KR102054014B1 - Filled steel tube to prevent distortion of concrete - Google Patents

Abstract

The present invention relates to a filled steel pipe for preventing distortion of concrete. According to the present invention, the filled steel pipe for preventing distortion of concrete comprises: a pair of shaped steel parts including a pair of bent parts, in which both lateral sides are bent, and a horizontal part disposed between the bent parts to have one open side and disposed to allow the one open side of the pair of bent parts to face each other; a pair of side plates which connect the shaped steel parts by being connected to respective ends of the bent parts of the shaped steel parts disposed to face each other; a pair of arch parts longitudinally installed on the inner wall of the shaped steel part and inwardly protruding from the horizontal part; a pair of second arch parts installed on the inner wall of the side plate through a connection member, installed in the longitudinal direction of the side plate, and inwardly protruding from the side plate; and a reinforcement plate installed on the outer circumferential surface of the second arch part adjacent to the first arch part and including an insertion hole for inserting a rebar thereinto. Concrete is injected between the first and second arch parts, between the first arch part and the horizontal part, and between the second arch part and the reinforcement plate. Accordingly, the rebar is strongly fixed at a fixed position by the insertion hole and a fixing hole, thereby providing an advantage of maintaining uniform strength in all points of the filled steel pipe.

Description

Filled steel tube to prevent distortion of concrete

The present invention relates to a filled steel pipe for preventing warpage of concrete, and more specifically, the concrete can maintain a uniform strength at all points of the filled steel pipe because the reinforcement is firmly fixed to a predetermined position by the fitting hole and the fixing hole It relates to a filled steel pipe for preventing warpage of.

Concrete Filled Steel Tube (CFT) is a structural member that can improve the deformation performance, stiffness, and strength of the member due to the mutual binding effect between the steel pipe and the filler by filling the concrete material inside the steel pipe. It acts to suppress the sudden local buckling deformation of the steel pipe, and the steel pipe plays a complementary role among the materials such as improving the material strength of the filler through the restraining effect on the filler.

Concrete filled steel pipe was developed for the purpose of increasing the strength and ductility of pillar members whose axial compressive force acts as the main load.However, it has excellent strength, excellent deformation performance (ductility), noise and vibration suppression effect. Focusing on the merits, it has begun to find ways to use it as a bridge girder, and compared with a single steel pipe structure or RC structure of the same section, it can obtain excellent mechanical effects such as increased strength, deformation capacity, and rigidity.

1 is a schematic perspective view and a cross-sectional view showing a state in which the concrete is filled with the reinforcement is inserted into the inside of the conventional concrete filled steel pipe.

Conventional concrete filled steel pipe as described above injects the concrete (2) in the state where the reinforcing bar (1) is inserted to increase the strength, the concrete (2) in the state that the reinforcing bar (1) is not firmly fixed Due to the injection, as shown in the two cross-sectional views of FIG. 1, the rebar 1 may be inclined by the concrete 2 or may be disposed obliquely because the rebar 1 may not be fixed.

In addition, in the process of curing the concrete (2) injected into the filled steel pipe as described above, the concrete (2) may be deformed due to temperature, humidity, etc. Such deformation of the concrete (2) is a void and the inside of the filled steel pipe There is a problem that the strength of the filled steel pipe is lowered and it may not have a uniform strength because it causes a crack.

In addition, in the case of providing a plurality of filled steel pipes in which the concrete 2 is injected in the above manner, since the strength of each filled steel pipe is not uniform, the reliability of the product is significantly lowered and there is a possibility of causing safety problems. There was a problem.

Prior art related to this is Republic of Korea Patent Publication No. 10-2002-0004747 (name of the invention: concrete filled steel pipe structure using a spiral reinforcement, published date: January 16, 2000).

The present invention has been made to solve the above problems, an object of the present invention is because of the concrete that can maintain a uniform strength at all points of the filled steel pipe because the reinforcement is firmly fixed to the fixed position by the fitting hole and the fixing hole It is to provide a filled steel pipe to prevent distortion.

In addition, the present invention, because the concrete is injected into the space between the first arch portion and the second arch portion in the state where the reinforcing bar is fixed can be injected without stably changing the position of the reinforcement in the process of injecting concrete It is to provide a filled steel pipe to prevent distortion of concrete.

In addition, the present invention is the primary injection into the space between the first arch portion and the second arch portion is cured, and then secondary injection between the first arch portion and the second steel portion, the second arch portion and the side plate primary According to the viscosity or curing state of the injected concrete can adjust the viscosity of the concrete during the second injection to provide a filled steel pipe for preventing distortion of the concrete can reinforce the strength of the filled steel pipe.

In addition, the present invention can adjust the amount of the first and second injection of concrete according to the height of the installation site by adjusting the radius of curvature of the first and second arch parts, for example, when the height of the installation site is high 1 It is to provide a filled steel pipe for preventing the distortion of the concrete that can be made less deformation during curing of the concrete by reducing the amount of concrete injected.

In addition, a plurality of reinforcing plates connecting the outer circumferential surfaces of the first arch portion and the second arch portion are provided along the longitudinal direction as well as the upper and lower portions thereof, thereby preventing the rebar from sagging or moving to one side. It is to provide a filled steel pipe to prevent distortion of sustainable concrete.

Filled steel pipe for preventing distortion of concrete according to the present invention in order to solve the above problems, a pair of bent portions and both sides in the width direction includes a horizontal portion provided between the pair of bent portions Is open, a pair of section steels in which the open one side is disposed to face each other, a pair of side plates connected to end portions of the bent portions of the section steel sections facing each other, and connecting the pair of section steels, and the section steels It is installed along the longitudinal direction on the inner wall of the portion, a pair of first arch portion protruding inward from the horizontal portion, and is installed on the inner wall of the side plate via a connecting member, is installed along the longitudinal direction of the side plate And a pair of second arch portions protruding inwardly from the side plate and installed on an outer circumferential surface of the second arch portion adjacent to the first arch portion, and a fitting hole into which the rebar is fitted is provided. And a reinforcing plate, wherein concrete is injected into the space between the first arch portion and the second arch portion, the space between the first arch portion and the horizontal portion, and the space between the second arch portion and the reinforcement plate. It is characterized by.

In addition, the reinforcing plate is installed on the upper and lower portions of the outer circumferential surface of the first arch portion and the second arch portion, respectively, may be further installed at a predetermined position in the longitudinal direction, and having a thickness capable of sufficiently supporting the rebar It features.

In addition, the fitting hole is characterized in that the diameter is increased from one side to the other side so that one side is fitted with a small diameter rebar, the other side is fitted with a large diameter rebar.

In addition, the fixing member for fixing the reinforcing bar fitted in the fitting hole is characterized in that it is further included.

In addition, the reinforcing plate is characterized in that the through-hole is formed in a portion corresponding to the corner between the bent portion and the horizontal portion.

In addition, the fixing member, one side is fitted into the through hole, the other side is coupled to the surface of the reinforcing plate facing the through hole, the fixing hole is provided for fixing the reinforcing bar fitted in the fitting hole, the fixing The hole is characterized in that it corresponds to the position and diameter of the reinforcing bar fitted in the through-hole.

In addition, the fixing member is elastically coupled to the surface of the through-hole and the reinforcing plate, characterized in that the coupling groove is formed on the coupling surface is elastically coupled.

In addition, the connecting member is a member bent in a "b" shape, one side is coupled to the inner wall of the bent portion and the inner wall of the side plate, respectively, connecting the section steel and the side plate, the other end is the second arch It is characterized by supporting the back of the negative.

According to the present invention as described above, since the reinforcing bars are firmly fixed to the predetermined position by the fitting hole and the fixing hole has the advantage of maintaining a uniform strength at all points of the filled steel pipe.

In addition, the present invention, because the concrete is injected into the space between the first arch portion and the second arch portion in the state where the reinforcing bar is fixed can be injected without stably changing the position of the reinforcement in the process of injecting concrete There is an advantage.

In addition, the present invention is the primary injection into the space between the first arch portion and the second arch portion is cured, and then secondary injection between the first arch portion and the second steel portion, the second arch portion and the side plate primary According to the viscosity or curing state of the injected concrete can adjust the viscosity of the concrete during the second injection has the advantage of reinforcing the strength of the filled steel pipe.

In addition, the present invention can adjust the amount of the first and second injection of concrete according to the height of the installation site by adjusting the radius of curvature of the first and second arch parts, for example, when the height of the installation site is high 1 There is an advantage that less deformation occurs during curing of the concrete by reducing the amount of concrete injected.

In addition, a plurality of reinforcing plates connecting the outer circumferential surfaces of the first arch portion and the second arch portion are provided along the longitudinal direction as well as the upper and lower portions thereof, thereby preventing the rebar from sagging or moving to one side, thereby uniformly increasing the strength of the filled steel pipe. There is an advantage to maintain.

1 is a schematic perspective view of a conventional concrete filled steel pipe and a cross-sectional view showing a state in which concrete is injected.
2 is a plan view of a prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention.
Figure 3 is an exemplary view showing the reinforcement of the prefabricated filling steel pipe for preventing distortion of the concrete in accordance with a preferred embodiment of the present invention is fixed by a fixing member.
Figure 4 is a cross-sectional view of the concrete is injected into the prefabricated packed steel pipe for preventing distortion of the concrete according to a preferred embodiment of the present invention.
5 is a partially exploded perspective view of a prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention.
6 is a perspective view showing a reinforcing plate of a prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention.
7 is a plan view showing a reinforcing plate of a prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention.
8 is a perspective view showing a fixing member of a prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention.
9 is a plan view showing a fixing member of the prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described embodiments of the present invention. Like reference numerals in the drawings denote like elements. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

2 is a plan view of the prefabricated filling steel pipe for preventing distortion of the concrete according to a preferred embodiment of the present invention, Figure 3 is a rebar of the prefabricated filling steel pipe for preventing distortion of the concrete according to a preferred embodiment of the present invention is fixed by a fixing member 4 is a cross-sectional view of a state in which concrete is injected into a prefabricated packed steel pipe for preventing distortion of concrete according to a preferred embodiment of the present invention, Figure 5 is a distortion of concrete according to a preferred embodiment of the present invention Partial exploded perspective view of the prefabricated packed steel pipe for preventing, Figure 6 is a perspective view showing a reinforcing plate of the prefabricated packed steel pipe for preventing distortion of the concrete according to a preferred embodiment of the present invention, Figure 7 is a concrete according to a preferred embodiment of the present invention Plan view showing a reinforcing plate of the prefabricated filling steel pipe for preventing warpage of the Name exemplary perspective view of a prefabricated filled steel tube holding member for the torsion protection of the concrete according to the embodiment, Figure 9 is a plan view showing a fixing member of the assembled filled steel tube for protection of concrete distortion according to an embodiment of the present invention.

Prefabricated packed steel pipe for preventing distortion of the concrete according to a preferred embodiment of the present invention, the section steel part 100, the side plate 200, the first arch portion 300, the second arch portion 400 reinforcement plate 500 Included.

Components of the present invention to be described later are preferably made of a metal material in consideration of the strength, it may also be made of reinforced plastic or glass fiber.

In case of being made of metal, the members are connected by welding, and in case of being made of reinforced plastic or glass fiber, the members can be connected by using an adhesive.

First, the shaped steel part 100 will be described.

As shown in FIGS. 2 to 5, the shaped steel part 100 is a pair of members bent in a "c" shape and has a predetermined length vertically. The horizontal portion 110 and the horizontal portion It includes a bent portion 120 connected to.

The bent part 120 is manufactured integrally with the horizontal part 110, is bent in the same direction at both ends of the horizontal part 110, and is symmetrically from side to side with respect to the horizontal part 110. 100 is open on one side.

Meanwhile, as shown in FIGS. 2 to 5, the pair of shaped steel parts 100 are arranged to face each other, and the bent parts 120 do not directly follow each other, and the side plate 200 to be described later. Is connected via

As described above, the cross section through which the section steel part 100 is connected through the side plate 200 and the pair of the section steel part 100 and the pair of the side plates 200 has a substantially rectangular shape.

In addition, the inner wall of the horizontal portion 110 is provided with a first arch portion 300 to be described later, a detailed description thereof will be described later.

Next, the side plate 200 will be described.

The side plate 200 is a pair of members having a generally rectangular plate shape, as shown in Figures 2 to 5, having a predetermined length up and down, and may have the same length as the steel section 100, It is connected to the above-described bent portion 120 serves to connect a pair of section steel portion (100).

The side plate 200 may be directly welded to the bent portion 120, but the steel section 100 and the side plate 200 may be welded in a state in which the connecting member 210 is padded. The detailed description thereof will be omitted.

As described above, the shape steel part 100 and the side plate 200 are welded to prevent the concrete from flowing out when the concrete is injected into the present invention.

Next, the first arch part 300 will be described.

The first arch part 300 is a member installed on the inner wall of the shaped steel part 100, and is precisely installed on the inner side of the horizontal part 110 and may be welded, for example.

The first arch portion 300 is installed along the longitudinal direction on the inner wall of the pair of the steel section 100 described above, as shown in Figures 2 to 5, the cross section has a generally arc shape.

The first arch part 300 as described above protrudes to guide the concrete injected into the space between the first arch part 300 and the second arch part 400 to be described later to serve as a partition wall.

When a large amount is injected into a large space due to the characteristics of concrete, deformation or cracking may occur during curing. In the present invention, concrete is injected by the first arch part 300 and the second arch part 400. It is characterized in that the size of the space can be appropriately adjusted, accordingly, the radius of curvature of the first arch portion 300 and the second arch portion 400 varies depending on the length of the present invention or the viscosity of the concrete, etc. It may be modified to.

Next, the second arch portion 400 will be described.

The second arch portion 400 is disposed along the longitudinal direction on the inner wall of the side plate 200, as shown in FIG. 2, may be coupled to the side plate 200 via the connection member 210.

The connection member 210 as described above is generally a "b" or "b" shaped member, one side is welded to the inner wall of the bent portion 120 and the inner wall of the side plate 200, respectively, the section steel part 100 ) And the side plate, the other end supports the back of the second arch portion (400).

Accordingly, the space in which concrete is injected between the first arch part 300 and the second arch part 400 together with the first arch part 300 may be adjusted.

Meanwhile, concrete may be injected into a space between an inner wall of the first arch part 300 and the bent part 120 and an inner wall of the second arch part 400 and the side plate 200. The concrete 20 injected into the space between the 300 and the bent portion 120 and the second arch portion 400 and the side plate 200 is a space between the first arch portion 300 and the second arch portion 400. It has relatively little space compared to

In addition, the concrete 20 injected between the first arch portion 300 and the bent portion 120, the second arch portion 400, and the side plate 200 may include the first arch portion 300 and the second arch portion. The concrete 20 to be injected between the 400 may be injected after curing, the concrete 20 is injected between the first arch portion 300 and the second arch portion 400 in the longitudinal direction of the reinforcement ( 10) is preferably injected after having a certain strength in the buried state.

That is, in the present invention, the concrete 20 injected between the first arch part 300 and the bent part 120, the second arch part 400, and the side plate 200 is the first arch part 300 and the second part. It is characterized in that it serves to reinforce the concrete 20 injected between the arch portion (400).

Finally, the reinforcing plate 500 will be described.

As shown in FIGS. 2 to 5, the reinforcing plate 500 has an outer circumferential surface of the first arch portion 300 and an outer circumferential surface of the second arch portion adjacent to the outer circumferential surface of the first arch portion 300. As a member for connecting, the reinforcing plate 500 is provided with a fitting hole 510 to which the reinforcing bar 10 is fitted.

The reinforcing plate 500 is installed on the upper and lower outer peripheral surfaces of the first arch portion 300 and the second arch portion 400, respectively, and serves to prevent the rebar 10 from biasing or sagging to one side. By the first arch portion 300 and the second arch portion 400 may be further installed in a predetermined position in the longitudinal direction.

The reinforcement plate 500 may be welded to the outer circumferential surfaces of the first arch part 300 and the second arch part 400, and may be sufficiently strong to support the reinforcing bar 10 fitted in the fitting hole 510. It is preferable to have).

In addition, the reinforcing plate 500 may be a flange portion 501 is formed in the portion that is in contact with the first arch portion 300 and the second arch portion 400 to facilitate welding.

As shown in FIGS. 6 to 7, the fitting hole 510 has a smaller diameter rebar 10 fitted to one side thereof, and a larger diameter from one side to the other side thereof so that a larger diameter rebar 10 fits into the other side thereof. Grows

As shown in FIG. 2, the fitting hole 510 has a larger diameter at the corner between the bent portion 120 and the horizontal portion 110, but vice versa.

Accordingly, the reinforcing bar 10 fitted in the fitting hole 510 may be installed in various diameters, so that the degree of freedom in designing according to the strength may be enhanced.

On the other hand, the reinforcing bar 10 is fitted to the fitting hole 510 is preferably fixed by the fixing member 600 shown in Figs. 8 to 9, the reinforcing bar 10 is fitted to the fixing member 600 Losing fixing holes 610 are provided.

The fixing hole 610 is perforated in various sizes according to the diameter of the reinforcing bar 10, the reinforcing bar 10 is inserted into the fixing hole 610, it is natural that the communication hole 510 should be in communication.

The fixing member 600 is preferably coupled to one side of the reinforcing plate 500. For example, the fixing member 600 may be made of a leaf spring material so as to be easily coupled to the edge portion of the reinforcing plate 500.

As described above, a through hole 520 may be formed at one side of the reinforcing plate so that the fixing member 600 may be elastically coupled to the reinforcing plate. As shown in FIG. 2, the through hole is horizontal to the bent portion 120. It may be an empty space at a position corresponding to the corner between the portions 110.

One side of the fixing member 600 is fitted into the through hole 520, and the other side thereof is coupled to an edge of the reinforcing plate 500 facing the through hole 520.

On the other hand, the fixing member 600 is fixed to the both ends of the fixing member 600, that is, the through-hole 520 and the edge of the reinforcing plate 500 so that the fixing member 600 is elastically coupled to the reinforcing plate 500 Coupling groove 620 corresponding to the thickness of the is formed.

Accordingly, the operator first checks the diameter of the rebar 10 to be fitted into the fitting hole 510, and then selects the fixing member 600 corresponding to the diameter of the rebar 10, and one side of the fixing member 600. To the reinforcing plate 500 of the fixing hole 610 side first.

Then, the other side of the fixing member 600 is inserted into the reinforcing plate 500 at a position opposite to the through hole 520, and after confirming that the fitting hole 510 and the through hole 520 is installed in communication, Install by inserting rebar (10).

As shown in FIGS. 8 to 9, the fixing member 600 has a difference in the position and the diameter of the fixing hole 610 according to the diameter of the reinforcing bar 10. Although the fixing member 600 is shown, it is obvious that three or more types of embodiments may exist depending on the diameter of the reinforcing bar 10.

According to the present invention as described above, the reinforcing bar 10 is firmly fixed to a predetermined position by the fitting hole 510 and the fixing hole 610, thereby maintaining uniform strength at every point of the filled steel pipe.

In addition, according to the present invention, the concrete 20 is injected due to the concrete 20 being injected into the space between the first arch part 300 and the second arch part 400 while the reinforcing bar 10 is fixedly installed. In the process, the position of the reinforcing bar 10 may be injected without being stably changed.

In addition, according to the present invention, after the concrete 20 first injected into the space between the first arch part 300 and the second arch part 400 is cured, the first arch part 300 and the steel part 100 are formed. Filled steel pipes can be adjusted during the second injection according to the viscosity or curing state of the first injected concrete 20 by secondary injection between the second arch portion 400 and the side plate 200 The strength of the can be reinforced.

In addition, the present invention by adjusting the radius of curvature of the first arch portion 300 and the second arch portion 400 can adjust the amount of primary and secondary injection of concrete according to the height of the installation site, for example, installation When the height of the site is high, the amount of concrete 20 injected first may be reduced so that less deformation occurs during curing of concrete.

In addition, a plurality of reinforcing plates 500 connecting the outer circumferential surfaces of the first arch portion 300 and the second arch portion 400 are provided along the longitudinal direction as well as the upper and lower portions thereof, so that the reinforcing bar 10 sags or moves to one side. It can be prevented in advance to maintain the strength of the filled steel pipe uniformly.

The best embodiments have been disclosed in the drawings and the specification. Herein, specific terms have been used, but they are used only for the purpose of describing the present invention and are not intended to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10-reinforced 20-concrete
100-section 110-horizontal
120-bend
200-side plate 210-connector
300-first arch
400-second arch
500-Reinforced Plate 501-Flange Section
510-fitting hole 520-through hole
600-fixing member 610-fixing hole
620-engagement groove

Claims (8)

A pair of bent portions in which both sides of the width direction are bent and a horizontal portion provided between the pair of bent portions are opened and one side is opened, and the pair of shaped steel portions in which the open one side is disposed to face each other;
A pair of side plates connected to the bent end portions of the formed steel parts facing each other and connecting the pair of shaped steel parts,
A pair of first arch portions which are installed along the longitudinal direction on the inner wall of the shaped steel portion and protrude inward from the horizontal portion;
A pair of second arch parts installed on an inner wall of the side plate via a connecting member and installed along a longitudinal direction of the side plate and protruding inwardly from the side plate;
It is provided on the outer circumferential surface of the second arch portion adjacent to the first arch portion, and includes a reinforcing plate having a fitting hole into which the reinforcing bar is fitted.
Concrete is injected into the space between the first arch portion and the second arch portion, the space between the first arch portion and the horizontal portion and the space between the second arch portion and the reinforcing plate Steel pipe to prevent warping. The method according to claim 1,
The reinforcement plate,
The first and second arch parts are respectively installed on upper and lower outer peripheral surfaces thereof, and may be further installed at predetermined positions in a longitudinal direction, and prevent warping of concrete, which has a thickness capable of sufficiently supporting the rebar. Filling steel pipe for The method according to claim 1,
The fitting hole
Filled steel pipe for preventing distortion of concrete, characterized in that the one side is fitted with a small diameter of the reinforcing bar, the other side is larger in diameter from one side to the other side so that the larger diameter of the reinforcing bars are fitted. The method according to claim 3,
Filling steel pipe for preventing distortion of concrete, characterized in that it further comprises a fixing member for fixing the reinforcing bars fitted in the fitting hole. The method according to claim 4,
In the reinforcement plate,
Filled steel pipe for preventing distortion of concrete, characterized in that the through-hole is formed in a portion corresponding to the corner between the bent portion and the horizontal portion. The method according to claim 5,
The fixing member,
One side is fitted into the through hole, the other side is coupled to the edge of the reinforcing plate facing the through hole, provided with a fixing hole for fixing the reinforcing bar fitted in the fitting hole, the fixing hole is fitted in the through hole Filled steel pipe for preventing distortion of concrete, characterized in that corresponding to the position and diameter of the reinforcing bar. The method according to claim 5,
The fixing member,
Filled steel pipe for preventing distortion of concrete, characterized in that the coupling hole is formed on the surface of the through-hole and the reinforcing plate, the coupling surface is elastically coupled. The method according to claim 1,
The connecting member,
It is a member bent in a "b" shape, one side is coupled to the inner wall of the bent portion and the inner wall of the side plate, respectively, connecting the section steel and the side plate,
The other end of the prefabricated filling steel pipe for preventing distortion of concrete, characterized in that for supporting the back of the second arch portion.

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