KR101289149B1 - Structure and apparatus for connecting steel pipe struts - Google Patents

Abstract

The present invention provides a steel pipe support structure and a steel pipe support device.
The steel pipe brace connection structure, in the connection structure of a plurality of steel pipe braces supporting the retaining wall, one side is integrally coupled to the end of the steel pipe brace, tapered portion formed smaller in cross-section toward the opposite direction of the steel pipe brace And a flange member integrally coupled to the other side of the tapered portion, and connecting the plurality of steel pipe braces in a longitudinal direction by joining the flange members provided at the ends of the plurality of steel pipe braces, wherein the flange members are plural. Three bolt holes are formed through, and the flange member may include a positioning means formed on one side to match the position of the plurality of bolt holes between the flange member to be joined.
By using the steel pipe reinforcement connecting structure and the steel pipe reinforcing device according to the present invention, there is no protruding portion than the steel pipe reinforcement in the steel pipe reinforcing device can ensure the stability in the work space, the steel pipe reinforcing device is a steel pipe reinforcement Since there is no need to separately manage the connecting device even after dismantling the connected steel pipe support because it is integrally bonded to the there is an advantage that there is no fear of loss.

Description

STRUCTURE AND APPARATUS FOR CONNECTING STEEL PIPE STRUTS}

The present invention relates to a steel pipe reinforcement connection structure and a steel pipe reinforcement connection device, and more particularly to a steel pipe reinforcement connection structure and steel pipe reinforcement connecting device to ensure the stability of the work space and easy management.

In the excavation site for the underground construction of subways, buildings, underground roads, underground storage facilities, etc., excavation sites need to be equipped with earthen blocks to support earth pressure. In general, the construction of the temporary wall for supporting the earth pressure on the periphery of the site to be excavated at the same time as the excavation proceeds, the support structure for supporting the temporary wall is installed.

One of the typical retaining methods is the hypothetical strut method. The hypothetical strut method is a method of installing a strip and struts by installing a pile pile in the center of the site and then installing a post pile in the center. The strut is a means for securing the supporting force on the retaining wall, and conventionally, H-shaped steel is mainly used as the main compression member. However, H-beams are prone to buckling and have a large weight, and thus, the use of steel pipe braces as struts has recently increased.

In this case, a connection device for installing a plurality of braces in one direction is necessary for the convenience of installation and transportation of braces or when the distance between the facing walls is long.

Figure 1 shows a device for connecting a conventional steel pipe brace.

Referring to FIG. 1, the conventional steel pipe brace connection device 20 connects opposite ends of two neighboring braces 10, and wraps both ends of the brace 10 with a pair of divided semicircular covers 21. Fastening bolts 23 are used to fix a pair of semi-circular cover 21.

However, according to the conventional method, since a part of the semi-circular cover 21 protrudes to the outer diameter of the brace 10, there is a problem that may impair the safety of the work space.

In addition, the pair of semi-circular cover 21 is a method of being separated and assembled from the brace 10, so that the trouble to be managed separately after being separated from the brace 10 and lost in the workplace May occur.

In addition, there is a problem that it is difficult to match the plurality of steel pipe braces 10 to be connected in a straight direction before installing the pair of semi-circular cover 21.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the aspect is that the steel pipe reinforcement can be secured in the work space because there is no protruding portion than the steel pipe reinforcement, the steel pipe reinforcement connection device is a steel pipe It is to provide a steel pipe brace connection structure and a steel pipe brace connection device that does not need to manage the connection device even after dismantling the connected steel pipe brace because it is integrally bonded to the brace.

In addition, the present invention as a side, having a tapered portion can easily determine the thickness and size of the connection device to an appropriate degree, and even when the bending moment occurs in the steel pipe brace can reduce the bending moment structurally stable steel pipe To provide a brace connection structure and a steel pipe brace connection device.

The present invention as a technical aspect for achieving the above object, in the connection structure of a plurality of steel pipe braces supporting the retaining wall, one side is integrally coupled to the end of the steel pipe brace, the opposite direction of the steel pipe brace And a taper portion formed to have a smaller cross-sectional area toward the side, and a flange member integrally coupled to the other side of the tapered portion, wherein the plurality of steel pipe supports are joined by joining the flange members provided at ends of the plurality of steel pipe supports. Is connected in the longitudinal direction, the flange member is formed through a plurality of bolt holes, the flange member includes a positioning means formed on one side to match the position of the plurality of bolt holes between the flange member to be joined; It provides a steel pipe support structure, characterized in that configured.

Preferably, the cross-sectional area size of the flange member may be the same as the cross-sectional area size of the steel pipe brace or smaller than the size of the steel pipe brace.

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Preferably, the positioning means may include a protrusion formed to protrude on one side of the flange member; and a groove portion formed on the other flange member facing the protrusion to be fitted.

In this case, preferably, the protruding portion may be formed of a polygonal shaft, and the groove portion may be formed of a polygonal groove formed according to the shape of the polygonal shaft so that the polygonal shaft is fitted.

Also preferably, the flange member may further include a fastening reinforcing plate protruding around the bolt hole to strengthen the fastening force when bolting the flange members on both sides.

On the other hand, the present invention as another aspect, in the connecting device of a plurality of steel pipe braces supporting the retaining wall, one side is coupled to the end of the steel pipe brace, tapered portion formed smaller in cross-section toward the opposite direction of the steel pipe brace And a flange member integrally coupled to the other side of the tapered portion and having a plurality of bolt holes penetrated therein, wherein the flange member is provided with a protrusion or a groove formed on an opposite side of the surface to which the tapered portion is coupled. Protrusions and grooves of the member is provided so as to fit into the grooves or protrusions formed in the other member to correspond to the protrusions and grooves, respectively, so that the flange member is provided to easily match the position of the bolt hole when engaged with the other member It provides a connecting device for the steel pipe props characterized in that.

Preferably, the cross-sectional area size of the flange member may be the same as the cross-sectional area size of the steel pipe brace or smaller than the cross-sectional area size of the steel pipe brace.

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Also preferably, the flange member may include a fastening reinforcing plate protruding around the bolt hole to strengthen the fastening force when the bolt is engaged.

By using the steel pipe reinforcement connection structure and the steel pipe reinforcement connecting device according to the present invention, there is no protruding portion than the steel pipe reinforcement in the steel pipe reinforcement connecting device can ensure the stability in the work space, the steel pipe reinforcement connecting device is the steel pipe reinforcement Since there is no need to separately manage the connecting device even after dismantling the connected steel pipe support because it is integrally bonded to the there is an advantage that there is no fear of loss.

In addition, according to an embodiment of the present invention, it is easy to predict the appropriate thickness and size of the connecting device by the shape of the tapered portion, and even when the bending moment occurs in the steel pipe brace can reduce the bending moment structurally stable effect Can be obtained.

And, according to one embodiment of the present invention, it is possible to facilitate the installation of the fastening bolt when connecting the steel pipe brace by the positioning means it can obtain the effect of shortening the construction period of the steel pipe brace.

In addition, according to one embodiment of the present invention, by removing the fastening bolt and the nut can immediately dismantle the steel pipe brace, there is an advantage of easy coupling and disassembly of the steel pipe brace, the fastening force of the bolt coupling between the flange member by the fastening plate This can be prevented from being reduced.

1 is a view showing a connection device of a conventional steel pipe support.
Figure 2 is a perspective view showing a steel pipe support device according to an embodiment of the present invention.
3 is an exploded perspective view of the steel pipe brace connecting device of FIG.
Figure 4 is a cross-sectional view showing the steel pipe brace connection device of FIG.
5 is an exploded perspective view illustrating a steel pipe support device according to another embodiment of the present invention.
Figure 6 is a perspective view showing a steel pipe support device according to another embodiment of the present invention.

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

First, the embodiments described below are embodiments suitable for understanding the technical features of the present invention steel pipe support structure and steel pipe support device. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings.

Steel pipe brace connection structure according to the present invention relates to a structure for connecting a plurality of steel pipe braces 10 supporting the earth wall, as shown in an embodiment shown in Figure 2, a pair of steel pipe braces located on the same line It is configured to connect the opposite steel pipe braces 10 by connecting opposite ends of the 10.

The steel pipe brace connection structure, as shown in one embodiment shown in Figures 2 to 4, one side is integrally coupled to the end of the steel pipe brace 10, the cross-sectional area toward the opposite direction of the steel pipe brace 10 It may be configured to include a tapered portion 110 formed to be smaller, and a flange member 130 integrally coupled to the other side of the tapered portion 110.

The tapered portion 110 may be formed of a metal material, and may be integrally coupled to the end of the steel pipe by welding or the like. In addition, since the tapered portion 110 may be formed to have a smaller cross-sectional area toward the opposite direction of the steel pipe brace 10, the size of the cross-sectional area of the opposite side of the portion coupled to the steel pipe brace 10 is the steel pipe brace 10 It is formed smaller than the cross-sectional area size.

The flange member 130 may be integrally coupled to the tapered portion 110 by welding or the like on the opposite side of the portion that is coupled to the steel pipe brace 10.

Accordingly, the plurality of steel pipes 10 supporting the retaining wall are arranged on the same line, and the flange members 130 provided at ends of the steel pipe braces 10 on opposite sides are joined to each other to join the plurality of steel pipes. The brace 10 can be connected in the longitudinal direction.

At this time, the tapered portion 110 and the flange member 130 may be applied to a variety of materials without limitation if it can support the earth wall by connecting the steel pipe brace 10, preferably, as described above It may be made of a metal material, such as aluminum alloy, cast iron.

In addition, the cross-sectional area size of the flange member 130 may be formed the same as the cross-sectional area size of the steel pipe brace 10 or smaller than the size of the steel pipe brace 10. Accordingly, no part protruding from the maximum outer diameter of the steel pipe brace 10 in the joint portion of the steel pipe brace 10.

At this time, preferably the size of the cross-sectional area of the flange member 130 may be formed to have the same cross-sectional area of the steel pipe support 10. This is because the brace load acting on the connecting portion of the steel pipe brace 10 is transmitted to the flange member 130 on both sides, so as to produce the maximum area within the cross-sectional area size of the steel pipe brace 10, the stable brace support force of the earth wall To secure.

In addition, the shape of the flange member 130 may be applied without limitation, but is preferably formed according to the shape of the steel pipe brace 10 so that there is no protruding portion than the steel pipe brace 10. For example, as in the embodiment shown in Figures 2 to 5, when the steel pipe brace 10 is circular, the flange member 130 is preferably formed of a circular plate.

As such, the connection structure of the steel pipe brace according to the embodiment of the present invention has the same or smaller cross-sectional area as that of the steel pipe brace 10 through the tapered portion 110 formed in the steel pipe brace 10 with a smaller cross-sectional area. It may be connected to the flange member 130 having a. Accordingly, since the flange member 130 has no protruding portion than the steel pipe support 10, stability of the work space is improved.

In addition, the connection structure of the steel pipe brace according to an embodiment of the present invention because the tapered portion 110 and the flange member 130 is integrally coupled to the steel pipe brace 10 of the plurality of steel pipe brace 10 Even after disconnecting, there is no need for separate management and there is no risk of loss.

In addition, since the size of the cross section decreases linearly, the tapered portion 110 can easily predict how much stress is concentrated in one cross section, so that the thickness and length of the tapered portion 110 and the flange member 130 may be adjusted. It may be easy to determine.

That is, when the steel pipe brace 10 receives a compressive force through an axial load, the connection portion of the brace 10, which is composed of the taper 110 and the flange member 130, transfers such a line load to the opposite side. do. In this case, since the stress (load / sectional area) changes linearly due to the linear change in the size of the cross section, the tapered portion 110 is somewhat to the cross section of the tapered portion 110 joined to the flange member 130. It is easy to predict whether the stress is concentrated.

In addition, the taper 110 has an effect of reducing the occurrence of the bending moment when the bending moment occurs in the steel pipe brace 10 according to the state of the band (not shown) to which the steel pipe brace 10 is connected. to provide.

That is, a bending moment may occur in the steel pipe brace 10 due to the bending, asymmetry, or external force of the strip, where the size of the cross-sectional area of one side of the tapered portion 110 is greater than that of the steel pipe brace 10. Since the moment is generated in the tapered portion 110 because it is smaller than the cross-sectional size, there is an effect of reducing the occurrence of the bending moment acting on the steel pipe brace 10. Accordingly, the steel pipe support structure can obtain a structurally stable effect.

On the other hand, the flange member 130 may be formed through a plurality of bolt holes 131. That is, the flange member 130 may be formed in the form of a disc or a square plate, for example, as shown in the embodiment, a plurality of bolt holes 131 penetrated at regular intervals in the flange member 130 This can be formed.

At this time, the distance between the adjacent bolt hole 131 is preferably formed to facilitate the assembly of the nut 133 to the fastening bolt 132 assembled to the bolt hole 131, for example, adjacent bolt hole The distance between the centers 131 may be two times or more than the diameter of the bolt hole 131.

On the other hand, the flange member 130 may be configured to include a positioning means 150 formed on one side to match the position of the bolt hole 131 between the flange member 130 to be joined.

At this time, the positioning means 150, a protrusion formed to protrude on one side of the one flange member 130, and a groove portion formed in the other flange member 130 facing the protrusion to be fitted Can be.

That is, the two steel pipe braces 10 are placed in a straight line to contact each of the flange members 130 so as to face each other, and then the protruding portion formed on any one of the flange members 130 may be connected to another flange member ( Fit into the groove of the 130. Accordingly, the position of the bolt hole 131 formed in each of the flange members 130 is matched to facilitate coupling of the fastening bolt 132 to the bolt hole 131.

In this case, as shown in FIG. 3 and FIG. 4 as an example of the positioning means 150, the protrusion is made of a polygonal shaft 151, the groove portion is the polygonal shaft so that the polygonal shaft 151 is fitted It may be made of a polygonal groove 153 formed according to the shape of the (151).

That is, one side of the flange member 130 to be joined to each other to form a polygonal shaft 151, the other side may form a polygonal groove 153 to which the polygonal shaft 151 is fitted. In this case, the polygonal shaft 151 and the polygonal groove 153 may be formed in a cross section of the same size, for example, it may be formed in a quadrangular or five angle. However, it is not preferable that the cross sections of the polygonal shaft 151 and the polygonal groove 153 are formed at seven or more angles because each corner may be fragile.

In addition, the shape of the protrusion and the groove is not limited to the polygonal shaft 151 and the polygonal groove 153, and the protrusion formed on one side of the flange member 130 to be joined to the groove formed on the other side. If it can be fitted to match the position of the bolt hole 131 can be applied without limitation.

For example, as in the other embodiment shown in Figure 5, the protrusion is formed of a key 155 of the projection shape, the groove portion has a cross section of the same size as the key 155 so that the key 155 is fitted It may be made of a key groove 157 formed as. At this time, any one of the two flange members 130 to be joined can be formed to have only the key 155 and the other has only the key groove 157, the key (one of the flange member 130) Both the 155 and the key groove 157 may be formed.

The bolt hole 131 because it is easy to match the position of the bolt hole 131 formed in the flange member 130 on both sides when connecting the steel pipe brace 10 facing by the positioning means 150 as described above ) Has the advantage that the construction of the fastening bolt 132 and the nut 133 can be easily assembled.

On the other hand, the flange member 130, as shown in Figure 3 and 4, is formed to protrude around the bolt hole 131 fastening reinforcement plate for strengthening the fastening force when bolting the flange member 130 of both sides And may further include 135.

That is, the fastening reinforcing plate 135 may be formed around the bolt hole 131 to prevent the fastening force is reduced when the bolt is fastened between the two flange members 130. Particularly, after the fastening bolt 132 is inserted into the bolt hole 131 by compression coupling by the nut 133, the two flange members 130 are bonded to each other, and then the steel pipe brace 10 is installed. By preventing the lifting action (Prying action) generated between the two flange members 130 by the tensile force or the bending moment acting on, it is possible to prevent the fastening force of the fastening bolt 132 is reduced.

On the other hand, with reference to Figures 2 to 6, looks at with respect to the steel pipe brace connection device 100 according to another aspect of the present invention. However, in order to avoid unnecessary duplication, detailed description of the same configuration is omitted, and the same configuration uses the same reference numerals.

Steel pipe reinforcement connecting device 100 according to an embodiment of the present invention, as shown in Figures 2 to 4, one side is coupled to the end of the steel pipe brace 10, the steel pipe brace 10 The taper part 110 is formed to have a smaller cross-sectional area toward the opposite direction, and integrally coupled to the other side of the taper part 110, and comprises a flange member 130 through which a plurality of bolt holes 131 are formed. Can be.

In this case, the taper 110 and the flange member 130 may be made of a metal material such as steel, aluminum alloy, cast iron, it may be integrally coupled to the steel pipe brace 10 by welding or the like.

Accordingly, the steel pipe brace connection device 100 according to an embodiment of the present invention does not need any management even after dismantling the connection of the plurality of steel pipe brace 10, there is an advantage that there is no fear of loss.

On the other hand, the cross-sectional area size of the flange member 130 may be formed to be the same as the cross-sectional area size of the steel pipe brace 10 or smaller than the cross-sectional area size of the steel pipe brace 10.

Accordingly, since the steel pipe brace connection device 100 has no protruding portion than the maximum outer diameter portion of the steel pipe brace 10, there is an advantage that can ensure the safety of the working space in the field.

On the other hand, the flange member 130 is fitted with protrusions and protrusions protruding on the opposite side of the surface coupled to the tapered portion 110 so as to easily match the position of the bolt hole 131 when combined with other members At least one of the grooves may be formed.

In this case, the other member may be another flange member 130 joined to the flange member 130 provided on either side of two adjacent steel pipe braces 10 connected thereto. The protrusion may protrude from one side of the flange member 130, and the groove may be formed at one side of the other flange member 130 facing the protrusion to be fitted.

As such, by fitting the protrusion to the groove, it is easy to match the positions of the bolt holes 131 formed in the flange members 130 on both sides, so that the flange member 130 is fastened to the fastening bolt 132 and the nut ( 133) there is an advantage that the assembly can be easily coupled to the bolt.

On the other hand, the flange member 130 may be provided with a fastening reinforcing plate 135 is formed to protrude around the bolt hole 131 to strengthen the fastening force when the bolt is coupled.

That is, the fastening reinforcing plate 135 may be formed around the bolt hole 131 to prevent the fastening force of the fastening bolt when the bolt is coupled between the two flange members 130. Particularly, after the fastening bolt 132 is inserted into the bolt hole 131 by compression coupling by the nut 133, the two flange members 130 are bonded to each other, and then the steel pipe brace 10 is installed. By preventing the lifting action (Prying action) generated between the two flange members 130 by the tensile force or bending moment acting on, it is possible to prevent the tightening force of the bolt coupling is reduced.

On the other hand, the steel pipe reinforcement connecting device 100 is not applied only to the circular steel pipe as shown in Figures 2 to 5, for example, the reinforcement 10 of the square steel pipe as shown in Figure 6 another embodiment Of course, it can be applied to.

At this time, the flange member 130 is preferably formed in a rectangular cross section according to the cross-sectional shape of the square steel pipe. This is to ensure the stability of the work space at the construction site by the flange member 130 so as not to have a portion protruding than the steel pipe brace 10.

Hereinafter, a method of connecting the plurality of steel pipe braces 10 supporting the retaining wall using the steel pipe brace connection device 100 will be described. However, the connection method of the steel pipe support device 100 according to an embodiment of the present invention is not limited to the following description, and various connection methods may be applied if the technical features of the present invention are not limited.

First, one side of the tapered portion 110 is welded to an end of two steel pipe braces 10 connected to a strip to support the earth wall, and the flange member 130 is formed on the other side of the tapered portion 110. ) Is integrally joined by welding or the like.

Thereafter, the two steel pipe braces 10 are placed in a straight line to contact the flange members 130 so as to face each other, and then the positions of the bolt holes 131 formed on both flange members 130 are aligned. At this time, by fitting the protrusion and the groove of the positioning means 150, the position of the bolt hole 131 can be easily matched.

Next, after inserting the fastening bolt 132 into each of the bolt hole 131 formed in the one flange member 130, the nut 133 to the fastening bolt 132 to the flange member 130 of the other side. Screw in. Accordingly, the flange members 130 at both sides may be joined by the screw fastening force between the fastening bolt 132 and the nut 133 to connect the two steel pipe braces 10.

At this time, through the fastening reinforcement plate 135 formed around the bolt hole 131 to the flange member 130, even when a tensile force or the like acts on the steel pipe support 10 to the flange member 130 joined Prying action can be prevented from occurring.

Using the steel pipe reinforcement connection structure and the steel pipe reinforcement connecting device 100 according to the present invention, there is no protruding portion than the steel pipe reinforcement in the steel pipe reinforcement connecting device can ensure the stability in the work space, the steel pipe Since the support device is integrally joined to the steel pipe supporter, there is no need to manage the connection device separately even after dismantling the connected steel pipe supporter and there is no fear of loss.

In addition, according to an embodiment of the present invention, it is easy to determine the thickness and size of the connection device to an appropriate degree by the shape of the tapered portion, and even if the bending moment occurs in the steel pipe brace, such a bending moment is reduced The structurally stable effect can be obtained.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

100: steel pipe brace connection device 110: tapered portion
130: flange member 131: bolt hole
135: tightening plate 150: positioning means
151: polygonal shaft 153: polygonal groove

Claims (11)

In the connection structure of a plurality of steel pipe braces supporting the retaining wall,
One side is integrally coupled to the end of the steel pipe brace, tapered portion formed to be smaller in cross-section toward the opposite direction of the steel pipe brace; And
And a flange member integrally coupled to the other side of the tapered portion.
By connecting the plurality of steel pipe brace in the longitudinal direction by joining the flange member provided at the ends of the plurality of steel pipe brace,
The flange member is formed through a plurality of bolt holes,
The flange member, the steel pipe support structure comprising a positioning means formed on one side to match the position of the plurality of bolt holes between the flange member to be joined. The method of claim 1,
The cross-sectional area size of the flange member is the same as the cross-sectional area of the steel pipe brace, or less than the size of the steel pipe brace, characterized in that the steel pipe brace connection structure. delete delete The method of claim 1, wherein the positioning means
A protruding portion protruding from one side of the flange member; And
A groove formed in another flange member facing the protrusion to be fitted;
Steel pipe support structure, characterized in that configured to include. The method of claim 5,
The protrusion is made of a polygonal axis,
The groove portion is a steel pipe support structure, characterized in that consisting of a polygonal groove formed in accordance with the shape of the polygonal shaft so that the polygonal shaft is fitted. The method according to claim 5 or 6,
The flange member is formed to protrude around the bolt hole is a steel pipe support structure, characterized in that it further comprises a fastening reinforcement plate for strengthening the fastening force when the bolt coupling the flange members on both sides. In the connecting device of a plurality of steel pipe braces supporting the earth wall,
A tapered portion having one side coupled to an end of the steel pipe brace, the cross section being smaller in an opposite direction of the steel pipe brace; And
And a flange member integrally coupled to the other side of the tapered portion and having a plurality of bolt holes penetrated therethrough.
The flange member is provided with a protrusion or groove on the side opposite to the surface coupled to the tapered portion,
Protrusions and grooves of the flange member are provided to be fitted to the grooves or protrusions formed in the other member to correspond to the protrusions and grooves, respectively, so that the flange member is easy to match the position of the bolt hole when engaged with the other member Steel pipe brace connector, characterized in that the. 9. The method of claim 8,
The cross-sectional area size of the flange member is the same as the cross-sectional area size of the steel pipe brace, or less than the size of the cross-sectional area of the steel pipe brace, characterized in that the steel pipe brace connection device. delete 10. The method according to claim 8 or 9,
The flange member is protruded around the bolt hole is a steel pipe prop connection device characterized in that it has a fastening reinforcement plate for strengthening the fastening force when the bolt is coupled.

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