KR20070090345A - Pipe roof structures and construction method of pipe roof structures - Google Patents

Abstract

A structure of a steel pipe and a method for constructing the same is provided to reduce construction time and to achieve complete water-proof effect by using small connecting steel pipes as a stress resist member by connecting the small connecting steel pipes between huge steel pipes in a sliding manner. A structure of a steel pipe(200) comprises a plurality of steel pipes and a small connecting steel pipes(300). A horizontal groove(204) is horizontally formed at respective ends of the steel pipes. A plurality of supports(202) is inwardly formed at an upper and a lower part of the horizontal groove at regular intervals. An angle(206) is fixed at the opposite side of the horizontal groove. A plurality of small connecting steel pipes has smaller diameter than the steel pipes, and are installed between the steel pipes. The small connecting steel pipes have angles(302) corresponding to the horizontal grooves of the steel pipes. A horizontal groove(308) is formed at the opposite side of the angles. A plurality of supports(306) is inwardly formed at an upper and a lower part of the horizontal groove at regular intervals.

Description

Pipe roof structures and construction method of pipe roof structures}

1A and 1B are diagrams showing a state in which a conventional steel pipe loop structure is applied to a box shape and an arc shape, respectively.

Figures 2a to 2i is a schematic view showing the construction sequence of the steel pipe loop structure according to the present invention in sequence.

3a and 3b is a schematic view showing a tunnel structure to which a steel pipe loop structure according to the present invention is applied.

Figure 4 is a block diagram showing a coupling relationship of the steel pipe loop structure according to another embodiment of the present invention.

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

200: steel pipe 202: support

204: horizontal groove 206: angle

208: communication groove 300: small connecting steel pipe

302: angle 304: communication groove

306: support 308: horizontal groove

400: steel bar 500: rebar

The present invention relates to a steel pipe loop structure and its construction method, and more particularly, by connecting the small connecting steel pipes between the large steel pipes in a slide type, so that the small connecting steel pipes act as a stress burden material, the construction is easy The present invention relates to a steel pipe loop structure and a method of constructing the same, which shortens the air, and allows the steel pipes to be coupled in an aligned state so that waterproofing and all constructions are performed reliably.

In general, there is a structure construction method by the attachment and non-attachment in a way to build the structure in the ground.

When it is necessary to install sewage rocks, underground roadways, tunnel structures, etc. across existing roads and railroads, it is difficult to transfer obstacles due to construction, or it is impossible to fix them due to obstacles or obstacles in vehicle communication. In the non-adhesive structure construction method, it is necessary to move forward and reach the base of the concept of work tools on both sides of the crossing road or obstacles, and the typical non-adhesive underground structure construction method is the dog pull artificial method and the steel pipe loop method. Can be mentioned.

The ship prosthesis method involves passing horizontally and press-fitting steel pipes for supporting the housing about 600mm in advance from the forward base to the reaching base in the ground where the enclosure will pass, and then crossing the ground from the opposite arrival base of the towing vessel. After binding the PC steel wire to the manufactured body on the site, it is towed to remove the internal soil in the box, and to repeat the same towing and excavation work to install the structure in the ground.

However, this method may cause settlement of roads or obstacles on the upper part of the enclosure due to the propulsion load of the enclosure or the gap between the propulsion enclosure and the temporary steel pipe installed in the underground. Therefore, when the size of the enclosure increases, the traction is restricted and the size of the workplace is large, so it is difficult to work in a deep underground space.

In addition, when the connection between the housings is insufficient, there is a risk of leakage, etc. Due to the drawbacks of the hull prosthesis method, the steel pipe loop method is applied as a non-removable underground structure construction method.

Conventionally, the steel pipe loop structure forms a steel pipe loop by pressing and connecting steel pipes sequentially in the ground in which the structure is to be formed.

That is, in a state in which the steel pipes are sequentially pressed in, the steel pipes connected to each other are welded and fixed to be aligned in a horizontal or vertical state, and then steel materials are installed in the steel pipes.

Then, after digging the inside of the steel, the concrete is placed on the formwork to complete the construction of the tunnel and the like.

However, in the conventional steel pipe loop structure, as shown in Figs. 1 to 2, the steel pipes 10 are sequentially press-fitted, and then the portions that are connected to each other are placed on the steel plates 12 (the role of stress burden material), respectively. By welding at, there was a risk of misalignment in the horizontal and vertical state, and there was a problem that the workability due to the welding is poor and the construction is not good.

In addition, since the grouting 14 is installed on the upper portion of the steel plate 12 and the steel pipes 10 so as to be waterproof, the workability is not good and the air is delayed, and the construction cost is also increased. there was.

Thus, the present invention was devised in view of the above problems, by connecting the small connecting steel pipes between the large steel pipes in a slide type, by making the small connecting steel pipes act as a stress burden material, the construction is easy, It is an object of the present invention to provide a steel pipe loop structure and a method for constructing the steel pipe to be shortened as well as to ensure that the steel pipes are arranged in an aligned state so that waterproofing and all construction are performed.

Steel pipe loop structure of the present invention for achieving the above object, in the steel pipe loop structure applied to the steel pipe loop method for constructing the structure in the ground, to be installed after installing the work tool on both sides of the road or obstacle to be traversed In order to be press-fitted sequentially in accordance with the outline of the structure, horizontal grooves are formed on each side in a horizontal direction, and a plurality of supports are installed on the inside of the horizontal grooves at predetermined intervals up and down, and correspond to the horizontal grooves. On the opposite side to the steel pipe is fixed angle; The diameter of the steel pipe is smaller than, but installed between them, the angle corresponding to the horizontal groove of the steel pipe is installed, the horizontal groove corresponding to the angle of the steel pipe is formed on the opposite side of the angle of the horizontal groove Inwardly, the small connecting steel pipes having a plurality of support units installed on the upper and lower sides at predetermined intervals are sequentially intersected while being aligned with each other while being sequentially crossed.

In this case, it is preferable that the steel bar is fixedly connected through the bottom side of the steel pipe and the steel pipe so as to be positioned below the small connecting steel pipe connecting the steel pipe and the steel pipe.

In addition, it is preferable that communication grooves are formed at regular intervals between the angles of the steel pipes and the small connecting steel pipes.

In this case, through the horizontal groove and the communication groove of the steel pipes and the horizontal groove and the communication groove of the small connecting steel pipe is passed through the connector such as reinforcement can be combined with the steel pipes coupled laterally.

In addition, the construction method of the steel pipe loop structure according to the present invention, in the method of constructing the steel pipe loop structure applied to the steel pipe loop method for constructing the structure in the ground, after installing the work tool on both sides of the road to be crossed or obstacle Pushing and pushing the common steel pipe for the first time in accordance with the outline of the structure to be installed; Installing a support on each inner side of the steel pipe at regular intervals in a vertical direction; Forming a horizontal groove by cutting one side surface of the portion in which the support is installed in the steel pipe in a horizontal direction; Installing an angle corresponding to the horizontal groove of the steel pipe on one side of the small connecting steel pipe to be press-propelled; Coupling the angle of the small connection steel pipe to be press-fitted to the horizontal groove of the press-propelled steel pipe while slidingly fitting it in a lateral direction; Forming a communication groove at regular intervals between the angles of the press-fitted small connecting steel pipes, and installing a support at regular intervals in a vertical direction on one side thereof; Forming a horizontal groove by cutting one side of the portion of the small connection steel pipe in the horizontal direction in a horizontal direction; Installing an angle corresponding to a horizontal groove of the small connecting steel pipe on one side of the steel pipe to be press-propelled; Coupling the angle of the steel pipe to be press-propelled in a lateral direction while slidingly fitting the horizontal groove of the press-propelled small connecting steel pipe; And forming a communication groove at regular intervals between the angles of the press-propelled steel pipes, and installing a support at regular intervals in one vertical direction on one side thereof.

In this case, when the horizontal groove is formed by cutting one side of the site where the support is installed in the steel pipe in the horizontal direction, the horizontal groove may be formed before the press-fitting of the steel pipe, and the support is installed in the small connecting steel pipe. When the horizontal groove is formed by cutting one side of the portion in the horizontal direction, the horizontal groove may be formed before the push-in pushing of the steel pipe.

In addition, it is preferable to form a communication groove at regular intervals between the angles of the press-fitted small connecting steel pipes, and to form a communication groove at regular intervals between the angles of the press-propelled steel pipes.

In this case, through the horizontal grooves and the communication grooves of the press-propelled steel pipes and the small connecting steel pipes may be connected to the connector such as rebar.

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

2a to 2i sequentially show the construction sequence of the steel pipe loop structure according to the present invention, Figures 3a and 3b is a schematic diagram showing a tunnel structure to which the steel pipe loop structure according to the present invention is applied.

First, as shown in Figure 2a, the first press-propelled steel pipe 200 uses a constant diameter according to the size of the construction, using a conventional steel pipe.

As shown in FIG. 2B, an operator enters the inside of the steel pipe and installs the support 202 in the vertical direction at a predetermined interval on one side of the steel pipe 200 that is first push-propelled.

At this time, the support 202 is preferably fixed to the inner surface of the steel pipe 200 by welding, but is not limited to the fixing method.

Next, in the longitudinal direction of the support 202 is installed, that is, one side direction is cut in the longitudinal direction to form a horizontal groove 204, as shown in Figure 2c, wherein the load according to the earth pressure of the upper support ( By being supported by the 202, even if one side of the steel pipe 200 is cut and the horizontal groove 204 is formed, it is not crushed.

As such, when the first steel pipe 200 is press-propelled and the horizontal groove 204 is formed on one side thereof, the steel pipe 200 is formed on one side of the small connecting steel pipe 300 having a smaller diameter than the steel pipe 200. The horizontal groove 204 and the corresponding angle 302 is fixed.

That is, the angle 302 may be fixed to one side of the small connecting steel pipe 300 to be press-propelled at an interval corresponding to the length of the upper and lower horizontal grooves 204 of the steel pipe 200.

At this time, the fixing of the angle 302 is preferably fixed by welding, but may be fixed by bolts, and the fixing means and method is not limited.

As such, in the state where the angle 302 is fixed to one side of the small connection steel pipe 300 to be propelled, as shown in FIG. 2D, the inside of the horizontal groove 204 of the steel pipe 200 press-propelled the angle 302 is pressed. Push in while pushing the slide.

Next, as shown in FIG. 2E, a communication groove 304 is formed at regular intervals between the small connection steel pipe 300 and the angle 302, and an operator entering the steel pipe 200 is connected to the communication groove 304. The support 306 is installed at regular intervals in a vertical direction on one side of the small connecting steel pipe 300 through.

At this time, the support 306 is preferably fixed to the inner surface of the steel pipe 200 by welding, but is not limited to the fixing method.

Then, in the longitudinal direction of the support 306 is installed, that is, one side direction is cut in the longitudinal direction to form a horizontal groove 308, as shown in Figure 2f, wherein the load according to the earth pressure of the upper support ( By being supported by 306, even if one side of the small connecting steel pipe 300 is cut away, even if the horizontal groove 308 is formed, it is not crushed.

As such, when the small connecting steel pipe 300 is press-propelled and the horizontal groove 308 is formed on one side thereof, the horizontal groove 308 of the small connecting steel pipe 300 is formed on one side of the second steel pipe 200 again. ) And the corresponding angle 206 is fixed.

That is, the angle 206 may be fixed to one side of the steel pipe 200 to be press-propelled at an interval corresponding to the length of the upper and lower horizontal grooves 308 of the small connecting steel pipe 300.

At this time, the fixing of the angle 206 is preferably fixed by welding, but may be fixed by bolts, and the fixing means and method are not limited.

As such, in the state where the angle 206 is fixed to one side of the steel pipe 200 to be propelled, as shown in FIG. 2G, the inside of the horizontal groove 308 of the small connecting steel pipe 300 press-propelled the angle 206 is press-propelled. Push in while pushing the slide.

In addition, the communication groove 208 is also formed between the angles 206.

In this way, when the steel pipe 200 and the small connecting steel pipe 300 is connected while sliding in sequence, the steel pipe 200 and the small connecting steel pipe 300 are connected in a butted state to prevent separation from each other, press-fit Even if the propelled steel pipe is in the error position from the set position, it is possible to sufficiently correct the error while pushing-in pushing the steel pipe to be press-fitted.

On the other hand, between the steel pipe and the steel pipe, that is, the lower side of the small connecting steel pipe 300 through the bottom side portion of the steel pipe and the steel pipe for the compression and tension assist function, as shown in Figure 2h, it is preferable to connect the steel bar 400.

As described above, when the steel pipes 200 are connected to each other by using the small connecting steel pipes 300, the steel pipes are connected to each other in a state in which the steel pipes are in contact with each other so that the steel pipes 200 are integrally formed as shown in FIG. 2I. Is achieved.

Therefore, the steel pipe loop structure is more rigidly aligned, thereby maintaining the transverse direction, that is, the horizontal direction even under the load due to the pressure of the soil, and having a stronger transverse rigidity, so that a separate transverse support is required. There will be no.

In addition, by connecting the steel pipe 200 and the small connecting steel pipe 300 in a slide-butted state, the waterproof is surely made, of course, all the construction is made sure.

In this state, the earth and sand existing therein is taken out according to the push-in of the steel pipes, and the concrete or the mortar is cured by filling the concrete or mortar with the inside and connected to each other by the communication grooves and the horizontal grooves. The steel pipe loop structure is integrated.

As a result, the lateral coupling force of the steel pipes in the steel pipe loop structure is increased, and thus the lateral rigidity of the steel pipe loop structure is increased.

Meanwhile, through the communication grooves 208 and 304 and the horizontal grooves 204 and 308 formed in the steel pipes of the steel pipe loop structure, as shown in FIG. 4, the connector 500 such as reinforcing bars can be more firmly formed as a single structure. have.

That is, as described above, the steel pipe loop structures are communicated with each other by the communication grooves 208 and 304 and the horizontal grooves 204 and 308 formed in the steel pipe 200 and the small connecting steel pipes 300, thereby communicating with the communication grooves 208 and 304. When the plurality of rebars 500 are inserted and connected to the fixing length through horizontal grooves 204 and 308, and the concrete or mortar is cured by filling the inside of the steel pipe, the concrete or mortar is horizontal with the communication grooves. The grooves are connected to each other to form an integrated structure, as well as the connector such as the reinforcement 500 further increases the binding force of the steel pipes to further increase the lateral coupling force of the steel pipes in the steel pipe loop structure.

For reference, in the state in which the steel pipe 200 or the small connection steel pipe 300 is press-propelled and installed, support members 202 and 306 are installed at predetermined intervals at one side thereof, and a portion thereof is cut to form horizontal grooves 204 and 308 in the longitudinal direction. However, if the depth of the working paper is not large, a portion may be cut out to form a horizontal groove from the outside for convenience of work, and the support may be installed after pushing and pushing in this state, and the support may also be press-installed from the outside. You can also go ahead.

On the other hand, Figures 3a and 3b shows that the steel pipe loop structure according to the invention applied to the box-shaped and arched tunnel.

As described above, according to the present invention, by connecting the small connecting steel pipes between the large steel pipes in a slidable manner, by allowing the small connecting steel pipes to act as a stress burden material, the construction is easy, the air is shortened as well as steel pipes They are combined in an aligned state, which makes the waterproofing and all construction sure.

In other words, the steel pipes are repeatedly formed by sliding the steel pipes continuously using small connecting steel pipes to be aligned with each other, and the steel pipe loop structures are formed, and the steel pipe loop structures thus formed are filled and cured with concrete or mortar to be lateral. By providing an integrated steel pipe loop structure with a more solid binding force, when installing earthwork inside the structure for construction of the structure, only the temporary column is installed without installing a horizontal support beam due to the lateral rigidity of the steel pipe loop structure. The earthwork is possible, so the size of the temporary loop is reduced and the construction process is simple.

In addition, it is responsible for the stress-bearing material of the small connection steel pipe, but is connected to the butt without gaps, the waterproof and all the construction is reliably formed, there is no need for additional underground excavation and steel plate welding, as in the prior art In addition to this improvement, there is a very useful effect of shortening the air and reducing the construction cost.

Claims (10)

In the steel pipe loop structure applied to the steel pipe loop method for constructing the structure in the ground, After installing work tools on both sides of the road or obstacle to be traversed, they are sequentially press-fitted according to the outline of the structure to be installed, and horizontal grooves are formed on one side in a horizontal direction, and a predetermined interval is formed inside the horizontal grooves. A plurality of supports are installed on the upper and lower sides, and steel pipes having angles fixed to opposite sides corresponding to the horizontal grooves; The diameter of the steel pipe is smaller than, but installed between them, the angle corresponding to the horizontal groove of the steel pipe is installed, the horizontal groove corresponding to the angle of the steel pipe is formed on the opposite side of the angle of the horizontal groove The steel pipe loop structure, characterized in that the small connecting steel pipes are installed in a plurality of supports over the upper and lower spaces at a predetermined interval in the lateral direction in order to cross each other. The method of claim 1, The steel pipe loop structure, characterized in that the steel bar is fixedly connected through the bottom side of the steel pipe and the steel pipe to be located below the small connecting steel pipe connecting the steel pipe and the steel pipe. The method of claim 1, Steel pipe loop structure, characterized in that the communication groove is formed at a predetermined interval between each angle of the steel pipe and the small connecting steel pipe. The method of claim 3, wherein Steel pipe loop structure, characterized in that through the horizontal groove and the communication groove of the steel pipes and the horizontal groove and the communication groove of the small connecting steel pipes pass through the connector such as reinforcing the steel pipes are coupled to each other in one side. In the method of constructing a steel pipe loop structure applied to the steel pipe loop method for constructing a structure in the ground, After installing work tools on both sides of the road or obstacle to be traversed, pushing and pushing the common steel pipe for the first time according to the outline of the structure to be installed; Installing a support on each inner side of the steel pipe at regular intervals in a vertical direction; Forming a horizontal groove by cutting one side surface of the portion in which the support is installed in the steel pipe in a horizontal direction; Installing an angle corresponding to the horizontal groove of the steel pipe on one side of the small connecting steel pipe to be press-propelled; Coupling the angle of the small connection steel pipe to be press-fitted to the horizontal groove of the press-propelled steel pipe while slidingly fitting it in a lateral direction; Forming a communication groove at regular intervals between the angles of the press-fitted small connecting steel pipes, and installing a support at regular intervals in a vertical direction on one side thereof; Forming a horizontal groove by cutting one side of the portion of the small connection steel pipe in the horizontal direction in a horizontal direction; Installing an angle corresponding to a horizontal groove of the small connecting steel pipe on one side of the steel pipe to be press-propelled; Coupling the angle of the steel pipe to be press-propelled in a lateral direction while slidingly fitting the horizontal groove of the press-propelled small connecting steel pipe; And forming a communication groove at regular intervals between the angles of the press-fitted steel pipes, and installing a support at regular intervals in a vertical direction on one side thereof. 12. The method of claim 5, When the horizontal groove is formed by cutting one side of the portion in which the support is installed in the steel pipe in the horizontal direction, the horizontal groove is formed before the press-fitting of the steel pipe, the construction method of the steel pipe loop structure. The method of claim 5, When the horizontal groove is formed by cutting one side of the portion in which the support is installed in the small connecting steel pipe in the horizontal direction, the horizontal groove is formed before the press-fitting of the steel pipe, the construction method of the steel pipe loop structure. The method of claim 5, Construction method of the steel pipe loop structure, characterized in that for forming a communication groove at regular intervals between the angle of the press-propelled small connection steel pipe. The method of claim 5, Construction method of a steel pipe loop structure, characterized in that for forming a communication groove at a predetermined interval between the angle of the press-propelled steel pipe. The method according to claim 8 or 9, Construction method of the steel pipe loop structure, characterized in that for connecting the connector such as reinforcing bars through the horizontal grooves and the communication grooves of the press-propelled steel pipes and the small connecting steel pipes.

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