JP5420851B2 - Reinforcement method of natural ground - Google Patents

Description

The present invention is economically relates to reinforce how that can be reinforced natural ground the natural ground.

As shown in FIG. 3, which is a cross-sectional view (longitudinal cross-sectional view) of a conventional tunnel cut along the tunnel excavation direction, bolts such as a lock bolt 11, a front receiving bolt 13, and a mirror bolt 16 are removed from the tunnel cavity 20. A method of reinforcing a natural ground that is provided in the natural ground 4 to prevent the collapse of the natural ground 4 is known.
The lock bolt 11 is formed with a rock bolt hole 1 extending from the cover portion 3 toward the natural ground 4 after forming the cover portion 3 made of sprayed concrete on the inner wall surface 21 of the tunnel cavity portion 20. A cylindrical lock bolt 11 is formed by being bonded to the lock bolt hole 1 with an adhesive 12 such as mortar. The plurality of rock bolts 11 are provided radially about the center of the cross section of the tunnel cavity 20 obtained by cutting the tunnel cavity 20 along an orthogonal plane orthogonal to the tunnel excavation direction X.
The first receiving bolt 13 is formed with the first receiving bolt hole 14 so as to incline upward from the face 15 of the tunnel cavity 20 toward the tunnel excavation direction X. It is formed by being bonded to the receiving bolt hole 14 with the adhesive 12.
The mirror bolt 16 is formed such that the mirror bolt hole 17 is formed straight from the face 15 along the tunnel excavation direction X, and then the rod-shaped or cylindrical mirror bolt 16 is bonded to the mirror bolt hole 17 with the adhesive 12. Formed by.
With reference to FIG. 4 or FIG. 5, a method for reinforcing natural ground will be described by taking the case of forming the lock bolt 11 as an example.
The method for reinforcing a natural ground shown in FIG. 4 includes a drilling process of the lock bolt hole 1 in step 401, a filling process of the adhesive material 12 in step 402, and an installation process of the lock bolt 11 in step 403. Specifically, in step 401, the rock bolt hole 1 is drilled from the lining portion 3 to the ground 4 by a drilling bit provided at the tip of a rod attached to a rock drill (not shown). In step 402, after the rod is removed from the lock bolt hole 1, and a connecting pipe such as a hose connected to a filling machine (not shown) is inserted into the lock bolt hole 1 to the back of the lock bolt hole 1, the connecting pipe is As the adhering material 12 such as mortar is filled into the lock bolt hole 1 from the back of the lock bolt hole 1, the connecting pipe is gradually pulled out of the lock bolt hole 1, so that the adhering material 12 is removed from the lock bolt hole 1. 1 is filled. In step 403, a rod-like lock bolt 11 made of iron or glass fiber is inserted into the adhering material 12 in the lock bolt hole 1 and installed in the lock bolt hole 1. And the adhering material 12 hardens | cures and couple | bonds the natural ground 4, the rock bolt 11, and the lining part 3 mutually.
The natural mountain reinforcing method shown in FIG. 5 includes a rock bolt hole 1 drilling process in step 501, a rock bolt 11 installation process in step 502, and a bonding material 12 filling process in step 503. Specifically, in step 501, the rock bolt hole 1 is drilled from the lining portion 3 to the ground 4 by a drilling bit provided at the tip of a cylindrical rod attached to a rock drill (not shown). The In Step 502, when the bit is left in the lock bolt hole 1, a rod with a peripheral surface hole provided with a plurality of holes penetrating into and out of the cylinder is used on the peripheral surface of the cylinder of the cylindrical rod. . In step 502, when removing the bit removed from the tip of the rod from the inside of the lock bolt hole 1 through the inside of the rod cylinder, a rod without a peripheral surface hole or a rod with a peripheral surface hole is used. Accordingly, in Step 502, the sticking material 12 is filled in Step 503 while the rod and the bit with the peripheral surface hole to be the lock bolt 11 and the bit are left in the lock bolt hole 1, or the bit is removed from the lock bolt hole 1. The adhering material 12 is filled in Step 503 while the rod without the peripheral surface hole or the rod with the peripheral surface hole to be the lock bolt 11 is left in the lock bolt hole 1 while being removed. In step 503, by connecting the other end of the connecting pipe (not shown), such as an adhering material filling hose connected at one end to a filling machine (not shown), to the end 22 on the tunnel cavity 20 side of the rod, An adhering material 12 such as mortar is fed into the cylinder of the lock bolt 11 from the filling machine via the connecting pipe, and enters the lock bolt hole 1 via the peripheral surface hole of the cylinder of the lock bolt 11 or the opening of the tip of the cylinder. Filled. And the adhering material 12 hardens | cures and the rock bolt 11, the natural ground 4, and the lining part 3 are mutually couple | bonded.
Japanese Patent Laid-Open No. 2007-40057 JP 2004-204522 A JP 2002-294687 A

However, in either of the methods shown in FIGS. 4 and 5, at least two members, that is, an adhering material and a rod-like bolt, must be used, which requires a material cost and a construction period for forming the same. Since the bolts produced in the above are used, there is a problem that bolts and bits having different diameters must be prepared according to the condition of the natural ground.
The present invention has been made in view of the above problems, according to the state of the natural ground, there is no need to prepare a different bolt diameters, provides a reinforcing how economical the natural ground.

The method of reinforcing a natural ground according to the present invention uses a rod provided with a bit at the tip and a cylinder that follows the rod, and the tunnel cavity is formed from the tunnel cavity by a bit that passes through the rod and protrudes from the tip of the tube. After forming the bolt hole extending in the ground around the part, the rod and the bit are taken out from the bolt hole and the cylinder is left in the bolt hole, and the other end of the connecting pipe connected at one end to the filling machine is connected to the cylinder tunnel. The biodegradable resin is fed into the cylinder through the connecting pipe from the filling machine through the connecting pipe, and the cylinder is pulled out from the bolt hole while filling the bolt hole with the biodegradable resin. The decomposable resin is filled in the bolt holes to form a cured bolt .

According to the method of reinforcing a natural ground according to the present invention, after a bolt hole is drilled with a bit, the rod and the bit are taken out from the bolt hole and the cylinder is left in the bolt hole, and biodegraded into the cylinder through the connecting pipe from the filling machine. The bolt is pulled out from the bolt hole while the biodegradable resin is fed and filled with the biodegradable resin into the bolt hole, so that a hardened bolt is formed by filling the biodegradable resin into the bolt hole. Nearby material not required, depending on the state of the natural ground, there is no need to prepare a different bolt diameters, formed to biodegradable resin bolt holes for bolt holes of different diameters using the different bit diameters Bolts of various diameters can be formed simply by filling in, so that bolts with different diameters according to the condition of the natural ground can be formed economically, and the bolt does not remain in the natural ground due to the decomposition of the biodegradable resin. The And, since the operation of inserting the connecting tube for a biodegradable resin filling into the bolt hole is eliminated, there is an advantage that the working efficiency is improved.

Best form 1
FIG. 1 shows a method for reinforcing a natural ground using a lock bolt. 2A shows a longitudinal sectional view of the tunnel, and FIG. 2B shows a transverse sectional view of the tunnel. The same parts as those of the conventional example shown in FIGS.

With reference to FIG. 1, the method of reinforcing a natural ground with bolts will be described. The natural mountain reinforcing method includes a drilling process of the lock bolt hole 1 in step 101 and a filling process of the liquid bolt material 2 in step 102.
In step 101, the lock bolt hole 1 is drilled from the lining portion 3 to the ground 4. In step 102, the liquid bolt material 2 is filled into the lock bolt hole 1 from the back of the lock bolt hole 1. And the liquid bolt material 2 hardens | cures and it becomes the lock bolt 5 (refer FIG. 2 (a), (b)), and the lock bolt 5 couple | bonds the lining part 3 and the natural ground 4 mutually.
That is, after the lock bolt hole 1 extending from the tunnel cavity 20 to the ground mountain 4 around the tunnel cavity 20 is formed, the liquid bolt material 2 is filled in the bolt hole 1 and hardened to form the lock bolt 5. The rock bolt 5 connects the lining portion 3 and the natural ground 4 to each other, whereby the natural ground 4 is reinforced. That is, the reinforcement of the natural ground provided with the rock bolt 5 in which the liquid bolt material 2 filled in the rock bolt hole 1 formed so as to extend from the tunnel hollow portion 20 to the natural ground 4 around the tunnel hollow portion 20 is hardened. A structure can be obtained.

In the drilling process of the rock bolt hole 1 in step 102, the rock bolt hole 1 is drilled from the lining portion 3 to the ground 4 by a drilling bit provided at the tip of a rod attached to a rock drill (not shown). The
In the filling process of the liquid bolt material 2 in step 102, after the bolt hole 1 is drilled with the bit provided at the tip of the rod, the rod is pulled out from the bolt hole 1 together with the bit, and then one end is connected to a filling machine (not shown). The other end of the connecting pipe such as a hose for filling a liquid bolt material, not shown, is inserted into the bolt hole 1 from the tunnel cavity 20 to the back of the bolt hole 1 and then into the bolt hole 1 through the connecting pipe from the filling machine. The liquid bolt material 2 is filled into the bolt hole 1 from the back of the bolt hole 1 by pulling out the connecting tube from the bolt hole 1 while filling the liquid bolt material 2 with the liquid bolt material 2. And the liquid bolt material 2 with which it filled in the bolt hole 1 hardens | cures, it becomes the lock bolt 5, and when the said rock bolt 5 couple | bonds the cover part 3 and the natural ground 4 mutually, the natural ground 4 becomes Reinforced.

  A liquid synthetic resin or a liquid biodegradable resin is used for the liquid bolt material 2. As the liquid synthetic resin or liquid biodegradable resin, for example, those that are cured by volatilization, those that cure over time, those that cure at a lower temperature, those that cure by a chemical reaction, and the like can be used.

Examples of the synthetic resin as the liquid bolt material 2 include polyethylene resin, polypropylene resin, polystyrene resin, ABS resin, and the like that are cured by solidification at a reduced temperature, and silicone resin and modified silicone that are cured by a chemical reaction. A one-component reaction type such as a resin or a two-component reaction type such as an epoxy resin is used. The liquid bolt material 2 of the one-liquid reaction type or the two-liquid reaction type is filled into a pipe material having a hole with a diameter of 7.6 cm corresponding to the lock bolt hole 1, the front receiving bolt hole 14 or the mirror bolt hole 17 in FIG. It was hardened and verified as to how much the tensile strength was compared to the lock bolt 5 or the front receiving bolt 6 or the mirror bolt 7 of FIG. As a result, for example, high density polyethylene tensile strength of one-liquid reaction type is a 28N / mm ^2, an epoxy resin the tensile strength of the two-component reaction type was 20 N / mm ^2. Therefore, it was confirmed that the one-liquid reaction type or the two-liquid reaction type synthetic resin has a predetermined strength as the lock bolt 5, the first receiving bolt 6, or the mirror bolt 7.

In the biodegradable resin as the liquid bolt material 2, for example, a konjac residue is mixed as an extender into a liquid agent made of a biodegradable resin having a trade name “GSPla” (registered trademark) manufactured by Mitsubishi Chemical Corporation. Is used. Konjac residue is what is called “spatter” in which the fiber remaining after producing konjac is dried. Therefore, there is an advantage that the lock bolt 5 does not remain in the ground 4 due to the decomposition of the biodegradable resin. Specimens A and B having different compounding amounts of konjac residue as an extender for a liquid agent made of a biodegradable resin named “GSPla” (registered trademark) manufactured by Mitsubishi Chemical Corporation were used. The liquid bolt material 2 as the specimen A is filled in a pipe material having a diameter of 7.6 cm corresponding to the lock bolt hole 1, the leading bolt hole 14 or the mirror bolt hole 17 in FIG. It was verified how much the tensile strength of the lock bolt 5, the receiving bolt 6, or the mirror bolt 7 is 2. As the experimental results, the tensile strength of the specimen A is 22N / mm ^2, the tensile strength of the specimen B was 18N / mm ^2. Therefore, it was confirmed that the specimens A and B can be used as the lock bolt 5, the front receiving bolt 6, or the mirror bolt 7.

According to the best mode 1, since the liquid bolt material 2 is filled in the lock bolt hole 1 to form the hardened lock bolt 5, a rod-like bolt material is not required as in the prior art. Depending on the condition, it is not necessary to prepare lock bolts with different diameters, and lock bolt holes 1 of various diameters are formed using bits with different diameters, and the liquid bolt material 2 is filled into the lock bolt holes 1 Therefore, the lock bolts 5 having various diameters can be formed, so that the lock bolts 5 having different diameters according to the state of the natural ground 4 can be economically formed.
That is, according to the best mode 1, the strength of the lock bolt 5 can be changed by changing the size of the diameter of the lock bolt hole 1. That is, conventionally, depending on the required strength, the diameter of the bit and a lock bolt having a diameter smaller than the diameter of the bit must be prepared, and when changing the strength, the bit and the lock bolt must be changed. However, in the best mode 1, it is only necessary to change the diameter of the bit according to the required strength, which is economical.
According to the best mode 1, the entire liquid bolt material 2 filled in the entire lock bolt hole 1 becomes the lock bolt 5. That is, since the diameter of the lock bolt hole 1 and the diameter of the lock bolt 5 are the same, a reinforcing effect can be obtained with a material having a lower tensile strength than a conventional lock bolt.
According to the best mode 1, since the liquid bolt material 2 is filled in the lock bolt hole 1 from the back of the lock bolt hole 1, the lock bolt hole 1 and the liquid bolt material 2 filled in the lock bolt hole 1 are It is possible to prevent the formation of a gap between them, and there is an advantage that the liquid bolt material 2 adheres to the natural ground 4 surrounding the lock bolt hole 1 and can appropriately support the natural ground 4.
According to the best mode 1, since the insertion work of the rod-shaped lock bolt into the bolt hole 1 can be eliminated, there is an advantage that the work efficiency is improved.
According to the best mode 1, since the liquid bolt material 2 is filled in the lock bolt hole 1 at the site, the work period is shortened, and the ground mountain 4 around the tunnel cavity 20 is a single component. 5 is advantageous in that it can be provided at a low cost with a ground reinforcement structure.

Best form 2
In the drilling process of the lock bolt hole 1 in step 102 of FIG. 1, after drilling the lock bolt hole 1 with a bit provided at the tip of a cylindrical rod attached to a rock drill (not shown), the step of FIG. In the filling process of the liquid bolt material 2 in 102, the bit is removed from the lock bolt hole 1 while the cylindrical rod remains in the lock bolt hole 1, and one end is connected to the filling machine for filling the liquid bolt material The other end of the connecting pipe such as a hose is connected to the end of the cylindrical rod on the tunnel cavity 20 side, and the liquid bolt material 2 is fed into the cylindrical rod cylinder through the connecting pipe from the filling machine. By pulling out the cylindrical rod from the lock bolt hole 1 while filling the liquid bolt material 2 into the lock bolt hole 1 through the tip opening of the cylindrical rod cylinder, the lock bolt hole 1 Liquid bolt material 2 is filled from the back of the lock bolt holes 1. And the liquid bolt material 2 with which it filled in the bolt hole 1 hardens | cures, it becomes the lock bolt 5, and when the said rock bolt 5 couple | bonds the cover part 3 and the natural ground 4 mutually, the natural ground 4 becomes Reinforced.
According to the best mode 2, since the operation of inserting the connecting pipe for filling the liquid bolt material into the bolt hole 1 can be eliminated, there is an advantage that the working efficiency is improved. In addition, the bits can be reused, which is economical.
In the best mode 2, a cylindrical rod provided with a through-hole penetrating the inside and outside of the cylinder on the peripheral surface on the distal end side may be used.

  In FIG. 2, the lock bolt hole 1 is read as the first receiving bolt hole 14 or the mirror bolt hole 17, and the liquid bolt material 2 filled in the first receiving bolt hole 14 from the back is cured to become the first receiving bolt 6. It can be easily understood that the liquid bolt material 2 filled from the back into the hole 17 is cured to become the mirror bolt 7.

In FIG. 2, at least one of the lock bolt 5, the front receiving bolt 6, and the mirror bolt 7 is inserted into the lock bolt hole 1, the front receiving bolt hole 14, or the mirror bolt hole 17 of the liquid bolt material 2 made of a liquid agent of biodegradable resin. Filled and cured to form the lock bolt 5, the front receiving bolt 6 or the mirror bolt 7, and the rest formed by the lock bolt 11, the front receiving bolt 13 or the mirror bolt 16 using the adhesive 12 by the conventional construction method. May be.
After drilling a bolt hole with a bit at the tip, use a rod with a bit at the tip and a cylinder that follows the rod and with the rod passing through the tube and the bit protruding from the tip of the tube A liquid bolt material may be filled in the bolt hole by removing the rod and bit from the bolt hole and leaving the cylinder in the bolt hole.
The bit may be collected when the rod or the cylindrical rod is pulled out, or the bit and the rod may be detachable and the bit may be left in the bolt hole.

Process drawing which shows the reinforcement method of a natural ground (best form 1). The longitudinal cross-sectional view and cross-sectional view of a tunnel (the best form 1). Cross-sectional view of a natural ground reinforcement structure cut along the tunnel direction (conventional). The process figure which shows the reinforcement method of a natural ground (conventional). The process figure which shows the reinforcement method of a natural ground (conventional).

Explanation of symbols

1 Rock bolt hole (bolt hole) 2 Liquid bolt material 4 Ground
5 Lock bolt (bolt), 6 Pre-receiving bolt (bolt), 7 Mirror bolt (bolt), 20 Tunnel cavity.

Claims (1)

Bolt holes that extend from the tunnel cavity to the ground around the tunnel cavity by using a rod with a bit at the tip and a cylinder that follows the rod, and a rod that protrudes from the tip of the cylinder through the rod. After the rod is formed, the rod and the bit are taken out from the bolt hole and the cylinder is left in the bolt hole, and the other end of the connecting pipe, one end of which is connected to the filling machine, is connected to the end of the cylinder on the tunnel cavity side. The biodegradable resin is filled into the bolt hole by feeding the biodegradable resin into the cylinder through the connecting pipe from the machine and pulling the cylinder from the bolt hole while filling the bolt hole with the biodegradable resin. A method for reinforcing a natural ground characterized by forming a hardened bolt .

Images