KR101281320B1 - Connectable multi-layer tube and method for connecting the same - Google Patents

Abstract

Connection type multi-steel pipe according to the present invention and a connection method thereof, the external steel pipe and the multi-steel pipe and at least one of the multi-steel pipe provided with at least one inner steel pipe inside the outer steel pipe, one side of the inner steel pipe of one multi-steel pipe Is connected, the other side comprises a connection steel pipe fitted into the inner steel pipe of the other multiple steel pipe, and comprises a connection-type multi-steel pipe filled with a filling between the outer steel pipe and the inner steel pipe and the inner steel pipe, such as According to the present invention, it is possible to easily connect the multiple steel pipes continuously through the connecting steel pipes, and also improve the integrity with the concrete filled inside and outside through a plurality of holes formed through the outer circumferential surface of the connecting steel pipes. It can be effective.

Description

CONNECTABLE MULTI-LAYER TUBE AND METHOD FOR CONNECTING THE SAME}

The present invention relates to a connection-type multi-steel pipe and a connection method thereof, and more particularly, to a connection-type multi-steel pipe and a connection method thereof, which enables to easily connect a multi-steel pipe, such as a double steel pipe.

In recent years, due to the demand for efficient use of land and the development of construction technology, most buildings are designed and constructed as multi-layered multi-layered buildings. In order to maximize the use of the land, the trend is becoming ultra high rise to more than 40 floors.

In designing and constructing such high-rise structures, steel structures or steel-reinforced concrete structures having good working conditions and excellent construction efficiency have been preferred to conventional reinforced concrete structures. In addition, in designing the pillar member in such a high-rise structure, it is frequently used because the pillars or composite pillars reinforced with high strength concrete can be planned to an appropriate size to effectively use the interior space of the building.

When we look at the trend of domestic research on composite columns, we have studied the existing steel formed Reinforced Concrete system (hereinafter referred to as SRC structure). Steel tube system (hereinafter CFT structure) has been extensively researched.

The concrete filled steel pipe (CFT) is made by filling the concrete in the steel pipe, the structure that resists high axial force by adopting the concrete filled steel pipe to the pillar member of the main structural members of the frame is called CFT structure. The CFT structure does not require formwork, and has an advantage of improving rigidity, strength, deformation capacity, etc. due to mutual restraint action between concrete and steel pipes filled therein. In particular, since the steel is located at the outermost part of the member, the bending performance and the torsional performance of the member are improved.

However, in the case of the CFT structure, first, if the combination of the strength of the steel pipe and the concrete is appropriate, the CFT column may exert an axial compressive cross-sectional force greater than the sum of the yield strengths of both by the confined effect on the inner concrete of the steel pipe. However, if the axial compression force is greater than a certain level, the lateral restraint force applied to the steel pipe is increased, so that the steel pipe is no longer resistant to the lateral restraint force, so there is a problem in that the cross-sectional size must be relatively large to prevent this.

Moreover, since the steel is exposed to the outside, when exposed to heat during the occurrence of a fire, there is a problem that the strength is lowered and the lateral restraint effect cannot be sufficiently exhibited.

On the other hand, the present applicant is to solve the problem of the conventional concrete filling steel pipe formed of a single steel pipe, a multi-steel pipe with improved yield strength and fire resistance by arranging the inner steel pipe separately in the concrete having a relatively low thermal conductivity compared to the steel pipe and such a multi-steel pipe The present invention relates to a connection type multiple steel pipe that can be easily connected continuously.

The present invention has been proposed in order to improve the CFT structure according to the prior art as described above, and an object of the present invention is a connection type multi-steel pipe and a multi-steel pipe, such as a double steel pipe, which can be easily connected continuously, which is an advanced type of a simple CFT column. To provide a connection method.

As a technical aspect for achieving the above object, the present invention, the outer steel pipe and at least one inner steel pipe is provided inside the outer steel pipe and the multiple steel pipe when connecting two, one side of one of the multiple steel pipe Connected to the inner steel pipe, the other side includes a connecting steel pipe fitted into the inner steel pipe of the other multi-steel pipe, and provides a connection-type multi-steel pipe is filled between the outer steel pipe and the inner steel pipe and the inner steel pipe filling.

Preferably, the connection steel pipe, when interpolated into the inner steel pipe of the other multi-steel pipe, may be formed narrower in the direction in which it is fitted.

More preferably, the connection steel pipe, when extrapolated to the inner steel pipe of the other multi-steel pipe, may be formed wider in the direction in which it is fitted.

More preferably, the connection steel pipe may be provided with a plurality of holes formed through the outer circumferential surface to reinforce the integrity of the filling with the filling inside or outside the inner steel pipe.

On the other hand, the present invention as another aspect, in the method of connecting the connection-type multi-steel pipe described above, the step of joining the connection steel pipe to one side of the inner steel pipe of one of the multiple steel pipe and the connection steel pipe provided in the one multiple steel pipe It is inserted into the other side of the inner steel pipe of the other one of the multiple steel pipe to provide a multi-steel pipe connecting method comprising the step of connecting the multiple steel pipe.

Preferably, when the connecting steel pipe is disposed inside the inner steel pipe, filling the filling between the outer steel pipe and the inner steel pipe of the multi-steel pipe in the connecting steel pipe bonding step, after the multi-steel pipe connecting step, The method may further include filling the inner steel pipe with a filler.

More preferably, when the connecting steel pipe is disposed outside the inner steel pipe, filling the inner steel pipe in the connecting steel pipe joining step, and after the multi-steel pipe connecting step, the outer steel pipe and the multi-steel pipe The method may further include filling a filler between the inner steel pipes.

More preferably, in a state in which the multiple steel pipes are connected to each other, the method may further include filling a filler between the outer steel pipe and the inner steel pipe of the multi-steel pipe and inside the inner steel pipe.

According to the connection type multiple steel pipe and the connection method thereof according to the present invention, there is an effect that can be easily and continuously connected to the multiple steel pipe using the connection steel pipe provided on the inner or outer side of the inner steel pipe.

In addition, there is an effect that can improve the integrity of the concrete filled in and out of the medium through a plurality of holes formed through the outer peripheral surface of the connection steel pipe.

1 is a perspective view of embodiments of the connection-type multiple steel pipe according to the present invention
Figure 2 is a cross-sectional view of embodiments in which the connection-type multi-steel pipe according to the present invention is differently applied to the size of the outer steel pipe and the inner steel pipe as needed
Figure 3a to 3c is a configuration diagram showing a connection method of the connection type multiple steel pipe in the case of Figure 2 (a)
Figure 4a to 4c is a configuration diagram showing a connection method of the connection type multiple steel pipe in the case of Figure 2 (b)
5a to 5c is a configuration diagram showing a connection method of the connection-type multiple steel pipe in the case of FIG.
6a to 6c is a flow chart showing a method for connecting multiple steel pipes in each case of (a) to (c) of FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail the connection type multi-steel pipe and connection method thereof according to the present invention.

First, the embodiments described below are embodiments suitable for understanding the technical features of the present invention, the connection type multiple steel pipe and the connection method thereof. 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.

1 shows embodiments of the connection steel pipe of the connection-type multi-steel pipe according to the present invention, Figure 2 shows an embodiment in which the size of the external steel pipe and the internal steel pipe is differently applied as necessary, the connection-type multi-steel pipe according to the present invention, 3 to 5 show a preferred connection method of the connection type multiple steel pipe in each case of FIG.

First, the connection type multi-steel pipe according to the present invention comprises a multi-steel pipe 10 is provided with at least one internal steel pipe 12 therein and a connection steel pipe 20 provided to connect the multi-steel pipe 10. Can be.

The multi-steel pipe 10 is a steel pipe having a structure in which a plurality of steel pipes are disposed inside or outside each other, and as shown in FIGS. 1 to 5, one outer steel pipe 14 and one inner steel pipe 12. The double steel pipe is constructed as an example. However, if the structure is necessary, of course, the inner steel pipe 12 may be composed of two or more.

As explained in the background above, CFT columns have many advantages. On the other hand, double steel pipes have recently been studied as a power generation type of simple CFT columns. However, continuous connection of such double steel pipe in the longitudinal direction is not easy in structure.

Thus, in the present invention, the inner steel pipe 12 of the double steel pipe is provided with a connecting steel pipe 20 to enable the easy to continuously connect the double steel pipe in the longitudinal direction.

That is, the connection steel pipe 20 is configured so that one side is connected to the inner steel pipe 12a of one multiple steel pipe 10a, and the other side is fitted to the inner steel pipe 12b of the other multiple steel pipe 10b, Two multiple steel pipes 10 can be easily connected.

The connecting steel pipe 20 may be provided in the form of interpolated or extrapolated to the inner steel pipe 12, Figure 1 (a) shows the case of interpolation Figure 1 (b) shows the case of extrapolation.

First, referring to Figure 1 (a) and Figures 3a to 3c, the connection steel pipe 20 is formed to be narrowed in the direction to be inserted when inserted into the inner steel pipe 12b of the other multi-steel pipe (10b) Can be.

Specifically, the connection steel pipe 20 is one side is bonded to the inside of the inner steel pipe 12a of one multi-steel pipe (10a), the other side of the inner steel pipe (12b) of the other multi-steel pipe (10b) Can be inserted.

At this time, the connection steel pipe 20 is easily formed inside the other inner steel pipe 12b so that the cross-sectional area is narrowed in the direction in which it is fitted.

Next, referring to Figure 1 (b) and Figures 4a to 4c, the connection steel pipe 20 is formed to be widened in the direction to be fitted when extrapolated to the inner steel pipe 12b of the other multi-steel pipe (10b) Can be.

Specifically, the connection steel pipe 20 is one side is bonded to the outside of the inner steel pipe 12a of one of the multiple steel pipe (10a), the other side of the inner steel pipe (12b) of the other multiple steel pipe (10b) Can be inserted.

At this time, it is easy to insert the outer side of the inner steel pipe 12b, that is, the other inner steel pipe 12b is easy to insert into the inner side of the connecting steel pipe 20, the connecting steel pipe 20 is inserted in the direction It is preferable that the cross-sectional area is wider.

Here, in the drawings, the connection steel pipe 20 is provided in a circular shape, but is not limited thereto. For example, the connection steel pipe 20 may be provided in a square shape, in which case there is an advantage that it is easier to manufacture than a circular.

Referring to FIG. 1, the connection steel pipe 20 may include a plurality of holes 22 formed through the outer circumferential surface so as to reinforce the integrity of the filling with the inside or the outside of the inner steel pipe 12.

For example, as shown in (a) of FIG. 1 and FIGS. 3a to 3c, the connecting steel pipe 20 is coupled to the inside of one inner steel pipe 12a and the bottom of the other inside. It fits inside the steel pipe 12b, and one inner steel pipe 12a and the other inner steel pipe 12b are filled with concrete as a filler.

At this time, the plurality of holes 22 provided in the upper portion of the connecting steel pipe 20 is filled with concrete to improve the unity with the concrete to improve the resistance to shear force. In addition, the plurality of holes 22 provided at the lower portion of the connecting steel pipe 20 also fill the concrete so that the concrete is filled in and out of the lower portion of the connecting steel pipe 20 to improve the integrity with the concrete filled at the lower portion. Can be.

That is, the concrete filled in the plurality of holes 22 serves as a wedge to increase the shear force of the connection steel pipe 20, it is possible to improve the resistance to the tensile behavior of the upper, lower connection portion coupled by the fitting.

On the other hand, with reference to Figures 3 to 6, looks at with respect to the multiple steel pipe connection method according to another aspect of the present invention.

Multi-steel pipe connection method according to an embodiment of the present invention, the step of joining the connecting steel pipe 20 to one side of the internal steel pipe 12a of one of the multiple steel pipe (10a) (S10) and the one of the multiple steel pipe (10a) And connecting the multiple steel pipes 10a and 10b to the other side of the inner steel pipe 12b of the other multi-steel pipe 10b by connecting the multiple steel pipes 20b provided at (S20). Can be.

That is, in the joining step (S10) of the connection steel pipe 20, the connection steel pipe 20 can be integrally bonded to the inside or the outside of one side of the inner steel pipe 12a of any one of the multiple steel pipe (10a). . And, this process can be made in the factory and transferred to the site.

On the other hand, the step of connecting the multi-steel pipe (10a) (10b) (S20) is connected to the internal steel pipe (12a) of any one of the multi-steel pipe (10a) part of the connection steel pipe 20 integrally bonded to the site By transporting, it is connected to the internal steel pipe 12b of the other multiple steel pipe (10b) to connect the multiple steel pipe (10a) (10b). Thereafter, the two multiple steel pipes 10a and 10b may be firmly connected by filling concrete in the multiple steel pipes 10a and 10b connected as described below.

3A to 3C show a case in which the connecting steel pipe 20 is disposed inside the inner steel pipe 12, and FIG. 6A shows a flowchart illustrating a connecting method in this case.

3A to 3C, when the connecting steel pipe 20 is disposed inside the inner steel pipe 12, the outside of the multi-steel pipe 10a in the joining step (S10) of the connecting steel pipe 20. Filling the filling between the steel pipe (14a) and the inner steel pipe (12a) (S11), and after the multi-steel pipe connecting step (S20), further comprising the step of filling the filler in the inner steel pipe (12) (S31) Can be.

That is, in the factory bonded to the inner steel pipe 12a inside the inner steel pipe 12a of the multi-steel pipe 10a as shown in Figure 3a (S10), the inner steel pipe 12a and the outer steel pipe ( Fillings such as concrete can be filled between 14a) (S11). In particular, when the space between the inner steel pipe (12a) and the outer steel pipe (14a) is narrow, it may take a considerable time to place concrete in this space at the site, so the site work time by placing in the factory as described above It can be shortened.

Next, as shown in the embodiment shown in Figure 3b, by inserting the connection steel pipe 20 inside the inner steel pipe 12b of the other multi-steel pipe (10b) two multi-steel pipe (10a) manufactured as described above 10b may be connected (S20). At this time, the connection steel pipe 20 may be formed to have a narrow cross-sectional area in the direction to be easily inserted into the inner steel pipe 12b of the other multiple steel pipe (10b).

Thereafter, as shown in FIG. 3C, the filling material is filled in the inner and lower inner steel pipes 12 connected to each other (S31) so that the two multiple steel pipes 10a and 10b may be integrally combined. In this case, a plurality of holes 22 may be formed in the connection steel pipe 20 to reinforce the integrity of the filling with the inside of the inner steel pipe 12.

Meanwhile, FIGS. 4A to 4C show a case in which the connecting steel pipe 20 is disposed outside the inner steel pipe 12, and FIG. 6B shows a flowchart illustrating a connecting method in this case.

4A to 4C, when the connecting steel pipe 20 is disposed outside the inner steel pipe 12, a filler material is filled in the inner steel pipe 12a in the joining step S10 of the connecting steel pipe 20. Filling (S12), after the multi-steel pipe connection step (S20), and further comprising the step (S32) of filling the filler between the outer steel pipe 14 and the inner steel pipe 12 of the multi-steel pipe (10) Can be.

That is, in the factory to join the steel pipe 20 for connection to the inner steel pipe 12, the outer side of the multi-steel pipe 10 as shown in Figure 4a (S10), the filling material such as concrete to the inner steel pipe (12a) Can be charged (S12). In particular, when the diameter of the inner steel pipe 12a is small, it is possible to shorten the working time in the field by placing concrete on the inner steel pipe 12a in the factory.

Next, as shown in the embodiment shown in Figure 4b, by inserting the connection steel pipe 20 to the outside of the inner steel pipe of the other multi-steel pipe 10b can be connected to the two multi-steel pipe 10 produced as described above There is (S20). At this time, the connection steel pipe 20 is preferably formed so that the cross-sectional area is widened in the direction to be easily inserted to the outside of the inner steel pipe 12b of the other multi-steel pipe (10b).

Thereafter, as shown in FIG. 4C, the two steel pipes may be integrally coupled by filling between the connected upper and lower outer steel pipes 14 and the inner steel pipes 12 (S32). In this case, as described above, a plurality of holes 22 may be formed in the connection steel pipe 20 to reinforce the integrity of the filling material.

Meanwhile, another method of connecting multiple steel pipes is illustrated in FIGS. 5A to 5C, and a flowchart illustrating a connection method in this case is illustrated in FIG. 6C.

5A to 5C, in the state where the multi-steel pipe 10 is connected to each other, between the outer steel pipe 14 and the inner steel pipe 12 of the multi-steel pipe 10 and the inside of the inner steel pipe 12 It may further comprise the step (S33) of filling the filling.

That is, in the factory, as shown in Figure 5a, the connecting steel pipe 20 inside the inner steel pipe (12a) of the multi-steel pipe (10a) (S10), the connecting steel pipe as shown in Figure 5b The two multiple steel pipes 10a and 10b may be connected by inserting 20 inside the internal steel pipe 12b of the other multiple steel pipe 10b (S20). In this case, as described above, the connection steel pipe 20 may be formed to have a narrow cross-sectional area in a direction that is easily inserted into the inner steel pipe 12b of the other multi-steel pipe 10b.

Thereafter, in the state in which the multiple steel pipes 10a and 10b are connected to each other, a filler is provided between the outer steel pipe 14 and the inner steel pipe 12 of the multi-steel pipe 10 and inside the inner steel pipe 12. Filling (S33) can be combined integrally the two multiple steel pipe (10). In this case, as described above, a plurality of holes 22 may be formed in the connection steel pipe 20 to reinforce the integrity of the filling material.

5a to 5c show the multiple steel pipes 10 connected to each other. In order to fill the filling between the outer steel pipe 14 and the inner steel pipe 12 of the multi-steel pipe 10 and the inside of the inner steel pipe 12, the connection steel pipe 20 to the inner steel pipe 12 Although shown in the case of bonding to the inside of, but is not limited to this may also be applied to the case where the connection steel pipe 20 is bonded to the outside of the inner steel pipe 12.

By using the connection type multiple steel pipe and the connection method thereof according to the present invention, there is an effect that can be easily and continuously connected to the plurality of multiple steel pipe using a connection steel pipe provided on the inside or outside of the inner steel pipe.

In addition, there is an effect that can improve the integrity of the concrete filled in and out of the medium through a plurality of holes formed through the outer peripheral surface of the connection steel pipe.

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.

10,10a, 10b: Multiple steel pipe 12,12a, 12b: Internal steel pipe
14,14a, 14b: outer steel pipe 20: connection steel pipe
22: multiple holes

Claims (8)

External steel pipe 14 and the multiple steel pipe 10 is provided with at least one inner steel pipe 12 in the outer steel pipe 14; And
When the two multiple steel pipes 10a and 10b are connected, one side is connected to the internal steel pipe 12a of one multiple steel pipe 10a, and the other side is connected to the internal steel pipe 12b of the other multiple steel pipe 10b. Includes; connecting steel pipe 20 is fitted,
Connection type multiple steel pipe is filled with a filler between the outer steel pipe 14 and the inner steel pipe 12 and the inner steel pipe 12. The method of claim 1,
The connecting steel pipe (20) is connected to multiple steel pipes, characterized in that when the interpolation into the inner steel pipe (12b) of the other multiple steel pipe (10b) is formed narrower in the fitting direction. The method of claim 1,
When the connection steel pipe 20 is extrapolated to the inner steel pipe (12b) of the other multi-steel pipe (10b), the connection type multiple steel pipe, characterized in that it is formed wider in the fitting direction. The method of claim 1,
The connection steel pipe 20 is a connection type, characterized in that provided with a plurality of holes 22 formed through the outer circumferential surface to strengthen the integrity of the filling with the filling inside or outside of the inner steel pipe 12. Multiple steel pipe. In the method of connecting the connection type multiple steel pipe according to any one of claims 1 to 4,
Bonding the steel pipe 20 for connection to one side of the inner steel pipe 12a of one multi-steel pipe 10a (S10); And
Connecting the multiple steel pipes 10a and 10b by inserting the connection steel pipe 20 provided in the multiple steel pipe 10a into the other side of the internal steel pipe 12b of the other multiple steel pipe 10b. (S20);
Multiple steel pipe connection method comprising a. The method of claim 5,
When the connection steel pipe 20 is disposed inside the inner steel pipe 12,
Filling the filling between the outer steel pipe 14a and the inner steel pipe 12a of the multi-steel pipe 10a in the connection steel pipe joining step (S10) (S11),
After the multi-steel pipe connection step (S20), the multi-steel pipe connection method further comprising the step (S31) of filling the inner steel pipe (12). The method of claim 5,
When the connection steel pipe 20 is disposed outside the inner steel pipe 12,
Filling the filler in the inner steel pipe (12a) in the connecting steel pipe bonding step (S10),
After the multi-steel pipe connection step (S20), the multi-steel pipe connection further comprises the step (S32) of filling the filling between the outer steel pipe 14 and the inner steel pipe 12 of the multi-steel pipe (10). Way. The method of claim 5,
In the state in which the multi-steel pipe 10 is connected to each other, filling the filling between the outer steel pipe 14 and the inner steel pipe 12 of the multi-steel pipe 10 and the inside of the inner steel pipe 12 (S33) Multiple steel pipe connection method characterized in that it further comprises.

Images