KR200440589Y1 - Support for lining member of mine - Google Patents

Abstract

The present invention relates to a support that is installed to support the lining material is installed to prevent the collapse of the digging surface of the various types of membrane including a small tunnel, such as mine, the support is delivered from the upper support, lining material It is configured to include an upper support tube, a height adjusting portion and a lower support tube is installed elastic material to absorb some of the load.

Tunnels, Excavations, Supports, Supports

Description

SUPPORT FOR LINING MEMBER OF MINE}

Figure 1 shows a perspective view of the support for excavating inner surface of the present invention.

Figure 2 shows an assembled perspective view of the support for the excavation inner surface support of the present invention.

Figure 3 shows an assembled cross-sectional view of the support for the excavation inner surface support of the present invention.

Figure 4 shows the operational state diagram of the support for the excavated inner surface support of the present invention.

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

100: support 110: lower support pipe

111: body portion (lower support tube) 112: support plate

113: protrusion high government 114: handle part (lower supporter)

115: locking groove 120: height adjustment unit

121: Screw thread 122: Bearing

123: jig plate 124: rotary rod

130: upper support pipe 131: body portion (upper support pipe)

132: extension flange 133: screw

135: fixed plate 136: elastic material

137: support block 140: upper support

141: lower flange 142: body portion (upper support)

143: upper flange 144: fixed protrusion (upper support)

200: lining materials

The present invention relates to an excavation inner surface support. More specifically, the present invention relates to an excavation inner surface support support configured to support lining materials installed to prevent various types of membrane collapse including small tunnels such as mines.

A general tunnel is an underground structure used as a passage or space constructed under the surface of the earth. In particular, according to the classification by the size of the tunnel section, a small cross section tunnel has an excavation area of 12 It is less than ㎡ and has tunnels for waterways, wire and communication tunnels, and mine tunnels.

Mechanical excavation equipment (drilling machine, etc.) is used to excavate the membrane (tunnel) of such a small cross-section tunnel, and the membrane formed by the excavation work is normally installed with lining material because of its collapse.

In this case, the lining material is installed so that steel, such as steel frame, section steel, in contact with the rig's excavation surface, but is made arcuate so that the end of the steel in contact with the excavation surface is supported on the surface of the mak by dispersing the load concentrated on the excavation surface through the lining material To resist.

In addition, such lining material may be supported by a separate support (SUPPORT) for its reinforcement. In other words, the lining material is supported on the upper end, and the bottom support is provided in the form of a copper bar so that the bottom ground is supported.

However, since the lining material may be bent due to variation in load conditions such as vibration and shock during the excavation work or its shape may be deformed by impact, the support is also required to absorb such deformation. Since the conventional support is manufactured and installed so as to be simply supported, such as steel bars, there is a problem of newly reinforcing the excavating surface due to defects in the lining material regardless of the original rigidity of the support.

In addition, the support should be able to adjust the height according to the formation position of the lining material, the need for installation and disassembly. There is an example using a hydraulic jack inside the pipe constituting the support for this height adjustment, but the use of such a hydraulic jack is somewhat non- There was a problem of economics.

The present invention is to solve the problems of the prior art, the object of the present invention is to support the lining material more effectively to cope with the deformation of the lining material is installed by absorbing some of the load to be transmitted, the production of the Inexpensive, yet usable and workability is to provide a support for the excavated inner surface.

In order to achieve the above technical problem, the support 100 of the present invention is largely supported so as to be in contact with the membrane ground and lining material, the lower support tube 110, the height adjusting unit 120 is installed on the lower support tube, the height adjustment unit The upper support pipe 130 is inserted into the upper support pipe 130 and the elastic support 136 is installed and the upper support portion 140 is installed so that the lining material 200 is in contact with the upper end of the upper support pipe 130. .

That is, the upper support tube 130 is screwed to the height adjustment unit 120 is installed to the rotatable height adjustment unit 120 is formed on the inner support on the lower support tube 110 to rotate the height adjustment unit. By allowing it to be moved up and down through, it was possible to adjust the height of the support 100,

Rotation of the height adjustment unit 120 is to be easily rotated by the manpower using the jig plate 123 and the rotating rod 124 to improve the convenience of its operation,

The fixing member 135 is fixed inside the upper support tube 130, and the upper support part is formed on an upper surface of the elastic member 136 in a state in which the fixing member 135 is mounted on the fixing plate 135. By mounting the 130 so as to be in contact, the load transmitted from the excavation surface to be absorbed by the elastic material 136 so that the deformation of the lining material 200 and the like can be absorbed.

In order to explain the present invention more clearly and easily described in detail by the accompanying drawings the best embodiment of the present invention, the embodiment according to the present invention can be modified in various other forms, the scope of the present invention Is not limited to the embodiment described below.

1 to 3 is a perspective view, an assembled perspective view, an assembly cross-sectional view of the support for supporting the excavated inner surface of the present invention,

Figure 4 shows the operational state diagram of the support for the excavated inner surface support of the present invention.

First, the target of the excavation inner surface support support 100 of the present invention is installed in a membrane formed by a small tunnel, excavated by a mechanical device such as an excavator is formed in the cross-sectional shape and the bottom surface in a constant cross-sectional shape, It may be referred to as a lining material 200, such as an arch shape provided to support the excavation surface.

Since the lining material 200 may be deformed due to its position and shape due to the load acting on the excavation surface, a support for supporting the lining material 200 may be installed.

The present invention is largely to provide a support 100 including a lower support tube 110, a height adjustment unit 120, an upper support tube 130, the upper support portion 140.

At this time, the lower support tube 110 as shown in Figures 1 to 3 the body portion 111 of the cylindrical steel pipe shape as a whole; And the bottom of the body portion 111 is configured to include a support plate 112 formed with a protruding fixing portion 113 formed on the bottom as a flange of a circular horizontal plate shape having a larger cross-sectional size than the body portion.

Looking specifically, in order to secure a stable support state of the support 100, as shown in Figure 2, the body portion 111 was formed as a cylindrical steel pipe,

In the lower part of the body portion 111, a support plate 112 was formed as a flange of a circular horizontal plate shape having a larger diameter than the body portion.

The bottom of the support plate 112 is to be formed in the bottom of the projection protruding fixing portion 113 protruding downward so that the support 100 of the present invention can be easily supported.

In addition, the handle portion 114 is formed integrally with the body portion 111 side to facilitate the transport and installation of the lower support tube (110).

In addition, the upper end of the body portion 111 was formed so that the locking groove 115 is stepped so that the height adjustment portion 120 to be described later is coupled in a state where the rotation is not restricted.

The height adjusting part 120 is coupled to the lower support tube 110 so that rotation is not constrained. The height adjusting part 120 is manufactured as a cylindrical nut shape as shown in FIGS. 121 is formed, the lower end is inserted into the locking groove 115 of the lower support tube 110 to be installed.

This allows the position to be fixed but to use the bearing 122 to facilitate rotation. That is, according to the inner surface shape of the height adjustment unit 120 is to allow a plurality of bearings 122 to be installed in contact with the upper end of the body portion of the lower support pipe.

As a result, the height adjusting portion 120 by the bearing 122 is coupled to the upper portion of the lower support tube 110, the upper portion of the body portion 111 to be constrained, but can be easily rotated.

Rotation of the height adjustment unit 120 is to be made by the rotating rod 124 is inserted into the jig plate 123 fixed to the upper surface of the height adjustment unit 120 to enable the attraction.

That is, the jig plate 123 of the horseshoe shape is to be fixed to the upper surface of the height adjusting portion 120 by the fastening bolt 125, but is fastened to the insertion hole 126 formed on both sides of the jig plate 123 Rotating rod 124 is installed, by rotating the rotary rod 124 by the attraction force, etc., the jig plate 123 and the height adjusting portion 120 fixed to the jig plate 123 can be rotated together, such Rotation is to facilitate the rotation by the bearing 122.

The upper support tube 130 is a body portion 131 of the cylindrical steel pipe form as a lower support tube as a whole; The upper body portion is composed of a large expansion flange portion 132 of the circular horizontal plate form.

At this time, the lower end of the body portion 131 is formed with a screw portion 133 to be screwed to the screw thread 121 of the height adjusting portion 120, the screw portion 133 corresponds to the shape of the screw thread 121 To be formed over a predetermined height.

The height of the formation of the threaded portion 133 determines the up and down moving height of the upper support tube 130.

Accordingly, the upper support pipe 130 having the screw part 133 is moved up and down inside the lower support pipe 110 by adjusting the thread 121 of the height adjusting part 120 to adjust the height of the support.

In addition, like the handle portion of the lower support pipe 110, the handle portion 134 is formed in the body portion to facilitate its transport and installation.

Furthermore, as shown in FIG. 3, the fixing plate 135 is caught and fixed to a predetermined depth inside the upper support tube 130, and the elastic member 136 is disposed on the upper surface of the fixing plate 135 to the upper surface of the body portion 131. Is fitted.

The elastic material 136 is preferably a spring made of steel may be used, if the elastic restoring force can be secured may be installed in a material other than the steel spring.

The elastic material 136 is stretched by the load transmitted from the upper support portion 140 which will be described later and finally absorbs the load acting on the lining material 200, the lining material 200 is separated or deformed from its original position It is possible to absorb the degree can act as a more stable support (100).

An expansion flange 132 having a circular horizontal plate shape is formed at an upper end of the body 131. The expansion flange 132 has a lower flange 141 of the upper support 140 at the support block 137. It serves to be restrained by, a plurality of fastening holes 138 are formed on the upper surface.

2 and 3, the lower flange portion 141 of the size corresponding to the cross-sectional size of the upper surface of the elastic material 136 is formed, and the cylindrical body portion 142 integrally with the lower flange portion 141 and The upper support portion 140 is composed of an upper flange portion 143 in the form of a circular horizontal plate on the upper portion of the body.

The upper support portion 140 has a function to transmit the load acting on the lining material 200 to the upper and lower support pipes (130, 110) while being installed in contact with the lining material 200 on the upper surface as shown in FIG. Some of these working loads are absorbed by the elastic member 136 of the upper support tube.

Accordingly, the cross-sectional size (diameter) of the lower flange portion 141 of the upper support portion 140 is formed to correspond to the cross-sectional size of the upper surface of the elastic material 136, as shown in Figure 3, so that the upper support portion 140 is elastic material It is to be installed directly in contact with (136).

In addition, a semicircular support block 137 is installed on the upper surface of the lower flange portion 141 of the upper support portion 140 to constrain the position of the upper support portion 140, and the support block 137 is upper The fastening bolt 139 is fixed to the fastening hole formed in the upper flange of the support tube.

As a result, the upper support portion 140 is capable of transmitting the load directly to the elastic member 136 in a state where the position is constrained by the support block 137.

The lower flange portion 141 is formed integrally with the cylindrical body portion 142, the upper flange portion 143 of the circular horizontal plate form is formed on the upper portion of the body portion 142, the upper flange portion ( A plurality of fixed protrusions 144 are formed at the outer ends of the 143.

Therefore, as shown in FIG. 4, when the lining material 200 is disposed to contact the upper flange part 143 of the upper support part 140, the lining material 200 is formed by the fixing protrusions 144 formed at both side ends of the lining material 200. ) Can be fitted to constrain the position.

Looking at the working example of the support 100 of the present invention looked at as follows.

First, when the membrane (tunnel) is excavated using a perforator, an arc-shaped excavation surface is usually formed, and an arch-shaped lining material 200 is soon installed to prevent such an excavation surface collapse.

The lining material 200 is manufactured using steel or section steel, and finally the lining material 200 is transmitted to the ground load loosened by drilling and excavation.

The support 100 of the present invention is installed to effectively support such a load.

The support 100 may be integrally assembled and transported and installed in a membrane, but, if necessary, the lower support pipe 110, the height adjusting part 120, the upper support pipe 130, the upper support part 130, and the jig. The plate and the rotating rod may be assembled and installed by transporting to a location where the lining material 200 is installed, respectively.

When the support 100 is installed, the lining material 200 is supported by the support 100. As the excavation surface is further formed by additional drilling work, the vibrations and shocks are naturally installed in the lining material 200 pre-installed. Delivered.

Since the vibration and shock transmitted to the lining material 200 is transmitted to the support 100 as it is, if such vibration and shock is equal to or less than the elastic strength of the elastic material 136 constituting the support 100

As it is absorbed by the support 100 as it is possible to prevent the position of the lining material 200 is separated or deformed by vibration and impact.

The elastic material 136 installed in the support 100 of the present invention is preferably to determine the elastic strength in consideration of the vibration and shock transmitted in advance.

In addition, the support 100 of the present invention is able to adjust the installation height by the jig plate 123 and the rotating rod 124 mounted to the height adjusting unit 120 as shown in FIG.

That is, when the rotating rod 124 is rotated, the jig plate mounted on the jig plate 123 is rotated together, and the height adjustment unit 120 to which the jig plate is fixed is also rotated together, so that the screw thread 121 of the height adjusting unit 120 is rotated. The upper support pipe 130 screwed to) is moved up, down in accordance with the rotation direction.

Since the entire height of the support 100 can be adjusted by moving the upper support pipe 130 up and down, the support 100 of the present invention can be easily installed and dismantled even by manpower by a jig plate and a rotating rod. It will be possible to adjust the height of the support even in a narrow space without manpower or equipment.

The support according to the present invention is very easy to assemble and dismantle, so that the transportation and installation is simple, as well as absorb some vibration and shock transmitted to the lining material, and can enhance the lining material reinforcing effect,

Its height can be easily adjusted, and it is not only excellent in workability but also made of a relatively simple configuration, so that its manufacturing cost can be lowered. .

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. Those skilled in the art of the present invention can modify and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

Claims (5)

A lower support tube formed at a lower portion of the support plate; A height adjusting part coupled to an upper end of the lower support pipe and having a screw thread formed on an inner circumference thereof; An upper support pipe having a screw portion formed at a lower end thereof and having an extension flange formed at an upper end thereof so as to be screwed to the thread of the height adjusting part; An elastic material including a steel spring mounted to support a lower end in the upper support pipe; And The upper flange is installed in contact with the lower flange portion on the upper end of the upper support pipe is limited by the support block to the expansion flange portion of the upper support pipe and the upper support portion is installed in contact with the lining material on the upper surface; . According to claim 1, wherein the lower flange portion of the upper support portion is formed in a cross-sectional size corresponding to the cross-sectional size of the elastic material, the support block is disposed on the upper surface of the lower flange portion and the support block is fixed to the expansion flange portion of the upper support pipe Support for excavation inner surface support, characterized in that. According to claim 2, wherein the upper portion of the upper support portion is formed by the upper flange portion, while the upper surface of the upper flange portion, while the lining material for supporting the excavation inner surface is in contact with the support, while the lining material is restrained by a plurality of additional protrusions are formed An excavation inner surface support characterized by the above-mentioned. The support for excavating inner surface according to any one of claims 1 to 3, wherein a fixing plate is installed inside the upper support tube and a lower surface of the elastic material is supported on the upper surface of the fixing plate. The support for excavating inner surface according to claim 4, wherein the height adjusting part is rotated together by rotation of a rotating rod inserted into a jig plate fixed to the height adjusting part.

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