stiffeners (14,14) and placed on the same plane in a direction perpendicular to the angle horizontal plate (12) and has an angle vertical plate separation surface (15) facing at the same time. A pair of angle vertical plates (16, 16), a fastener bolt insertion hole (17) formed by being connected to the angle vertical plate separation surface (15), and a joint formed on each of the pair of angle vertical plates (16, 16). An angle fastener body (10) including insertion holes (161, 161);
A vertical plate that has a joint bolt insertion hole (181) in the center and both ends are inserted into the joint fitting holes (161, 161) of the angle fastener body (10) to prevent the pair of angle vertical plates (16, 16) from opening. It includes a connection joint (18);
In order to increase the ductility of the angle fastener body 10, a side hypotenuse opening 141a open to the oblique surface 141 is formed in the side stiffener 14, 14, or a side edge opening 141a is formed at the edge of the side stiffener 14, 14. A stiffener reinforced bent angle fastener, characterized in that (141b) is formed, or a side hypotenuse opening (141a) and a side edge opening (141b) are formed together. According to clause 1,
A pair of side stiffeners (14, 14) is a stiffener-reinforced bent angle fastener, characterized in that the inclined surface (141) forms a straight line. According to clause 1,
A pair of side stiffeners (14, 14) is a stiffener-reinforced bending angle fastener, characterized in that the inclined surface (141) forms a concave curved shape. According to clause 2,
A stiffener-reinforced bent angle fastener, characterized in that slot holes 121 for bolt connection are arranged in a double-row structure on the angle horizontal plate 12. According to clause 3,
A stiffener-reinforced bent angle fastener, characterized in that slot holes 121 for bolt connection are arranged in a double-row structure on the angle horizontal plate 12. delete delete delete delete delete delete delete delete delete delete delete delete delete

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