KR102282913B1 - Ring reinforcing beam - Google Patents

Abstract

The beam reinforcement ring includes a body part in the form of a ring inserted into a circular hole of a beam, a flange part extending from the body part and covering an inner circumferential surface of the beam forming the circular hole, and the body part; and a through hole positioned between the flange portions.

Description

Beam reinforcement ring {RING REINFORCING BEAM}

The present disclosure relates to a beam reinforcement ring.

In general, a circular hole for passing a pipe or wiring is formed in a beam, which is a building structure. In this case, the intensity of the beam is lowered by the circular hole.

Conventionally, in order to reinforce the strength of a beam having a circular hole, a metal plate is brought into contact with the surface of the beam adjacent to the circular hole, and the entire edge of the metal plate is welded to the surface of the beam.

However, the conventional metal plate for reinforcing the circular hole formed beam has a problem in that welding convenience is reduced by welding the entire rim to the surface of the beam.

One embodiment, while improving the strength reinforcement of the circular hole is formed beam, at the same time to provide a beam reinforcement ring with improved welding convenience.

One side has a ring-shaped body part inserted into a circular hole of a beam, a flange part extending from the body part and covering an inner circumferential surface of the beam forming the circular hole, and the body part and the Provided is a beam reinforcement ring including a through hole positioned between flange portions.

The through hole may expose an inner peripheral surface of the beam.

The through hole may extend along an extension direction of an inner circumferential surface of the beam.

The through-hole may include a plurality of through-holes, and the plurality of through-holes may be spaced apart from each other along an outer circumferential surface of the flange portion.

The flange portion may include a plurality of protrusions spaced apart from each other along an outer circumferential surface of the flange portion.

It may further include a first welding portion welded between the first surface of the beam and the outer peripheral surface of the flange portion positioned between the plurality of protrusions.

The body portion may include an inclined surface forming the through hole, and the inclined surface may directly face an inner peripheral surface of the beam.

A second welding portion welded between the inclined surface and the inner circumferential surface of the beam may be further included, and the second welding portion may be located in the same direction as the first welding portion.

The flange portion may include a vertical surface forming the through hole, and the vertical surface may be adjacent to an inner circumferential surface of the beam and a second surface of the beam adjacent to the second surface.

A third weld portion welded between the vertical surface and the second surface of the beam may be further included, wherein the third weld portion may be positioned in the same direction as the first weld portion.

According to one embodiment, an object of the present invention is to provide a beam reinforcement ring with improved welding convenience while improving the strength reinforcement of the circular hole-formed beam.

1 is a plan view illustrating a beam reinforcement ring according to an embodiment.
FIG. 2 is a cross-sectional view taken along II-II of FIG. 1 .
FIG. 3 is a cross-sectional view taken along line III-III of FIG. 1 .
4 is a perspective view illustrating welding of a beam reinforcement ring according to an embodiment to an H-beam.
5 is a plan view illustrating a beam reinforcement ring according to an embodiment welded to an H-beam.
6 is a cross-sectional view taken along VI-VI of FIG. 5 .
7 is a cross-sectional view showing a portion of a beam reinforcement ring according to another embodiment welded to the H-beam.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly explain the present invention, parts irrelevant to the description are omitted, and the same reference numerals are given to the same or similar elements throughout the specification.

In addition, throughout the specification, when a part "includes" a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

Hereinafter, a beam reinforcement ring according to an embodiment will be described with reference to FIGS. 1 to 3 .

1 is a plan view illustrating a beam reinforcement ring according to an embodiment. FIG. 2 is a cross-sectional view taken along II-II of FIG. 1 . FIG. 3 is a cross-sectional view taken along line III-III of FIG. 1 .

1 to 3 , the beam reinforcement ring 1000 according to an embodiment reinforces the strength of a circular hole formed in a beam, and the body part 100 , the flange part 200 , and the through hole 300 . ) is included.

The body part 100 may be inserted into the circular hole of the beam, and has a ring shape. The body part 100 has a thicker thickness than the flange part 200 and may be inserted into the circular hole of the beam. The body part 100 includes an inclined surface 110 forming a through hole 300 .

The inclined surface 110 has a tapered shape in the direction of the flange portion 200 . The inclined surface 110 may directly face the inner peripheral surface of the beam forming the circular hole of the beam.

Meanwhile, the main body 100 has a circular ring shape, but is not limited thereto, and may have various ring shapes such as an oval, a polygonal, a closed loop type, and the like.

The flange part 200 extends outwardly from the body part 100 . The flange portion 200 may have a thinner thickness than the body portion 100 to cover the inner circumferential surface of the beam forming a circular hole of the beam. The flange part 200 includes an outer peripheral surface 210 longer than the inner peripheral surface of the main body 100 , a plurality of protrusions 220 , and a vertical surface 230 forming a through hole 300 .

The plurality of protrusions 220 are spaced apart from each other along the outer circumferential surface 210 of the flange portion 200 . The plurality of protrusions 220 extend outwardly from the outer circumferential surface 210 of the flange portion 200 .

The vertical surface 230 forms a through hole 300 together with the inclined surface 110 of the main body 100 . The end of the vertical surface 230 does not overlap the end of the inclined surface 110 in the vertical direction. The vertical surface 230 may be adjacent to an inner circumferential surface of the beam and a surface of the adjacent beam.

The through hole 300 is positioned between the body part 100 and the flange part 200 and penetrates the beam reinforcement ring 1000 . The through hole 300 may expose an inner peripheral surface of the beam forming a circular hole of the beam. The through hole 300 extends along the extending direction of the outer peripheral surface 210 of the flange portion 200 . The through hole 300 may extend along an extension direction of the inner circumferential surface of the beam. An angle from one end to the other end of the through hole 300 with respect to the center of the beam reinforcement ring 1000 may have an angle of 30 degrees, but is not limited thereto.

There are a plurality of through-holes 300 , and the plurality of through-holes 300 are spaced apart from each other along the outer circumferential surface 210 of the flange part 200 . An angle between adjacent through-holes 300 with respect to the center of the beam reinforcement ring 1000 may have an angle of 30 degrees, but is not limited thereto.

Hereinafter, a beam reinforcement ring according to an embodiment welded to the beam will be described with reference to FIGS. 4 to 6 . Hereinafter, an H-type beam will be described as an example of a beam having a through-hole formed therein, but the beam to which the beam reinforcement ring according to an embodiment is welded is not limited to the H-type beam and may be a known various types of beams.

4 is a perspective view illustrating welding of a beam reinforcement ring according to an embodiment to an H-beam.

Referring to FIG. 4 , the beam reinforcement ring 1000 according to an embodiment is inserted into the circular hole 11 formed in the beam 10 such as an H-beam and is welded to the beam 10 . At this time, the body part 100 of the beam reinforcement ring 1000 is inserted into the circular hole 11 of the beam 10 , and the flange part 200 forms the circular hole 11 of the beam 10 ( 10) covers the inner circumferential surface 12 of the beam 10, and the through hole 300 is positioned between the body portion 100 and the flange portion 200 to form a circular hole 11 of the beam 10. The inner peripheral surface 12 is exposed.

5 is a plan view illustrating a beam reinforcement ring according to an embodiment welded to an H-beam. 6 is a cross-sectional view taken along VI-VI of FIG. 5 .

5 and 6, the beam reinforcement ring 1000 according to an embodiment inserted into the circular hole 11 of the beam 10 and welded to the beam 10 is a beam ( 10), and includes a body part 100, a flange part 200, a through-hole 300, a first welding part 400, and a second welding part 500.

The body part 100 is inserted into the circular hole 11 of the beam 10 . The body part 100 has a thicker thickness than the flange part 200 and is inserted into the circular hole 11 of the beam. The body part 100 includes an inclined surface 110 forming a through hole 300 .

The inclined surface 110 has a tapered shape in the flange portion 200 direction, and directly faces the inner circumferential surface 12 of the beam 10 forming the circular hole 11 of the beam 10 .

The flange part 200 extends outwardly from the body part 100 , and has a thinner thickness than the body part 100 , and the inner circumferential surface 12 of the beam 10 forming the circular hole 11 of the beam 10 . covers the The flange part 200 includes an outer peripheral surface 210 , a plurality of protrusions 220 , and a vertical surface 230 forming a through hole 300 .

The plurality of protrusions 220 are spaced apart from each other along the outer circumferential surface 210 of the flange portion 200 to contact the surface of the beam 10 .

The vertical surface 230 forms the through hole 300 together with the inclined surface 110 of the body part 100 , and an end of the vertical surface 230 does not overlap the end of the inclined surface 110 in the vertical direction. The vertical plane 230 is adjacent to the inner peripheral surface 12 of the beam 10 and the surface of the neighboring beam 10 .

The through hole 300 is positioned between the body part 100 and the flange part 200 and penetrates the beam reinforcement ring 1000 . The through hole 300 exposes the inner peripheral surface 12 of the beam 10 . The through hole 300 extends along the extending direction of the outer peripheral surface 210 of the flange portion 200 . The through hole 300 extends along the extending direction of the inner circumferential surface 12 of the beam 10 to expose the inner circumferential surface 12 of the beam 10 .

There are a plurality of through-holes 300 , and the plurality of through-holes 300 are spaced apart from each other along the outer peripheral surface 210 of the flange part 200 to expose the inner peripheral surface 12 of the beam 10 .

The first welding portion 400 is welded between the outer peripheral surface 210 of the flange portion 200 positioned between the plurality of projections 220 and the first surface 13 of the beam 10 . The first surface 13 of the beam 10 is the surface of the beam 10 adjacent to the outer peripheral surface 210 of the flange portion 200 . The first weld portion 400 may be a fillet weld, but is not limited thereto, and may be a variety of known welds. The plurality of first welding portions 400 are plural, and the plurality of first welding portions 400 are spaced apart from each other with the protrusion 220 of the flange portion 200 interposed therebetween.

That is, the first welding portions 400 are welded between the beam 10 and the beam reinforcement ring 1000 between the adjacent protrusions 220 of the flange portion 200, whereby the first welding portions 400 are welded region. Since they are standardized by the protrusions 220 , there is no need to weld the entire outer circumferential surface 210 of the flange portion 200 and the beam 10 , so the welding convenience between the beam 10 and the beam reinforcement ring 1000 . This is improved.

The second welding portion 500 is welded between the inclined surface 110 of the body portion 100 and the inner peripheral surface 12 of the beam 10 . The second welding part 500 may be a fillet weld, but is not limited thereto, and may be a variety of known welds. The second welding part 500 is welded between the inclined surface 110 of the body part 100 and the inner peripheral surface 12 of the beam 10 through the through hole 300 . The second welding part 500 is positioned in the same direction as the first welding part 400 .

Referring to FIG. 6 , between the outer peripheral surface 210 of the flange part 200 and the first surface 13 of the beam 10 in the upper direction of the beam 10 where the flange part 200 is located, a first welding part ( 400 is welded, and the second welding part 500 is welded between the inclined surface 110 of the body part 100 and the inner peripheral surface 12 of the beam 10 through the through hole 300 .

That is, without the need to be welded between the beam 10 and the beam reinforcement ring 1000 in the upper direction and the lower direction of the beam 10, the beam 10 and the beam reinforcement ring 1000 in the upper direction of the beam 10. The first welding part 400 is welded therebetween, and the second welding part 500 is welded between the beam 10 and the beam reinforcement ring 1000 through the through hole 300 in the upper direction of the same beam 10 . , the convenience of welding between the beam 10 and the beam reinforcement ring 1000 is improved.

As described above, in the beam reinforcement ring 1000 according to an embodiment, the body portion 100 is inserted into the circular hole 11 of the beam 10 , and the flange portion 200 is the inner circumferential surface 12 of the beam 10 . ), and the through-hole 300 is positioned between the body part 100 and the flange part 200 , so that the first welding parts 400 are the outer peripheral surface 210 of the flange part 200 and the beam 10 . Because it is welded between the first surface 13 and the second weld 500 is welded between the inclined surface 110 of the body portion 100 and the inner circumferential surface 12 forming the circular hole 11 of the beam 10 . , to improve the strength reinforcement of the beam 10 in which the circular hole 11 is formed compared to that in which a single weld is formed.

In addition, in the beam reinforcement ring 1000 according to an embodiment, the area in which the first welding parts 400 are welded is standardized by the protrusions 220 , and the beam 10 in the same direction in which the first welding parts 400 are welded. ) by welding the second welding part 500 between the beam 10 and the beam reinforcement ring 1000 through the through hole 300 in the upper direction of the beam 10, the welding convenience between the beam 10 and the beam reinforcement ring 1000 to improve

That is, while improving the strength reinforcement of the beam 10 in which the circular hole 11 is formed, the beam reinforcement ring 1000 with improved welding convenience is provided.

Hereinafter, a beam reinforcement ring according to another embodiment will be described with reference to FIG. 7 . Hereinafter, a different part from the beam reinforcement ring according to the above-described embodiment will be described.

7 is a cross-sectional view showing a portion of a beam reinforcement ring according to another embodiment welded to the H-beam.

Referring to FIG. 7 , the beam reinforcement ring 1002 according to another embodiment inserted into the circular hole 11 of the beam 10 and welded to the beam 10 is the beam 10 in which the circular hole 11 is formed. Strength is reinforced, and includes a body part 100 , a flange part 200 , a through hole 300 , a first welding part 400 , a second welding part 500 , and a third welding part 600 .

The third welding portion 600 is between the vertical surface 230 of the flange portion 200 forming the through hole 300 and the inner peripheral surface 12 of the beam 10 and the second surface 14 of the neighboring beam 10 . are welded to The third weld portion 600 may be a fillet weld, but is not limited thereto, and may be a variety of known welds. The third weld portion 600 is welded between the vertical surface 230 of the flange portion 200 and the second surface 14 of the beam 10 through the through hole 300 . The third welding part 600 is positioned in the same direction as the first welding part 400 and the second welding part 500 .

Meanwhile, the third welding part 600 may be integrally formed by being merged with the second welding part 500 , but is not limited thereto.

Referring to FIG. 7 , between the outer peripheral surface 210 of the flange part 200 and the first surface 13 of the beam 10 in the upper direction of the beam 10 where the flange part 200 is located, a first welding part ( 400) is welded, and a second welding part 500 is welded between the inclined surface 110 of the body part 100 and the inner peripheral surface 12 of the beam 10 through the through hole 300, and the through hole 300 A third weld portion 600 is welded between the vertical surface 230 of the flange portion 200 and the second surface 14 of the beam 10 .

That is, the beam 10 and the beam reinforcement ring 1002 in the upward direction of the beam 10, without the need to be welded between the beam 10 and the beam reinforcement ring 1002 in the upward direction and the downward direction of the beam 10 The first welding part 400 is welded between, and the second welding part 500 is welded between the beam 10 and the beam reinforcement ring 1002 through the through hole 300 in the upper direction of the same beam 10, , by welding the third weld portion 600 between the beam 10 and the beam reinforcement ring 1002 through the through hole 300 in the upper direction of the same beam 10, the beam 10 and the beam reinforcement ring 1002 ) between the welding convenience is improved.

As described above, in the beam reinforcement ring 1002 according to another embodiment, the body part 100 is inserted into the circular hole 11 of the beam 10 , and the flange part 200 is the inner circumferential surface 12 of the beam 10 . ), and the through-hole 300 is positioned between the body part 100 and the flange part 200 , so that the first welding parts 400 are the outer peripheral surface 210 of the flange part 200 and the beam 10 . It is welded between the first surface 13 and the second welding part 500 is welded between the inclined surface 110 of the body part 100 and the inner peripheral surface 12 forming the circular hole 11 of the beam 10, 3 Since the weld 600 is welded between the vertical surface 230 of the flange part 200 and the second surface 14 of the beam 10, the beam ( 10) to improve the strength reinforcement.

In addition, in the beam reinforcement ring 1002 according to another embodiment, the area in which the first welds 400 are welded is normalized by the protrusions 220 , and the beam 10 in the same direction as the first weld 400 is welded. ), the second weld part 500 is welded between the beam 10 and the beam reinforcement ring 1002 through the through hole 300 in the upper direction, and the first weld part 400 and the second weld part 500 are welded. The third welding part 600 is welded between the beam 10 and the beam reinforcement ring 1002 through the through hole 300 in the upper direction of the beam 10 in the same direction as that of the beam 10, so that the beam 10 and the beam reinforcement ring To improve the welding convenience between 1002.

That is, while improving the strength reinforcement of the beam 10 in which the circular hole 11 is formed, the beam reinforcement ring 1002 with improved welding convenience is provided.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the

Body part 100, flange part 200, through hole 300

Claims (10)

a body part in the form of a ring that is inserted into a circular hole of a beam;
a flange portion extending from the body portion to cover an inner circumferential surface of the beam forming the circular hole; and
A through hole positioned between the body part and the flange part
includes,
The through hole exposes an inner peripheral surface of the beam,
The flange portion includes a plurality of protrusions spaced apart from each other along the outer peripheral surface of the flange portion,
Further comprising a first weld welded between the first surface of the beam and the outer peripheral surface of the flange portion located between the plurality of projections,
The body portion includes an inclined surface forming the through hole, the inclined surface directly facing the inner peripheral surface of the beam,
Further comprising a second welding portion welded between the inclined surface and the inner peripheral surface of the beam,
The second welding part is located in the same direction as the first welding part,
The first welding portion and the second welding portion are exposed in the same direction beam reinforcement ring. delete In claim 1,
The through hole is a beam reinforcement ring extending along an extension direction of the inner circumferential surface of the beam. In claim 1,
The through-hole includes a plurality of through-holes,
A beam reinforcement ring in which the plurality of through-holes are spaced apart from each other along the outer peripheral surface of the flange part. delete delete delete delete In claim 1,
The flange portion includes a vertical surface forming the through hole,
wherein the vertical surface is adjacent to an inner peripheral surface of the beam and adjacent to a second surface of the beam adjacent to the beam reinforcement ring. In claim 9,
a third weld welded between the vertical surface and the second surface of the beam;
The third welded portion is a beam reinforcement ring positioned in the same direction as the first welded portion.

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