JP2010037743A - Rock bolt construction method and rock bolt - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To restrain spring water from a borehole or from the vicinity of the borehole and to make appropriate the concentration of an anchoring material in the borehole. <P>SOLUTION: This rock bolt construction method is carried out by installing a post-injection type rock bolt with packing in the borehole, expanding the packing to block a hole opening, then injecting the anchoring material into the hole, and determining filling of the anchoring material in the hole by the return to a return port. The concentration of a return material returning to the return port after injecting the anchoring material is monitored, and injection of the anchoring material is continued at a predetermined pressure higher than the pressure P1 of spring water until the concentration of the return material reaches an appropriate concentration. The concentration of the return material is monitored by opening a passage of the return material when the injection pressure of the anchoring material in the hole reaches a predetermined pressure P2 higher than the pressure P1 of spring water in the hole, and monitoring the concentration of the return material returning to the return port when the passage is opened. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a lock bolt and its construction method. The present invention relates to a lock bolt construction method for determining filling in a hole of a fixing material by returning from a return port, and a lock bolt used in the construction method.

In tunnel construction such as mountains, as shown in FIG. 10, a natural space 1 is excavated to form a tunnel space 2, for example, sprayed concrete is applied to the walls of the tunnel space 2 as necessary, and the walls go into the bedrock. The lock bolt 4 is driven, and then a fixing material such as cement or resin is injected to fix the lock bolt to the ground. By doing as described above, the ground near the inner wall of the tunnel can be strengthened, and by supporting it with the ground inside the rock mass, it is possible to prevent the surrounding wall from collapsing.
FIG. 11 is a configuration diagram of a conventional post-injection type lock bolt with a packer, (A) is an overall view, and (B) is an enlarged view of the mouth. The post-injection type lock bolt with a packer includes a hollow bolt 11 installed in a hole (bore hole) HL opened in a natural ground, a packer 12 attached to the mouth of the hollow bolt 11 to close the hole, and a packer 12 Packer injection hose 13 for injecting under pressure and expanding in the radial direction, fixing material injection hose 14 for injecting a fixing material such as mortar and cement milk into the hole, and the mouth of the hollow bolt 11 (return) The valve 15 is connected to the mouth) so as to be freely openable and closed, and has a washer 16 and a nut (not shown) for pressing and fixing the lock bolt to the ground. The hollow bolt 11 is, for example, a hollow atypical screw node hollow rebar with a special screw formed on the outside.

The construction of the post-injection lock bolt with a packer is to drill a hole in the ground, insert and set the lock bolt in the hole (bore hole) HL, then expand the packer 13 to close the hole, and then fix The material is injected into the hole, and the fixing material (return material) injected into the hole is returned from the tip of the hollow bolt 11 to the return port through the bolt hollow portion, so that the fixing material is filled to the back of the hole. Determine and close valve 15 to complete the injection. In addition to the structure shown in FIG. 11, the post-injection type rock bolt with packer expands in the radial direction by pressurizing the packer, closely adheres to the hole wall, and pressurizes the cement milk as a fixing material to the surrounding soil. Have also been proposed (Patent Document 1).
By the way, when there is spring water at the place where the rock bolt is installed, that is, when groundwater is springing out from the ground behind the packer, in the above construction method, the injected fixing agent is washed away from around the bolt by the spring water. However, the fixing material in the bore hole is thinned and the fixing of the bolt becomes insufficient. Therefore, with a packer that fills the water-permeable packer with water-absorbing polymer powder and cement powder and closes the mouth of the borehole while blocking the water with the packer, and injects the fixing agent into the back of the hole A lock bolt has been proposed (Patent Document 2).
JP-A-11-117698 JP 2006-118130 A

However, when there is a lot of spring water in the bore hole and the spring water pressure in the bore hole is high, even if the mouth of the bore hole is closed with a packer as in Patent Document 2, the water WT overflows on the back side of the hole as shown in FIG. . For this reason, even if the operator determines that the fixing material has been sufficiently filled by confirming the return, and the injection of the fixing material is completed, the fixing material is diluted with water and the concentration of the fixing material in the hole is reduced. May be less than the appropriate value, and sufficient fixing strength may not be obtained. In such a case, conventionally, there is no choice but to take spring water suppression measures by so-called post grout in the form of injecting chemicals to the whole ground before rock bolt construction, which requires a lot of labor, construction period and cost of construction. It is necessary.
From the above, the object of the present invention is to reduce spring water countermeasure work by post-grouting by reliably suppressing spring water from the bore hole and the vicinity of the bore hole and making the concentration of fixing material in the bore hole appropriate. It is an object of the present invention to provide a rock bolt construction method capable of obtaining an appropriate fixing state of a rock bolt work, and a lock bolt usable in the construction method.

In the present invention, a post-injection type lock bolt with a packer is installed in the hole, the packer is expanded to close the hole port, and then the fixing material is injected into the hole and returned from the return port. It is the rock bolt construction method which judges the filling in a hole, and the rock bolt used for this construction method.
-Rock bolt construction method The first rock bolt construction method of the present invention is a process of monitoring the concentration of the return material that returns to the return port after the fixing material is injected, until the concentration of the return material reaches an appropriate concentration. A step of continuing the injection of the fixing material at a predetermined pressure higher than the pressure P1 of the spring water.
Furthermore, the first rock bolt construction method includes a step of opening the flow path of the return material when the injection pressure of the fixing material in the hole becomes a predetermined pressure P2 higher than the pressure P1 of the spring water in the hole, In the monitoring step, the concentration of the return material that returns to the return port when the flow path is opened is monitored.

The second rock bolt construction method of the present invention is provided on the return side, and a pressure feed pump that pumps the fixing material into the hole and stops the pressure feeding of the fixing material at a pressure P3 higher than the pressure P1 of the spring water in the hole. The pressure detection unit detects the injection pressure P2 of the fixing material (P1 <P2 <P3), the step of injecting the fixing material from the pressure pump, and the injection pressure of the fixing material on the return side The step of opening the flow path of the return material when the predetermined pressure P2 is higher than the water pressure P1, the step of monitoring the concentration of the return material returning to the return port, until the concentration of the return material reaches an appropriate concentration A step of continuing the injection of the fixing material, and a step of stopping the pumping of the fixing material when the pressure of the return material reaches the pressure P3 by closing the flow path of the return material when the concentration of the return material reaches an appropriate concentration.
It has.

Lock bolt The lock bolt of the present invention includes a hollow main body installed in a hole, a packer attached to the mouth of the main body to close the hole, and an injection part for injecting a fixing material into the hole. A return device connected to the hollow body in a form communicating with the hole partitioned by the packer, and the return device opens the return material flow path at a predetermined injection pressure and returns the return material. A valve for discharging to the mouth, and a connecting portion connected to the hollow main body and leading a return material to the valve are provided.

According to the present invention, the concentration of the return material that returns to the return port after injection of the fixing material is monitored, and the fixing is performed at a predetermined pressure higher than the pressure P1 of the spring water in the hole until the concentration of the return material reaches an appropriate concentration. By continuing the injection of the material and the discharge of the return material, the spring water from the borehole and the vicinity of the borehole can be suppressed, and the concentration of the fixing material in the hole can be made appropriate.
According to the present invention, when the injection pressure of the fixing material becomes the predetermined pressure P2 higher than the pressure P1 of the spring water in the borehole, the return material is opened so that the return material returns to the return port. By monitoring the concentration of the return material that returns to the rear return port, even if the injection pressure of the grout material increases due to the water pressure, the pumping will not stop, and the pressurized state against the water pressure is maintained and the borehole is maintained. The inside can be reliably filled with a pressurized grout material.

According to the present invention, the fixing material is pumped into the hole and the pumping pump stops the pumping of the fixing material at a pressure P3 higher than the pressure P1 of the spring water in the hole, and the fixing material is injected on the return side. A pressure detector that detects the pressure P2 is provided (where P1 <P2 <P3), the fixing material is injected from the pressure pump, and the injection pressure of the fixing material is a predetermined pressure P2 higher than the pressure P1 of spring water in the hole. The flow of the return material is opened, and the concentration of the return material returning to the return port is monitored, and the injection of the fixing material is continued until the return material reaches an appropriate concentration. When the appropriate concentration is reached, the return material flow path is blocked and when the pressure reaches P3, the fixing material is injected while the spring water is reliably suppressed by stopping the pumping of the fixing material. A fixing state can be obtained.
Further, according to the present invention, even in spring ground, the water in the borehole can be replaced with an appropriate concentration of grout material (fixing material) that has not been diluted, and there is no need to separately inject chemical liquid into the ground. The lock bolt can be completely fixed. Moreover, according to this invention, the lock bolt applicable to said lock bolt construction method can be provided.

-Rock bolt construction device Fig. 1 is an overall configuration diagram of a rock bolt construction device for realizing the rock bolt construction method of the present invention, and a post-injection type lock with a packer in a borehole 22 already formed in a natural ground 21. The state where the bolt 23 is installed is shown.
A post-injection type lock bolt 23 with a packer includes a hollow bolt 23a installed in a bore hole 22 and a water-permeable cloth bag-like packer 23b attached to the mouth of the hollow bolt 23a to close the hole. , A packer injection hose 23c for injecting the packer 23b under pressure and expanding in the radial direction, and a fixing material injection hose 23d for injecting a fixing material such as a grout material into the hole.
A cement grout material is injected into the packer 23b. When cement grout material is injected, the water-permeable packer 23b oozes out only the moisture inside, and the inside of the packer is filled in a hardened state, and the expanded packer adheres to the hole wall of the borehole. Then temporarily seal the borehole.

  The hollow bolt 23a is a hollow irregularly shaped screw node hollow rebar with a special screw formed on the outside as shown in FIG. 2 (A), and increases the adhesion force with the grout material by using the irregularly shaped screw node. Can do. In addition to the above components, the lock bolt 23 has a washer 23e and a special nut 23d for pressing the lock bolt against the ground as shown in FIGS. 2 (B) and 2 (C). . The washer 23e is provided with a bolt insertion hole H1, a fixing material injection hose insertion hole H2, and a packer injection hose insertion hole H3. The special nut 23d includes a cylindrical screw portion 23d-1 and a head portion 23d-2 in which screws to be screwed with the screw portion of the hollow bolt 23a are provided. The cylindrical screw portion 23d-1 is provided with a plastic cap CP for edge cutting. It is installed.

Returning to FIG. 1, a return device 30 is connected to the end of the hollow bolt 23a through a lever pressure-resistant joint (not shown). As will be described in detail later, the return device 30 is connected to the first valve (return valve) 41 that opens the flow path of the return material at a predetermined injection pressure, and the end of the hollow bolt 23a. And a pressure gauge 43 that detects that the injection pressure has reached a predetermined pressure P2 (for example, 2 MPa: 2 megapascals) greater than the pressure P1 of the spring water in the borehole. ing. The pressure gauge 43 is for confirming that the return valve 41 opens the return material flow path at the injection pressure P2, and is not necessarily required, and is not provided in the return device of FIG.
The return valve 41 is connected to a second valve (switching valve) 31 that opens and closes the flow path of the return material. The switching valve 31 can be attached to and detached from the return valve 41 by screwing. The outlet of the switching valve 31 is a return port for the return material, and the return port is provided with a concentration measuring unit 32 for measuring the concentration of the return material. The well-known P funnel measurement can be employed for the measurement of the concentration of the return material.

A hand mixer 33 is provided on the grout material injection side, and a grout material as a fixing material is kneaded and fed into the mixing pressure feed pump 34 (the hand mixer 33 corresponds to the mixing capacity of the mixing pressure feed pump). Can be omitted). The mixing pressure feed pump 34 mixes the introduced grout material and injects it into the bore hole from the fixing material injection hose 23d. A pressure sensor 35 is disposed in the output side grout material passage of the mixing pressure feed pump 34. When the injection pressure on the injection side becomes larger than a set value, the mixing pressure feed pump 34 stops the pressure feeding of the grout material. The fixing material injection hose 23d is provided with a valve 36 for controlling the passage of the grout material.
As described above, the mixing pressure feeding pump 34 is connected to the fixing material injection hose 23d of the lock bolt 23 via the pressure sensor 35, and the return device 30 and the switching valve 31 are connected to the exhaust / return side of the lock bolt. Are connected and open at the return port.
FIG. 3 is an enlarged view of the mouth portion of the lock bolt, and the same parts as those in FIG. The return device 30 to which the switching valve 31 is assembled generally has a T-shaped shape (the switching valve 31 is shown separately from the return valve 41 in the figure), and the connecting portion 42 is connected by a lever type pressure-resistant joint 44. It is connected to the mouth side end of the hollow bolt 23a. The switching valve 31 is attached to the return valve 41 with a screw. The packer injection hose 23c is provided with a valve 37 for controlling the passage of the grout material.

Return device FIG. 4 is an assembled sectional view of the return device, (A) shows the flow channel closed state, (B) shows the flow channel open state, FIG. 5 is an exploded view of the return device, and FIG. It is operation | movement principle explanatory drawing of an apparatus.
As shown in FIG. 5, the return device 30 includes a return valve 41, a connection portion 42, and a lever type pressure joint 44. The return valve 41 includes a piston cylinder 51, a spring 52, a spring pressing member 53, and a piston rod 54. The piston cylinder 51 has a cylindrical inlet passage portion 51a with a thread TH1 cut therein, a cylindrical cylinder portion 51b that communicates linearly with the inlet passage portion, and an outlet passage portion 51c that communicates perpendicularly with the cylindrical cylinder portion. is doing. A spring 52, a spring pressing member 53, and a piston rod 54 with an O-ring 54a are fitted in the cylindrical cylinder portion 51b. Normally, as shown in FIG. 4 (A), the piston rod 54 blocks the entrance passage 51a and the exit passage 51c while the spring 52 is pressed. However, when the return material arrives as shown in FIG. 4B and a predetermined injection pressure P2 that overcomes the spring force of the spring is applied, the piston rod 54 moves in the direction in which the spring 52 is compressed (to the right). Thus, the flow path between the inlet passage 51a and the outlet passage 51c is opened, and the return material can move in the direction of the return port. A screw TH2 is formed on the outer periphery of the distal end of the outlet passage 51c, and the switching valve 31 can be attached and detached by screwing.

  The connecting portion 42 has a cylindrical hollow portion 42a formed therein, and a screw TH3 is formed on the outer peripheral portion of the hollow portion on the cylinder side. With this screw TH3, the connecting portion 42 is screwed with a screw TH1 formed inside the inlet passage portion 51a of the piston cylinder 51 so that it can be attached to the piston cylinder 51. One end abuts against the piston rod 54 and presses the spring 52, whereby a predetermined spring force is applied to the piston rod 54 from the spring. Further, a screw TH4 is formed on the outer peripheral portion of the hollow portion 42a of the connection portion 42 on the lock bolt side, and is screwed with a screw formed on the lever type pressure joint 44, and the lever type pressure joint 44 is connected to the connection portion 42. It can be installed. The screws TH3 and TH4 are separated from each other by a circumferential protrusion 42b, and an O-ring 42c is fitted into the non-threaded portion of the tip of the screw TH3.

The lever type pressure-resistant joint 44 includes an insertion portion 44a into which the end of the hollow bolt 23a of the lock bolt 23 is inserted, a nut portion 44b in which a screw that is screwed into the screw portion TH4 of the connection portion 42 is formed, The lever 44c that can be opened and closed is provided. In the state where the lever type pressure-resistant joint 44 is connected to the connection part 42 of the return device 30 via the nut part 44b and the lever 44c is opened, the mouth side end of the hollow bolt 23a is connected to the abutting part 44d from the insertion part 44a. When the lever 44c is closed, the hollow bolt 23a is connected to the connection portion 42 of the return device 30.
In the return device 30, in the normal state, the piston rod 54 has a spring 52 in a direction (left direction in the drawing) in which the flow path between the inlet passage 51a and the outlet passage 51c is blocked as shown in FIG. Spring force F1 is working. Further, the injection pressure F2 acts on the piston rod 54 in a direction (rightward in the drawing) in which the flow path between the inlet passage 51a and the outlet passage 51c is opened by injection of the fixing material. Accordingly, the injection pressure of the fixing material into the bore hole increases, and at the injection pressure P2 where F2> F1, the piston rod 54 moves to the right as shown in FIG. 6B, and the inlet passage 51a The flow path between the outlet passage portions 51c is opened, and the return material flows in the direction of the return port and is discharged from the return port.

-Rock bolt construction method FIG. 7 is a construction flow of the rock bolt of the present invention. It is assumed that the return device 30 is already connected to the end of the hollow bolt 23a and the switching valve 31 is also attached to the return device 30.
First, a bore hole 22 is drilled in the natural ground 21 (FIG. 1) (step 100), and a post-injection type lock bolt 23 with a packer is inserted and set therein (step 101).
Next, in order to inject and expand the cement grout material into the packer 23b, the pressure sensor (not shown) is set to a pressure P1 (based on the spring pressure P1) suitable for the packer set (step 102), Packer injection is performed by a pressure pump (not shown) through the packer injection hose 23c (step 103).
When cement-type grout material is injected, the water-permeable packer 23b exudes only the moisture inside, and the inside of the packer is filled in a hardened state, and the expanded packer adheres to the hole wall of the bore hole 22. Seal the borehole temporarily. At this time, the injection pressure becomes P1, and the injection of the cement grout material from the pressure pump is completed. In addition, the mixing pressure feed pump 34 and the pressure sensor 35 can be used as the pressure feed pump and pressure sensor for packers.

With step 103 completed, the pressure sensor 35 is set to a pressure P3 higher than the spring water pressure P1 (step 104). Note that when the injection pressure becomes higher than a set pressure P3 (for example, 6 MPa (megapascal)), the mixing pressure feed pump 34 stops the pressure feeding of the fixing material in order to stop the load of the machine within the limit.
Next, grout injection from the packer to the back side of the hole is started (step 105). The target of the injection pressure is a predetermined pressure P2 that is larger than P1 and smaller than P3. For example, P2 = 2 MPa (megapascal). In the initial stage of injection, the switching valve 31 is opened (step 106, confirmation of switching valve opening).
When the grout material is injected into the bore hole from the fixing material injection hose 23d, the air or water that has been in the bore hole until then passes from the tip opening of the lock bolt to the return valve 41 of the return device 30 through the hollow portion. The However, since the injection pressure in the borehole does not reach P2 at the beginning of injection, the return valve 41 is not open. However, when the grout material is filled in the borehole, the injection pressure acting on the return valve 41 gradually increases, and when the injection pressure reaches P2, the return valve 41 opens and the return material is discharged from the return port of the switching valve 31. The return of the return material is confirmed (step 107).

When the return of the return material is confirmed, the concentration of the return material is detected by the concentration detector 32 provided at the return port, and it is determined whether or not the return material has an appropriate concentration (step 108). When spring water dilutes the grout material in the borehole, the dilute grout material is initially discharged as the return material, and the concentration of the return material is not appropriate. If the concentration is not appropriate, the process returns to step 105 to further inject the grout material under pressure. If necessary, the return valve is adjusted to an appropriate concentration by opening and closing the switching valve 31 to perform pumping and pressure injection.
When the return material has an appropriate concentration, the switching valve 31 is closed (step 109). When the switching valve 31 is closed, the injection pressure on the fixing material injection side further increases (step 110, pressurization), and when the injection pressure exceeds the set pressure P3, the mixing pressure pump 34 automatically pumps the fixing material. Stop. This completes the fixing material injection process.

  FIG. 8 is a pressure change diagram of the grout material in the borehole. When the injection of the grout material is started with the switching valve 31 open and the return valve 41 closed, the grout material pressure gradually rises to the set pressure P2. When it reaches, the return valve 41 is opened, and the return material is discharged from the return port. However, since the concentration of the return material is insufficient at first, the fixing material is continuously injected at the injection pressure P2. Thereby, the switching valve 31 is closed when the concentration of the return material reaches an appropriate value. When the switching valve 31 is closed, the injection pressure on the fixing material injection side increases to reach the set pressure P3, and the mixing pressure feed pump 34 stops the feeding of the fixing material.

Summarizing the rock bolt construction method of the present invention,
(1) Monitor the concentration of the return material that returns to the return port after the fixing material is injected.
(2) Continue injection of the fixing material and discharge of the return material at a predetermined pressure higher than the pressure P1 of the spring water in the hole until the concentration of the return material reaches an appropriate concentration,
(3) When the concentration of the return material reaches an appropriate concentration, the flow of the return material is closed and the injection of the fixing material is completed.
The monitoring of the concentration in (1) shows that when the injection pressure of the fixing material in the hole reaches a predetermined pressure P2 higher than the pressure P1 of the spring water in the hole, the return material flow path is opened and the flow path is opened. Thereafter, the concentration of the return material that returns to the return port is monitored.

Moreover, the rock bolt construction method of the present invention is
(1) The fixing material is pumped into the hole and the pumping pump 34 stops the pumping of the fixing material at a pressure P3 higher than the pressure P1 of the spring water in the hole, and the fixing material injection pressure P2 is provided on the return side. Is provided with a pressure detection unit (return device) 43 (P1 <P2 <P3), and a fixing material is injected from the pressure pump,
(2) When the injection pressure of the fixing material becomes a predetermined pressure P2 higher than the pressure P1 of the spring water in the hole, the return material flow path is opened,
(3) Monitor the concentration of return material returning to the return port,
(4) Continue to inject the fixing material at the pressure P2 until the concentration of the return material reaches an appropriate concentration,
(5) When the concentration of the return material reaches an appropriate concentration, the flow path of the return material is closed, and the pressure feeding pump automatically stops the pressure feeding of the fixing material when the pressure P3 is reached.
As described above, according to the present invention, the spring water from the borehole and the vicinity of the borehole can be suppressed, and the concentration of the fixing material in the borehole can be made appropriate.

  FIG. 9 is another block diagram of the rock bolt construction apparatus of the present invention. The difference from FIG. This is the point.

1 is an overall configuration diagram of a rock bolt construction device that realizes the rock bolt construction method of the present invention. It is explanatory drawing of a lock bolt. It is an enlarged view of the mouth part of a lock bolt. It is assembly | attachment sectional drawing of a return apparatus. It is an exploded view of a return device. It is operation | movement principle explanatory drawing of a return apparatus. It is a construction flow of the rock bolt of the present invention. It is pressure change explanatory drawing of a claut material. It is another block diagram of the rock bolt construction apparatus of this invention. It is support construction explanatory drawing in tunnel construction. It is a block diagram of the conventional post-injection type rock bolt with a packer. It is explanatory drawing of the conventional problem in case the spring water pressure in a borehole is high.

Explanation of symbols

21 Ground 22 Drilling hole
23 Post injection lock bolt with packer 23a Hollow bolt 23b Packer 23c Packer injection hose 23d Fixing material injection hose 30 Return device 31 Switching valve 32 Concentration measuring part 34 Mixing pressure feed pump 35 Pressure sensor 41 Return valve 42 Connection part

Claims (4)

A post-injection type lock bolt with a packer is placed in the hole, the packer is expanded to close the hole port, and then the fixing material is injected into the hole and returned from the return port. In the rock bolt construction method to determine filling,
A process of monitoring the concentration of the return material returning to the return port after the fixing material is injected,
Continuing the injection of the fixing material and the discharge of the return material at a predetermined pressure higher than the pressure P1 of the spring water in the hole until the concentration of the return material reaches an appropriate concentration;
A rock bolt construction method characterized by comprising: Opening the return material flow path when the injection pressure of the fixing material in the hole reaches a predetermined pressure P2 higher than the pressure P1 of the spring water in the hole;
And in the monitoring step, monitoring the concentration of the return material that opens the flow path and returns to the return port,
The rock bolt construction method according to claim 1, wherein: A post-injection type lock bolt with a packer is placed in the hole, the packer is expanded to close the hole port, and then the fixing material is injected into the hole and returned from the return port. In the rock bolt construction method to determine filling,
A pressure pump that pumps the fixing material into the hole and stops the fixing material pumping at a pressure P3 higher than the pressure P1 of the spring water in the hole, and a pressure that is provided on the return side to detect the injection pressure P2 of the fixing material Equipped with a detector (however, P1 <P2 <P3)
Injecting a fixing material from the pressure pump;
A step of opening the flow path of the return material when the injection pressure of the fixing material on the return side becomes a predetermined pressure P2 higher than the pressure P1 of the spring water in the hole,
Monitoring the concentration of return material returning to the return port;
Continuing the injection of the fixing material until the concentration of the return material reaches an appropriate concentration;
A step of stopping the pumping of the fixing material when the concentration of the return material reaches an appropriate concentration, and blocking the flow path of the return material to become the pressure P3;
A rock bolt construction method characterized by comprising: In the lock bolt that is placed in the hole and strengthens the ground,
A hollow body placed in the hole;
A packer attached to the mouth of the main body and closing the hole;
An injection portion for injecting a fixing material into the hole;
A return device connected to the hollow body in communication with the hole partitioned by the packer;
The return device comprises:
A valve for opening the return material flow path at a predetermined injection pressure and discharging the return material to the return port;
A connecting portion connected to the hollow body for guiding a return material to the valve;
A lock bolt characterized by comprising:

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