KR101082033B1 - Outrigger for structure - Google Patents

Abstract

Disclosed is a building outrigger capable of reducing the amount of steel used to form a frame, suppressing cracking of concrete due to tensile force, and easily arranging mounting holes on which facility piping and the like are mounted.

The building outrigger is made of reinforcing steel and concrete, and the body portion connecting the core and the outer circumference of the building and provided to penetrate the body portion and includes a tension means for providing a compressive force to the concrete, the tension means, The body includes a plurality of first tension units installed to be disposed in a horizontal direction, and a plurality of second tension units disposed to be inclined with respect to the horizontal direction in which the first tension units are disposed, and spaced apart from each other.

According to such an outrigger for buildings, it is possible to reduce the amount of rebars that are overly disposed through the tension means to facilitate the construction work, thereby reducing the construction period and the construction cost, and also through the tension means By providing the compressive force to the concrete to suppress the cracks that can occur in the concrete strong and compressive force weak in the compressive force, and also the amount of reinforcing bar provided in the body portion by the first and second tension members, and at the same time the second tension member Since they are arranged to cross each other, there is an effect that can be more easily arranged mounting holes provided in the body portion.

Outrigger, Post Tension, High Strength Wire Rod

Description

Outriggers for Buildings {OUTRIGGER FOR STRUCTURE}

The present invention relates to an outrigger, and more particularly to an outrigger for buildings connecting the core of the building structure and the outer circumference pillars.

In general, core structures are installed in building structures to support lateral forces and other vertical loads caused by wind or earthquake loads.

In particular, in the case of building structures such as high-rise buildings or apartments, the outer pillars are installed around the core wall and the outriggers are used to connect the core wall and the outer pillars to each other so that not only the vertical loads acting on the structural structures but also the lateral forces due to wind loads. The pillars are divided so as to prevent excessive lateral displacement of the building structure.

On the other hand, outriggers are generally formed through reinforced concrete, in which case a significantly larger outrigger member is required, and thus there is a difficulty in reinforcement work because a large amount of rebar is used.

In addition, there are various problems on the deterioration of concrete quality due to overcrowded reinforcement. That is, as an example, the concrete quality is degraded due to the difficulty of compacting the concrete due to the overcrowded reinforcement.

In addition, the construction speed can be increased as the construction progresses through the repeatability of the structural frame and the member size reduction in the construction process of a typical building, but the outrigger is not continuously repeated, so the construction speed is increased. There is a problem that hinders the shortening of the period.

In addition, the general outrigger requires a dense reinforcement reinforcement takes a lot of time for construction work, there is a problem to extend the construction period by the installation of the outrigger.

On the other hand, as there is a need for dense reinforcement, there is a problem that the construction cost increases.

An object of the present invention is to provide an outrigger for buildings that can reduce the amount of steel used to form the frame.

Moreover, it aims at providing the outrigger for buildings which can suppress the cracking of concrete by a tensile force.

In addition, an object of the present invention is to provide an outrigger for buildings that can easily arrange a mounting hole in which facility piping and the like are mounted.

The outrigger for buildings according to the present invention is made of reinforcement and concrete, and includes a body portion connecting the core of the building and the outer circumference pillar and a tension means for providing a compressive force to the concrete, the tension means Is provided with a plurality of first tension unit is installed to be disposed in the horizontal direction in the body portion, and inclined with respect to the horizontal direction in which the first tension unit is disposed, a plurality of second tension unit to be spaced apart from each other; Can be.

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The first and second tension units may include first and second tension members made of high-strength wire, and may provide a compressive force to the concrete by post tension.

One end of the second tension member may be fixed to the core or the outer circumferential column, and the other end may be disposed to protrude upward from the body part.

The body portion may be provided with one or more mounting holes provided to be disposed in a portion other than the portion in which the reinforcing bars or the first and second tension members are disposed.

The plurality of second tension members may be disposed to cross at least two or more second tension members so that the mounting hole may be provided.

According to the present invention, it is possible to reduce the amount of reinforcing bars are disposed overly through the tension means, and the construction work is facilitated, thereby reducing the construction period and there is an effect that can reduce the construction cost.

In addition, by providing a compressive force to the concrete of the body through the tension means there is an effect that can suppress the cracks that can occur in the concrete strong in compression and weak in tensile force.

In addition, by arranging the second tension member to be inclined with respect to the first tension member and at the same time arranged to cross each other between the second tension member, it is possible to perform the tension work in the interior of the building during the tension work of the second tension member It is effective to secure stability.

In addition, the amount of rebar provided in the body portion is reduced by the first and second tension members, and at the same time, the second tension members are disposed to intersect with each other, so that mounting holes provided in the body portion can be more easily disposed. .

Hereinafter, a building outrigger according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a schematic diagram showing an outrigger for buildings according to an embodiment of the present invention.

Referring to Figure 1, the building outrigger 100 according to an embodiment of the present invention is provided in a high-rise building 10 having a plurality of floors, in order to connect the core 20 and the outer peripheral column 30 A plurality can be provided. On the other hand, the high-rise building 10 may be provided with a belt wall 40 for connecting the outer circumferential pillar 30 to each other on the floor on which the building outrigger 100 is installed.

Hereinafter, with reference to the drawings will be described in more detail.

2 is a plan view and a partial cross-sectional view showing an outrigger for buildings according to an embodiment of the present invention, Figure 3 is a block diagram showing an outrigger for buildings according to an embodiment of the present invention.

2 and 3, the building outrigger (100, hereinafter referred to as "outrigger"), for example, includes a body portion 120 and the tension means 140.

Body portion 120 may be composed of a reinforcement 122 and concrete 124, it can connect the core 20 and the outer peripheral column 30 of the building (10).

Reinforcement 122 is provided to form a skeleton of the body portion 120, may be provided in the body portion 120 to be disposed inclined with respect to the vertical direction or horizontal direction or horizontal direction.

Here, the horizontal direction means a horizontal direction of the drawing, and means a direction parallel to the ground. In addition, the vertical direction refers to the vertical direction of the drawings and refers to the direction perpendicular to the horizontal direction.

On the other hand, the body portion 120 may be provided only by the reinforcing bars 122 of about 30 to 40% less than the reinforcing bars conventionally provided in the outrigger by the tension means 140 to be described later. That is, the amount of rebar provided in the body portion 120 may be reduced as compared with the conventional outrigger.

Concrete 124 is a concrete that is generally used in buildings, which corresponds to the obvious in the art, so a detailed description thereof will be omitted.

In addition, the body portion 120 may include a plurality of mounting holes 126 used as a passage through which facility piping (not shown) is installed. On the other hand, the mounting hole 126 may be provided in the body portion 120 more easily than when provided in the conventional outrigger. A detailed description thereof will be described later.

The tension means 140 may be provided to penetrate the body portion 120 to provide a compressive force to the concrete 124.

To this end, the tension means 140 may include, for example, a first tension unit 150 and a second tension unit 160.

The first tension unit 150 is installed to be disposed in the horizontal direction on the body portion 120, it may be made of a plurality. In other words, the first tension unit 150 may be disposed in the horizontal direction through the body portion 120 and may be disposed on the upper side and the lower side of the body portion 120, respectively.

On the other hand, the first tension unit 150 may provide a compressive force to the concrete 124 of the body portion 120 by post tension. To this end, the first tension unit 150 may be provided with a first tension member 152. As an example, the first tension member 152 is disposed to penetrate the outer circumferential pillar 30, the body 120, the core 20, the body 120, and the outer circumferential pillar 30 as illustrated in FIG. 4. Can be.

However, the present invention is not limited thereto, and the first tension member 52 may penetrate only one body portion 120.

Meanwhile, the pillar 30, the core 20, and the outrigger 100 may be connected to each other by the first tension member 152, so that the horizontal load carrying capacity through the outrigger 100 may be improved. In addition, the tensioning of the first tension member 152 may be made on the outer side of the outer pillar (30). In this case, there is a risk in tensioning but the horizontal load carrying capacity can be improved.

In addition, although not shown in the drawing, the first tension unit 150 may be provided with a sheath tube, a tension fitting, a grouting hose, etc. to provide a compressive force to the concrete 124 of the body 120 by post tension. have.

However, the configuration for the post-tension corresponds to the obvious matters in the art, and a detailed description thereof will be omitted.

The second tension unit 160 may be disposed to be inclined with respect to the horizontal direction in which the first tension unit 150 is disposed, and may also be formed in plurality and spaced apart from each other.

In addition, the second tension unit 160 may also include a second tension member 162 to provide a compressive force to the concrete 124 of the body portion 120 by post tension, although not shown in the drawings, Sheath pipes, tension fittings, grouting hoses and the like can be provided.

However, the configuration for the post-tension corresponds to the obvious matters in the art, and a detailed description thereof will be omitted.

Meanwhile, since the first and second tension members 152 and 162 installed to penetrate the body 120 may form a frame of the body 120, the outrigger 100 according to an embodiment of the present invention is conventionally known. The rebar 122 may have only about 30 to 40% less than the rebar provided in the outrigger. That is, compared with the conventional outriggers, the amount of reinforcing bars 122 provided in the body part 120 may be reduced.

Accordingly, the reinforcement of the reinforcement 122 which is densely arranged can be reduced, so that construction period can be shortened and construction performance can be improved.

On the other hand, at least two or more second tension member 162 may be disposed to cross the mounting holes 126 to be easily provided.

In more detail, the mounting holes 126 are generally provided in a space where the reinforcing bars 122 are not disposed, and the reinforcing bars 122 are densely arranged in a diagonal direction to improve structural strength. However, in this case, it is difficult to arrange the mounting hole 126 due to the reinforcing bar 122 is densely disposed.

However, the second tension member 162 of the outrigger 100 according to the present invention may be arranged to cross. In addition, as described above, the first and second tension members 152 and 162 may reduce the amount of reinforcing bars 122 provided in the body 120.

That is, as the amount of the reinforcement 122 provided in the body portion 120 is reduced and the second tension member 162 is disposed to intersect, the reinforcement 122 and the first and second tension members (eg, the body portion 120) are disposed. The area where 152 and 162 are disposed can be reduced. As a result, the empty space provided in the body 120 increases, so that the mounting hole 126 may be more easily disposed.

Meanwhile, one end of the second tension member 162 may be fixed to the core 20 or the outer circumferential column 30, and the other end may be disposed to protrude to the upper portion of the body 120.

That is, one end of the second tension member 162 may be fixed to the core 20 or the outer circumferential column 30, thereby ensuring construction efficiency. In other words, since the tension work may be performed through one end of the second tension member 162 during the tension work, the tension work may be more easily performed.

In addition, the other end may be arranged to protrude to the upper portion of the body portion 120, the pump car (not shown) or hydraulic jockey (not shown) in the upper portion of the body portion 120 during the tension operation of the second tension member 162 Tension can be done through the back. Accordingly, the tension work can be performed in the interior space of the building, thereby ensuring construction stability.

As described above, by providing the compressive force to the concrete 124 of the body portion 120 through the tension means 140 may have a crack suppression effect on the concrete 124 strong to the compressive force and weak to the tensile force.

In addition, through the tension means 140, it is possible to reduce the amount of reinforcing bars 122 are overly disposed, thereby facilitating the construction work, thereby reducing the construction period and the construction cost can be reduced.

In addition, by arranging the second tension member 162 to be inclined with respect to the first tension member 152 and at the same time by arranging the second tension member 162 to cross each other, the tension work of the second tension member 162. Tension work can be carried out inside the building to ensure construction stability.

In addition, since the first and second tension members 152 and 162 reduce the amount of reinforcing bars 122 provided in the body portion 120, and at the same time, the second tension members 162 are disposed to intersect with each other, the body portion 120. The mounting hole 126 provided in the can be arranged more easily.

1 is a perspective view showing an outrigger for buildings according to an embodiment of the present invention.

2 is a plan view and a partial cross-sectional view showing an outrigger for buildings according to an embodiment of the present invention.

3 is a block diagram showing an outrigger for buildings according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: Outrigger for building

120: body

140: tension

150: first tension unit

160: second tension unit

Claims (6)

A body part which is made of reinforcing steel and concrete and connects the core of the building and the outer circumferential column; And And a tension means provided to penetrate the body portion to provide a compressive force to the concrete. The tension means may include a plurality of first tension units installed to be disposed in the horizontal direction in the body portion and an inclination with respect to a horizontal direction in which the first tension units are disposed, and a plurality of second tension units spaced apart from each other. Building outriggers provided with. delete The method of claim 1, The first and second tension unit is provided with a first and second tension member made of a high-strength wire, the building outrigger for providing a compressive force to the concrete by post tension. The method of claim 3, wherein the second tension member One end is fixed to the core or the outer circumference pillar, the other end is a building outrigger disposed so as to protrude to the upper portion of the body portion. The method of claim 3, wherein the body portion The building outrigger having one or more mounting holes provided to be disposed in a portion other than the portion where the reinforcement or the first and second tension members are disposed. The method of claim 5, wherein the plurality of second tension member At least two or more second tension members are arranged to cross the building outrigger so that the mounting hole is provided.

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