KR20140014473A - Yieldable steel arches supports in tunnel construction - Google Patents

Abstract

The present invention relates to a tunnel steel rib having a yieldable transformation allow joint structure. The present invention provides a tunnel steel rib having a yieldable transformation allow joint structure which is capable of improving connecting force of a H-shaped steel rib by separately pressurizing a flange of the H-shaped steel rib by using multiple pressurizing clamps; and preventing damage and deformation of a connecting plate for connecting the H-shaped steel rib by easily controlling pressurizing torque of the H-shaped steel rib. The present invention for achieving the above purpose relates to a steel rib comprising: multiple H-shaped steel ribs installed along an excavation side of a tunnel; and a yieldable connecting member for connecting the H-shaped steel ribs, and for generating slip with the H-shaped steel rib when overload is applied. The yieldable connecting member comprises: an upper connecting plate where one end is attached to an outside of an upper flange of one H-shaped steel rib, and the other side is attached to an outside of an upper flange of the other H-shaped steel rib to be connected; a lower connecting plate where one end is attached to an outside of a lower flange of the H-shaped steel rib, and the other end is attached to an outside of a lower flange of the other H-shaped steel rib to be connected in order to face the upper connecting plate; multiple pressurizing clamps, which are combined to both ends of the upper connecting plate and the lower connecting plate through a fastening bolt and a nut, for pressurizing and fixating both ends of the upper connecting plate and the lower connecting plate; and a pressurizing bolt and a nut installed to connect a center of the upper connecting plate and the lower connecting plate for increasing welding force to the H-shaped steel rib.

Description

Yieldable steel arches supports in tunnel construction}

The present invention relates to a tunnel rigid beam having a livestock deformation allowance joint structure, which prevents permanent deformation and destruction of the support, reduces the cost of repair, and prevents collapse of the tunnel and prevents excessive support. It relates to a tunnel rigid beam having a.

In general, in order to prevent the sinking of the ground and the fall of the rock during the foundation work of the tunnel, arch foundations were installed along the excavation surface inside the tunnel and the shock concrete was poured to complete the tunnel foundation work.

Tunnel supports in Korea use grid supports and H-beam supports, each of which is assembled to each other through connecting members.

However, such jibo, but the jibo itself is made of high rigidity, but because the connecting member portion is weak, if the acupressure acts greater than the strength of the jibo to reach the destruction with permanent deformation in the connecting member portion.

Moreover, once the modified support material is impossible to reuse, there is a problem in that the cost of replacing and repairing the support increases.

In order to make up for the disadvantages of the support, a conventional livestock support was used as in Patent Publication No. 10-1989-0013497.

The livestock support is constructed by assembling two neighboring i-beams between two connecting bodies assembled through the fastening bolts, and when excessive loads exceeding strength are applied to the support, sliding occurs so that excessive load is rubbed. Absorption to artificially induce cross-sectional reduction.

However, there is a problem that it is very difficult to manufacture the connecting body to fit the shape of the outer surface of the i-beam.

In addition, even if the connection body is manufactured according to the shape of the i-beam, it is difficult to secure the actual contact area, and thus there is a problem that it is difficult to maintain the required friction strength.

In addition, because the connecting body is configured to surround the outer surface of the i-beam, there is a problem in the applicability in the field can not determine the livestock range (interval) after assembly.

Patent Document 10-1989-0013497 Patent Publication 10-2011-0029421

An object of the present invention for solving the above problems, by pressing the flange of the H-shaped steel beams separately using a plurality of pressure clamps to improve the fastening force of the H-shaped steel beams, easy to adjust the pressure torque of the H-shaped steel beams. It is to provide a tunnel rigid beam having a livestock deformation allowable joint structure to prevent deformation and breakage of the connection plate connecting the H-shaped steel beam to be made.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks, connecting a plurality of H-beams and the H-beams provided along the excavation surface of the tunnel, the overload action In the steel beam comprising a livestock connecting member to cause the H-shaped steel beam and the slip is generated, the livestock connecting member, one end is in close contact with the outer surface of the upper flange of the H-shaped steel beam and the other end to be connected An upper connection plate installed to be in close contact with the outer surface of the upper flange of the steel beam; A lower connection plate having one end in close contact with an outer surface of the lower flange of the H-shaped steel beam and the other end being in close contact with an outer surface of a lower flange of another H-shaped steel beam to be connected to face the upper connection plate; A plurality of pressure clamps coupled to both ends of the upper connection plate and the lower connection plate through fastening bolts and nuts to pressurize and fix both ends of the upper flange and the lower flange; It is installed to connect the center of the upper connection plate and the lower connection plate is characterized in that it comprises a pressing bolt and nut to improve the pressing force for the H-shaped steel beam.

In addition, the pressure clamp, a plurality of bolt holes are formed to enable the installation of the fastening bolt clamp body coupled to the opposite surface of the upper connection plate and the lower connection plate; It is formed so as to protrude on one side of the clamp body, the pressure protrusion is in close contact with the inner surface of the upper flange and the lower flange for pressing and fixing the upper flange and the lower flange when tightening through the fastening bolt and nut; do.

In addition, the pressure clamp is coupled to the upper portion via the fastening bolt and nut further comprises a pressing plate for pressing the upper flange and the lower flange and the web.

In addition, the pressing plate, the plate body is coupled to the pressing clamp; It is formed integrally with the plate body; the pressing portion of the round form for pressing the flange and the web; characterized in that comprises a configuration.

As described above, according to the present invention, the steel beam of the present invention constituted as described above has a large acupressure inside the tunnel, so that an excess load is generated, which causes the H-shaped steel beam to become more viable when cross-sectional reduction occurs over the effective section of the tunnel. By sliding on the connecting member there is an effect that the destruction with permanent deformation in the livestock connecting member portion does not occur.

In addition, since the permanent deformation or destruction of the steel beams does not occur, the steel beams can be reused, and as a result, the cost of rebuilding the steel beams can be reduced.

In addition, there is no need to install excessive jibo when installing the jibo to prevent permanent deformation or destruction of the jibo material, it is effective to reduce the material cost.

In addition, by installing a plurality of pressure clamps at both ends of the upper flange and the lower flange there is an effect that the pressure can be easily adjusted.

In addition, it is a very useful invention to reliably connect the H-shaped steel beam by installing a pressure plate further.

1 is an exemplary view showing a rigid beam according to the present invention,
Figure 2 is a perspective view showing the connection structure of the H-shaped steel beam and livestock connecting member of the steel beam according to the present invention,
Figure 3 is a plan view showing a connection structure of the H-shaped steel beam and livestock connecting member of the steel beam according to the present invention,
Figure 4 is a front view showing the connection structure of the H-shaped steel beam and livestock connecting member of the steel beam according to the present invention,
5 is a cross-sectional view showing a cross section of AA of FIG. 3 according to the present invention;
Figure 6 is a perspective view showing a state in which the pressure plate further installed on the livestock connecting member according to the present invention,
Figure 7 is a cross-sectional view showing a state in which the pressure plate further installed on the livestock connecting member according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is an exemplary view showing a steel beam according to the present invention, Figure 2 is a perspective view showing the connection structure of the H-shaped steel beam and the livestock connecting member of the steel beam according to the present invention, Figure 3 is a H-shaped steel beam of the steel beam according to the present invention 4 is a plan view showing the connection structure of the livestock connecting member, Figure 4 is a front view showing the connection structure of the H-shaped steel beam and livestock connecting member of the steel beam according to the present invention, Figure 5 is a cross-sectional view of AA of Figure 3 according to the present invention As the cross section shown,

As shown in the drawing, the present invention connects the plurality of H-shaped steel beams 100 and H-shaped steel beams 100 installed along the excavation surface of the tunnel, but the H-shaped steel beams 100 are spaced at a predetermined interval. It is configured to include a livestock connecting member 200 to cause the H-shaped steel beam 100 and the slip occurs when the overload is connected to the action.

The H-shaped steel beam 100 is a conventional H-shaped steel, the upper flange 110 and the lower flange 120 spaced at a predetermined interval, the web connecting the center of the upper flange 110 and the lower flange 120 It consists of 130.

The livestock connecting member 200, one end is in close contact with the outer surface of the upper flange 110 of the H-shaped steel beam 100, the other end is installed to be in close contact with the upper flange 110 of the other H-shaped steel beam 100 to be connected One end is in close contact with the outer surface of the upper connection plate 210 and the lower flange 120 of the H-shaped steel beam 100, and the other end is in close contact with the outer surface of the lower flange 120 of the other H-shaped steel beam 100 to be connected. The upper connection plate 210 and the upper connection plate 210 and the lower connection plate 220 are installed at both ends of the coupling bolt 260 and the nut 251 are coupled to the upper flange 110 and the lower flange ( 120 is installed to connect a plurality of pressure clamps 230 for pressing and fixing both ends, and the center of the upper connection plate 210 and the lower connection plate 220 to improve the pressing force applied to the H-shaped steel beam 100. The pressure bolt 250 and the nut 251 is configured to include.

The H-shaped steel beam 100 is fixed in a state spaced apart at regular intervals between the upper connection plate 210 and the lower connection plate 220 to form a sliding space 300 to enable sliding when an overload occurs.

That is, the H-shaped steel beams 100 are spaced apart from each other by the upper connection plate 210 and the lower connection plate 220 adjacent to the other H-shaped steel beams 100 at regular intervals, and thus, between the two H-shaped steel beams 100. A sliding space 300 is formed, and can be slid when an overload occurs through the sliding space 300.

The upper connection plate 210 and the lower connection plate 220 are formed to have a width wider than the width of the upper flange 110 and the lower flange 120 to enable the installation of the fastening bolt 260 and the nut 251. A plurality of bolt holes 211 are formed at predetermined intervals so that the fastening bolts 260 can be fastened to both sides in the width direction.

The pressure clamp 230 is installed on both ends of the upper connection plate 210 and the lower connection plate 220, the upper flange 110 and the lower flange 120 around the web 130 of the H-shaped steel beam 100. And to be installed to press both ends of the clamp body 231 and the clamp body 231 coupled to the upper connection plate 210 and the lower connection plate 220 through the fastening bolt 260 and the nut 251, Is formed to protrude on one side of the upper flange 110 and the lower flange 120 is in close contact with the fastening bolt 260 and the nut 251 when tightening through the upper flange 110 and the lower flange 120 It is configured to include a pressing protrusion 232 for fixing the pressure.

The clamp body 231 is formed with a plurality of bolt holes 233 to enable the installation of the fastening bolt 260.

The pressure clamp 230 configured as described above is separately installed at both ends of the upper flange 110 and the lower flange 120, so that the tightening torque can be easily adjusted when tightening through the fastening bolt 260 and the nut 251. The pressing force can be adjusted according to the design conditions.

In addition, by forming a plurality of pressure clamps 230 to improve the rigidity of the weak connection portion basically generated, and to increase the friction area compared to the conventional to secure the required friction strength, by adjusting the pressure clamp 230 to adjust the pressing force Can be.

Meanwhile, the pressure bolt 250 and the nut 251 are installed at both ends of the center of the upper connection plate 210 and the lower connection plate 220 to tighten the upper connection plate 210 and the lower connection plate 220 to each other. By adding a pressing force of the steel beams 100 to enable a stable support of the H-shaped steel beams 100.

On the other hand Figure 6 is a perspective view showing a state in which the pressing plate is further installed on the livestock connecting member according to the present invention, Figure 7 is a cross-sectional view showing a state in which the pressing plate is further installed on the livestock connecting member according to the present invention,

As shown in the drawing, the present invention is coupled to the pressure clamp 230 through the fastening bolt 260 and the nut 251 and pressurizing the H-shaped steel beam 100 to further press the pressure plate 240 is applied It is configured to further include.

The pressure plate 240 is formed integrally with the plate body 241 coupled to the upper portion of the pressure clamp 230, the plate body 241 and extends in the direction of the web 130 of the H-shaped steel beam 100 It is composed of a pressing portion 242 for pressing the upper flange 110 and the lower flange 120 and the web 130.

The pressing unit 242 is formed in a round shape to press the upper flange 110 and the lower flange 120 and the web 130, the pressure clamp 230 is installed.

The pressure plate 240 configured as described above is configured to pressurize the upper and lower flanges 110 and 120 and the web 130 so as to apply an additional pressing force to the H-shaped steel beam 100 to enable a stable connection.

In addition, by the pressing plate 240 to improve the rigidity of the existing weak connection portion, and to improve the friction strength.

In addition, if there is a need for additional pressing force, if necessary, by installing a further press plate 240 can be quickly responded to the site conditions is very excellent in usability.

Referring to the operation process when the installation and the excess load generation of the steel beam of the present invention configured as described above, the arch to fit the excavation surface of the tunnel using a plurality of H-shaped steel beam 100 to be connected to the livestock connecting member 200 Assemble and install in the form.

At this time, the H-shaped steel beam 100 is assembled in the state spaced apart by the sliding space 300 to enable sliding on the livestock connecting member 200.

Assembling process of the H-shaped steel beams 100 through the livestock connecting member 200, both ends of the upper connection plate 210 to the upper flange 110 of the two H-shaped steel beams 100 to be connected, Both ends of the lower connection plate 220 are in close contact with the lower flange 120, and then the pressure clamp 230 is fastened using the fastening bolt 260 and the nut 251. At this time, the pressing protrusion 232 of the pressure clamp 230 is in close contact with the inner surface of the upper flange 110 and the lower flange 120 when pressing the fastening bolt 260 and the nut 251 pressurized H-shaped steel beam 100 By pressurizing it is connected to the H-shaped steel beam (100).

In addition, by tightening the upper connection plate 210 and the lower connection plate 220 by using the pressure bolt 250 and the nut 251 can be improved the pressing force for pressing the H-shaped steel beam 100.

In addition, by further installing a pressure plate 240 in the pressure clamp 230 to press the upper, lower flanges 110, 120 and the web 130 to enable a firm joint of the H-shaped steel beam (100).

The steel beam of the present invention configured as described above has a large acupressure inside the tunnel, and an excessive load is generated, and thus, when a cross-sectional reduction of more than an effective cross section of the tunnel occurs, the H-shaped steel beam 100 slides on the livestock connecting member 200. By doing so, the destruction accompanied by permanent deformation in the livestock connecting member 200 does not occur.

That is, when the excess load is applied to the support material more than the strength of the H-shaped steel support 100 and the livestock connecting member 200 is generated, the excessive load is absorbed by friction to artificially induce the cross-sectional reduction to prevent collapse .

Since permanent deformation or destruction of steel beams does not occur, steel beams can be reused, and as a result, it is possible to reduce the cost of rebuilding the steel beams.

In addition, in order to prevent permanent deformation or destruction of the support material, there is no need to install excessive support when installing the support can reduce the material cost.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(100): H-shaped steel beam (110): Upper flange
120: Lower Flange 130: Web
(200): livestock connecting member (210): upper connecting plate
(211): Bolt hole (220): Lower connection plate
230: pressure clamp 231: clamp body
(232): pressure protrusion 233: bolt hole
240: pressing plate 241: plate body
(242): pressurizing section 250: pressurizing bolt
(251): Nut (260): Tightening bolt

Claims (4)

In the steel beam comprising a plurality of H-shaped steel beams installed along the excavation surface of the tunnel and the H-shaped steel beams, including the livestock connecting member to cause the H-shaped steel beams and slip when the excessive load is applied ,
The livestock connecting member,
An upper connection plate installed to be in close contact with an outer surface of the upper flange of the H-shaped steel beam and the other end to be in close contact with an outer surface of the upper flange of another H-shaped steel beam to be connected;
A lower connection plate having one end in close contact with an outer surface of the lower flange of the H-shaped steel beam and the other end being in close contact with an outer surface of a lower flange of another H-shaped steel beam to be connected to face the upper connection plate;
A plurality of pressure clamps coupled to both ends of the upper connection plate and the lower connection plate through fastening bolts and nuts to pressurize and fix both ends of the upper flange and the lower flange;
Tunnel steel beam having a livestock deformation tolerance joint structure characterized in that it comprises a pressurizing bolt and a nut is installed to connect the center of the upper connection plate and the lower connection plate to improve the pressing force on the H-shaped steel beam.
The method of claim 1,
The pressure clamp,
A clamp body having a plurality of bolt holes formed to enable installation of the fastening bolts and coupled to opposite surfaces of the upper connection plate and the lower connection plate;
It is formed so as to protrude on one side of the clamp body, the pressure protrusion is in close contact with the inner surface of the upper flange and the lower flange for pressing and fixing the upper flange and the lower flange when tightening through the fastening bolt and nut; Tunnel steel beam with animal deformation tolerance joint structure.
The method of claim 1,
Tunnel rigid beam having a livestock deformation tolerance joint structure characterized in that it further comprises a pressing plate coupled to the upper portion of the pressing clamp through the fastening bolt and nut to press the upper flange, the lower flange and the web.
The method of claim 1,
The pressure plate,
A plate body coupled to the pressure clamp;
Tunnel Gangjibo having a livestock deformation tolerance joint structure, characterized in that it comprises a; integrally formed on the plate body and the pressing portion of the round shape for pressing the flange and the web.

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