JPH07166547A - Rock bolts for slopes with excellent corrosion resistance - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a rock bolt having excellent corrosion resistance, which is mainly used to reinforce the ground of a slope made of concrete or mortar sprayed surface. [Structure] A lock bolt 1 mainly used to reinforce the ground side of the slope. The lock bolt 1 is made of a metal member such as steel over the entire length of a tip portion, a connection portion, a rear end portion, and the like. Dacrotized coating 1 over these entire lengths
A metal base 102 made of 01 or the like has a passivated anticorrosion and corrosion resistant coating 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rock bolt having excellent corrosion resistance, which is mainly used for ground reinforcement on a slope formed of concrete or mortar sprayed surface, cut soil or embankment slope.

[0002]

2. Description of the Related Art A conventional rock bolt construction method is shown in FIG.
As shown in 0, a hole making step (1) for making a hole 30 in the ground 3
And the grout filling steps (2) and (3) for filling the grout material 39 such as mortar cement through the pressure hose 38 into the hole 30, and then the hole 30 and the grout material 39.
Lock bolt setting step (4) of setting the lock bolt 7 therein, and fixing of the lock bolt 7 by attaching a pedestal 76 and a tightening tool such as a nut 75 to the head 70 of the lock bolt 7 It consists of a process (5).

In addition to this, the lock bolt 7 has a ground 3
There is a construction method using a driving type (Fig. 14) that is directly driven to the above and a rotating type (Fig. 15) that is directly inserted into the ground while rotating by a hole drilling machine.

The lock bolt 7 generally has an anchor length of about 3 m and a diameter of 20 to 30 mm. Then, the structures of the slope 2 and the ground 3 (ground) are connected to play a role of transmitting the stress received by these structures to the ground side.

Therefore, the rock bolt 7 transmits the stress to the ground having a high consolidation strength such as rock.

The Rockbolt method is generally applied when the ground is an alluvium, unconsolidated soil such as clayey soil, or when the unstable layer 300 is expected to collapse due to weathering or erosion. It is a construction method that is relatively excellent in workability and economic efficiency and highly safe.

The rock bolt construction method is applied when the slope 2 is a steep slope or a vertical surface, and is mainly used to reinforce the tunnel ceiling and the side arches. This is one of the effective civil engineering methods to reduce the amount of waste as much as possible.

As shown in FIG. 11, the lock bolt 7
Is referred to as an anchor head 70, and an unstable layer 300 such as soft ground on the ground 3 side of the slope 2 is referred to as a tensile portion C, and the grout material 39 is filled and solidified. The portion may be referred to as the fixing portion D.

On the ground 3 side of the slope 2, as shown in FIG. 13, when the cavity 301 and the spring 302 are present, the ground is liable to collapse and the unstable layer 300 such as soft ground is easily broken.
Will be formed.

Therefore, recently, on the slope 2 where the unstable layer 300 exists on the ground 3 side, the rock bolt method has been widely adopted mainly for the purpose of reinforcing the ground 3.

On the other hand, the lock bolts 7 used in the conventional construction method are, as shown in FIG. 14, a driving type of which the tip has an acute angle (for example, a 60 ° angle), and as shown in FIG. 15, the tip. There is a rotary type having a specific taper shape.

Further, as shown in FIG. 16, the rotary lock bolt 7 has a dry capsule 38 swollen with water inserted in the hole 30, and the rotary lock bolt 7 having the above-mentioned tapered shape is inserted. While rotating and advancing, the dry capsule 38 is destroyed, and the hole 30 is filled with the resin filling or the like in the dry capsule 38, and the entire lock bolt 7 is fixed by this resin or the like.

The drilling rod 79 is shown in FIGS.
As shown in FIG. 3, the hole is inserted into the ground 3 while rotating and used as the lock bolt 7 as it is.
9 is hollow. Then, the grout material is injected from the hollow portion.

As the lock bolt 7, the anchor length differs depending on the degree of softness of the natural ground 3, that is, the degree to which the natural ground 3 should be reinforced, and an anchor length of about 2 to 5 m is generally used.

As shown in FIGS. 11 and 12, the head 70 of the lock bolt 7 is subjected to a primary tension by using auxiliary members such as a pressure bearing plate 73, a nut 75, a washer 76, and the like. Secondary tension (main tension) is performed.

As a result, as shown in FIGS. 10 (5) and 11, the fixing of the lock bolt 7 is completed and a part of the ground 3 is reinforced.

On the other hand, when the lock bolt 7 is required to have a durability of, for example, 30 to 50 years or more, similar to concrete or mortar, the construction method using the permanent anchor 8 is adopted alone, It may also be used in combination with the lock bolt 7. The permanent anchor 8 generally has a relatively longer anchor length than the lock bolt 7.

In this construction method, for example, since double anticorrosion treatment is performed, an anchor coated with an epoxy (gebinde) resin having excellent water resistance and corrosion resistance is used, or a zinc-coated waterstop or the like is attached as an accessory thereof. It is used.

As a result, the permanent anchor 8 is also subjected to double anticorrosion treatment, and the permanent anchor 8 is treated with seepage water or groundwater in the natural ground 3.

The purpose of this is to prevent the generation of rust due to oxidation so as to bring about the rust preventive effect of the entire anchor.

Therefore, in this method, various synthetic resin head caps 81 made of polypropylene resin, couplers 82, other accessory parts, and sealing materials made of silicon rubber or the like are used supplementarily.

[0022]

However, the above-mentioned prior art has the following problems. Originally, the lock bolt 7 has been mainly used for reinforcing the ground of the arch portion such as the tunnel ceiling and the side surface. The tunnel ceiling is generally subjected to anticorrosion treatment using a sealing material in order to protect vehicles such as automobiles and trains traveling on roads and railways. Therefore, even if the lock bolt 7 is made of a metal member such as iron or steel and its surface is not subjected to any special anticorrosion treatment, the durability of the lock bolt 7 is secured to some extent.

However, when the rock bolt 7 is used for a slope such as a concrete or mortar spraying surface or for ground reinforcement, infiltration water or groundwater often exists on the ground side.

Therefore, the grout material 39 (see FIG. 10 (5))
If a crack is generated in the rock bolt 7, the surface of the lock bolt 7 may be oxidized by the penetration of permeated water or ground water from the cracked portion, resulting in rust.

In such a case, even if the durability of the slope such as concrete or mortar spraying surface is 30 to 50 years or more, the durability of the rock bolt 7 used for reinforcing the ground becomes less than that. In some cases, the stability of the entire slope may be lacking.

Therefore, a sufficient anticorrosive treatment is also required for the rock bolt 7 for reinforcing the ground on the slope such as the surface on which concrete or mortar is sprayed, and the durability is required to be, for example, 30 to 50 years or more.

On the other hand, the epoxy resin coating film applied to the permanent anchor 8 may not generally have good adhesion to the grout material 39 such as concrete or mortar.

It is also conceivable that cracks may occur in the coating film due to the difference in expansion / contraction ratio between the permanent anchor 8 made of a metal member and the epoxy resin.

In such a case, permeated water or groundwater penetrates through the cracked portion, and rust also occurs on the surface of the permanent anchor 8. Then, the synthetic resin head cap 8
1, some accessory parts such as the coupler 82 do not have excellent acid corrosion resistance. Further, it is complicated and expensive to apply the same anticorrosion treatment to these permanent parts as the permanent anchor 8.

On the other hand, even in the method of using the dry capsule 38 (see FIG. 16), it is considered that the lock bolt 7 is not rusted due to the adhesion between the lock bolt 7 and the filling resin and the generation of cracks. The dry capsule 38 is generally more expensive and economically disadvantageous than the grout material 39.

On the other hand, the driving type lock bolt (see FIG. 14).
(Refer to FIG. 15) and the rotary type lock bolt (see FIG. 15), when the tip end is significantly worn when it is inserted into the natural ground 3,
Due to this, the durability of the lock bolt 7 may be reduced.

The present invention has been made in view of the above-mentioned problems of the prior art, and particularly, improves the corrosion resistance of a rock bolt whose main purpose is to reinforce the ground consisting of concrete or mortar sprayed surface, cut soil or embankment slope. It is the one to try.

[0033]

In order to solve the above-mentioned problems, the means adopted by the invention according to claim 1 is that "a main purpose is to reinforce the ground on a slope composed of concrete or mortar sprayed surface, etc." The lock bolt 1 comprises a metal member such as iron or steel over the entire length of the front end portion 11, the connecting portion 13, the rear end portion 12, etc., and the front end portion 11, the connecting portion 13, the rear A rock bolt 1 for slopes having excellent corrosion resistance, characterized in that it has a rust-preventive corrosion-resistant coating 10 in which a metal base 102 made of a dacrotized coating 101 etc. is passivated over the entire length of an end portion 12 etc. " .

The means adopted by the invention according to claim 2 is that "a nut 15, which is a metal member used for the lock bolt 1, a pressure bearing plate 16, a washer 17 and the like, and a metal element including a dacrotized film 101 and the like. The rock bolt 1 for slopes having excellent corrosion resistance according to claim 1, characterized in that the ground 102 has a passivated anticorrosion and corrosion resistant coating 10. "

The means adopted by the invention according to claim 3 is that "the lock bolt 1 has a total length of 1.0 to 5.0 m,
The rear end portion 12 or the connection portion 13 has a connecting coupler 14 made of a metal member, and the connecting coupler 14 has a passivated metal base 102 made of a dacrotized coating 101 and the like. The rock bolt 1 for slopes having excellent corrosion resistance according to claim 1 or 2, further comprising: It is.

The means adopted by the invention according to claim 4 is that "the lock bolt 1 is a rotary lock bolt such as a drive type lock bolt, a self-drilling type lock bolt, a grout lock bolt, a dry capsule lock bolt, or the like. 1. A bolt-type metal base 102 made of a dacrotized coating 101 or the like over its entire length, which has a passivated rust-proof and corrosion-resistant coating 10 and an alkali-resistant coating on its surface. The lock bolt 1 described in any one of item 3.

The means adopted by the invention according to claim 5 is that "the self-drilling type rock bolt 1 is a metal base 1 having a hollow main body 100 and a dacrotized coating 101 on the entire surface thereof.
02 has a passivated rust-proof and corrosion-resistant coating 10 and an alkali-resistant coating, and has a tip-equipped bit 18 at a tip portion 11 thereof, according to any one of claims 1 to 4. The described lock bolt 1. It is.

Means for forming the dacrotized film 10 include, for example, metallic zinc flakes, chromic anhydride, and
First, a treatment liquid including glycols is prepared. next,
A lock bolt or an accessory to be processed is immersed (dipped) in this processing liquid. Then, pull it up to remove excess drops. Next, the metal ground 102 is about 260-33.
It is heated to 0 ° C. using, for example, a hot air circulation furnace.

As a result, hexavalent chromium is reduced by an organic substance such as glycol, and water-insoluble amorphous (nCrO ₃
.MCr ₂ O ₃ ) is produced, and this becomes a binder,
As a result, the metal zinc flakes laminated in dozens of layers are bound to each other to form the anticorrosion and corrosion resistant coating 10 in which the metal base material 102 including the dacrotized coating 101 is passivated (see FIG. 9). Also, as the alkali resistant coating,
For example, there are coating films of epoxy resin and urethane resin.

The lock bolt 1 may be made of a metal member such as iron or steel having an anchor length of 1 to 2 m and a diameter of 25 to 28 mm. The lock bolt 1 is roughly classified into an insertion type lock bolt that is directly inserted into the hole 30 formed in the natural ground 3, a driving type lock bolt 1 that is directly driven into the natural ground, and is rotated by a hole drilling machine. There is a rotary lock bolt 1 that is inserted into the hole 30.

Further, examples of the rotary type lock bolts include self-drilling or grout lock bolts (see FIGS. 3 and 6) and dry capsule lock bolts 1 (see FIG. 15).

Although the rotary lock bolt generally has male screw-like nodes (protrusions) having a constant pitch, some of the insertion type lock bolts do not have such protrusions.

Further, as the lock bolt 1, one type having an anchor length of, for example, 1 to 5 m and one having an anchor length of, for example, 1 to 2 m are used by being connected through a connecting coupler (FIG. 6). There is a connection type (FIGS. 3 and 6).

In the case of the connection type, it is preferable that a connection coupler 14 made of a metal member is previously attached to the rear end portion 12 or the connection portion 13. This facilitates connection work and improves workability at work sites that require relatively long anchor lengths.

The connecting coupler 14 is a straight type (FIG. 6A) or a semi-bridge type (FIG. 6A).
(B) and full-bridge type (Fig. 6 (c)), which are treated at the same time as the lock bolt 1, and the metal substrate 102 made of the dacrotized film 101 and the like is passivated. It is preferable to have As a result, the productivity of the connection type lock bolt 1 is improved and the corrosion resistance of the connection coupler 14 is also improved.
The connection strength between the lock bolts is improved.

The self-drilling type rock bolt 1 is composed of a hollow main body, and it is preferable that not only the outer surface thereof but also the hollow inner surface thereof have the above-mentioned rust-corrosion-resistant coating 10 simultaneously treated. As a result, the productivity of the self-drilling rock bolt 1 is improved, and even after the grout material is filled from the hollow portion, rust does not occur on the inner surface of the hollow, and the corrosion resistance in the hollow portion of the self-drilling rock bolt is improved. .

In the self-drilling type lock bolt 1, it is preferable that the tip of the hollow body has a removable bit with a tip. As a result, only the hollow body or the state in which the chip-equipped bit is mounted can be dipped in the treatment liquid to perform the dacrotized treatment.

In addition to the lock bolt 1, accessory parts used for the lock bolt 1, such as the coupler 14 for connection, the nut 15 (see FIG. 7) and the washer 17 used together therewith, may also have the anticorrosion and corrosion resistant coating 10. preferable. As a result, the corrosion resistance of the fixed lock bolt 1 in use as a whole is improved.

When the lock bolt 1 and the accessory parts such as the connecting coupler 14 used for the lock bolt 1 are subjected to the dacrotizing treatment, it is preferable that all of them are simultaneously subjected to the dip treatment or the heat treatment. This allows
The productivity of the lock bolt 1 and the accessory parts is improved, and the cost can be reduced.

[0050]

The lock bolt of the present invention constructed as above and the accessory parts used therefor will be described with reference to the drawings of the embodiments.

The lock bolt 1 of the present invention comprises a tip 11,
Over the entire length of the rear end portion 12, the connection portion 13 and the like, the metal base 102 made of the dacrotized coating 101 and the like is provided with the passivated anticorrosion and corrosion resistant coating 10. Therefore, the corrosion resistance of the entire lock bolt 1 is improved.

It is considered that the reason why the corrosion resistance is improved is as follows. Hexavalent chrome is reduced by glycols in the process of forming the dacrotized coating 101, and a coating in which zinc flakes stacked in several tens of layers are formed by water-insoluble amorphous as a binder is formed. At the same time, the anhydrous chromium oxidizes the surface of the metal member and chemically bonds to it, so that the dacrotized coating 101 having a strong fixing force is formed on the metal substrate 1.
It is thought to be because it occurs in 02.

As a result, this dacrotized film 101
It is considered that, due to the self-sacrificing protection effect, the passivation of the metal base material 102 with anhydrous chromium, and the barrier effect of the zinc compound of the zinc flake, the rock bolt 1 is provided with excellent corrosion resistance. .

Therefore, according to the present invention, it is possible to obtain a lock bolt and an accessory which are excellent in corrosion resistance and hardly change even in various acid corrosion tests described later.

[0055]

【Example】

(Embodiment 1) A lock bolt according to an embodiment of the present invention and an accessory used together therewith will be described with reference to FIGS. 1, 2 and 9.

As shown in FIG. 1, the lock bolt 1 of this embodiment
Has a rolled threaded portion 121 at a front end portion 11 and a rear end portion 12 each having an acute angle (about 60 °) having a substantially equilateral triangular cross section, and a male screw-shaped protrusion 191 on a main body.

It should be noted here that, as shown in FIG. 9, the metal base 102 made of the dacrotized coating 101 and the like is passivated over the entire length of the front end 11 and the rear end 12 of the lock bolt 1. That is, the formed anticorrosion and corrosion resistant coating 10 is formed. Thereby, the corrosion resistance of the entire lock bolt 1 is improved.

The reason is considered as follows. The lock bolt 1 as the product of the present invention having the rust-proof and corrosion-resistant coating 10 and the lock bolt 7 as the conventional product having no rust-proof and corrosion-resistant coating 10 and the lock bolt 71 having the hot-dip galvanizing as the comparative example are corroded. A weight loss test (A) and a plate thickness reduction test (B) were performed.

Further, the lock bolt 1 as the product of the present invention and the lock bolt 71 as the comparative product were subjected to a coating swelling width comparison test (C) and a coating peeling width test (D).
The results are shown in Tables 1 to 4. In this case, the dacrotized film 101 of the lock bolt 1 has a thickness of about 8 μm (240 m).
g / dm ² ), and the hot-dip galvanized coating of the rock bolt 71 is 550 g / m ² .

[0060]

[Table 1] Test A uses a treatment liquid obtained by adding hexane to hydrochloric acid, and the treatment is performed for 4 hours in accordance with the salt spray test JIS Z2381 and 60 hours.
Drying condition of 20 to 30% RH at ℃ ± 1 ℃ for 2 hours and 50
The wet condition of 95% to RH or more for 2 hours was repeated at ± 1 ° C. The size of the test pieces of the lock bolt 1, the lock bolt 7, and the lock bolt 71 is 70 mm × 150 mm.
In each case, after acid-resistant masking was applied to the entire surface, two cutting scratches each having a length of about 50 mm were made with a cutter blade.

[0061]

[Table 2] The test (B) was processed under the conditions according to the test (A). Then, the reduction in plate thickness was measured using a digital point micrometer.

[0062]

[Table 3] The test (C) was processed under the conditions according to the test (A). The measured numerical value is the maximum swelling width measured from the scratch.

[0063]

[Table 4] The test (D) was processed under the conditions according to the test (A). Then, the measured numerical value is obtained by sticking a cellophane tape on the scratched portion, pulling it diagonally upward at 30 to 40 ° C. from the horizontal, and measuring the peeling dimension.

As is clear from the above results, the lock bolt 1 of the present invention showed no change in any test. On the other hand, the conventional lock bolt 7 and the comparative lock bolt 71 clearly showed corrosion.

Therefore, according to the present invention, the rock bolt 1 for reinforcing the natural ground such as a concrete or mortar spraying surface is used.
Therefore, it is considered that the same corrosion resistance as concrete or mortar sprayed surface, for example, durability of 30 to 50 years or more is improved. (Embodiment 2) This embodiment provides a connection type lock bolt 1 as shown in FIGS. 3 and 4 in place of the lock bolt 1 according to Embodiment 1.

That is, as shown in FIGS. 3 and 4, two lock bolts 1 are connected to each other at a connecting portion 13 at a substantially central portion with a connecting coupler 14 interposed therebetween.

As the lock bolt 1, a connection type (FIG. 3) and a self-piercing type (FIG. 4) are prepared.

Next, in each of the lock bolts 1, for example, a connecting coupler 14 made of a metal member is screwed in advance at the rear end portion 12 or the connecting portion 13, for example.

Then, in the same manner as in Example 1,
Simultaneously immersing in the treatment liquid consisting of the metallic zinc flakes, anhydrous chromium and glycols, and then heat-treating it to form the passivated anticorrosion and corrosion resistant coating 10 including the dacrotized coating 101 on the metal substrate 102. .

As a result, the rear end portion 12 of the lock bolt 1
Alternatively, the connection-type lock bolt 1 having the connection coupler 14 preliminarily attached and the entire rust-corrosion-resistant coating 10 is obtained in the connection portion 13.

Therefore, according to this embodiment, by obtaining the lock bolt 1 having a relatively long length, for example, the anchor length of 2 to 5 m, the connection suitable for the ground reinforcement of the slope 2 such as concrete or mortar sprayed surface is obtained. A lock bolt 1 of the formula can be provided.

(Embodiment 3) As shown in FIG. 5, this embodiment provides a self-drilling type lock bolt 1 having a tip portion 11 to which a removable bit with a tip is attached. .

Further, as shown in FIGS. 6 to 8, the lock bolt 1 and the connecting coupler 14 (FIG. 6), the nut (FIG. 7), various pressure plates 16 and similar keyhole plates 161 used for the lock bolt 1. , The pedestal 162 and the like are all made of metal members such as iron and steel, and have a rust-proof and corrosion-resistant coating 10 that is passivated on the surface of the metal base 102 made of the dacrotized coating 101 on the entire surface. I will provide a.

The lock bolt 1 and its accessory parts are
Similar to Example 1, the whole is simultaneously immersed in the treatment liquid, then they are pulled up, and the whole is heat treated at the same time. After that, urethane resin is applied to the entire surface.

As a result, all the accessory parts such as the lock bolt 1, the connecting coupler 14, the nut 15, and the pressure bearing plate 16 have the rust-proof and corrosion-resistant coating 10 and the alkali-resistant coating (not shown), and all of them are completely corrosion-resistant. It has been processed.

Therefore, according to the present embodiment, when reinforcing the ground on the slope, the rock bolt 1 and its accessory parts, which are further improved in corrosion resistance as compared with the first and second embodiments, should be used. You can

[0077]

As described above in detail, in the invention according to claim 1, as shown in the first embodiment, "the main purpose is to reinforce the ground on the slope made of concrete or mortar sprayed surface. The lock bolt 1 includes a front end portion 11, a connecting portion 13, and a rear end portion 1.
Made of metal such as iron or steel over the entire length such as 2.
In addition, it has a rust-corrosion-resistant coating 10 in which the metal substrate made of the dacrotized coating 101 and the like is passivated over the entire length of the tip portion 11, the connecting portion 13, the rear end portion 12 and the like. " On the ground 3 side of the slope 2, the unstable layer 300 is anchor-reinforced and the slope 2 having excellent stability is obtained.

According to the lock bolt 1 of the second aspect,
The nut 15, which is made of metal parts, which is used for the lock bolt 1, the bearing plate 16, the washer 17, and the like, and the metal substrate 102 which is made of the dacrotized film 101 and the like have the passivated anticorrosion and corrosion resistant coating 10. , Slope 2
Also, the corrosion resistance of the entire lock bolt 1 fixed on the ground 3 is improved.

According to the lock bolt 1 of claim 3,
The lock bolt 1 has a total length of 1.0 to 5.0 m, and has a connecting coupler 14 made of a metal member at the rear end portion 12 or the connecting portion 13, and the connecting coupler 14 is a dacrotized film 101. Since the metal base 102 made of, for example, has the passivated rust-proof and corrosion-resistant coating 10, it is possible to provide a connection-type lock bolt 1 suitable for ground reinforcement that requires a relatively long anchor length. it can.

According to the lock bolt 1 of the fourth aspect,
The lock bolt 1 is one of a drive type lock bolt, a self-drilling type lock bolt, a rotary type lock bolt such as a grout lock bolt, a dry capsule lock bolt, and the like.
Since the metal base 102 made of, for example, is passivated and has the rust-corrosion-resistant coating 10 and the alkali-resistant coating,
When driving the rock bolt 1 to the ground 3 of the
It is possible to provide the lock bolt 1 which is excellent in corrosion resistance by adopting either the rotary type or the insertion type.

According to the lock bolt 1 of the fifth aspect,
The self-drilling type rock bolt 1 has a rust-proof and corrosion-resistant coating 10 and an alkali-resistant coating in which a metal base 102 made of a dacrotized coating 101 and the like is passivated on the entire surface of a hollow main body 100, and the tip portion thereof. Since the removable bit 18 with a tip is provided at 11, it is possible to provide the rock bolt 1 with extremely excellent corrosion resistance, which can easily replace the worn bit 18 with a tip.

Therefore, according to the present invention, the ground reinforcement of the slope 2 made of concrete or mortar sprayed surface,
It is possible to provide the rock bolt 1 having excellent durability and corrosion resistance similar to that of concrete or mortar, and an accessory used for the same.

[Brief description of drawings]

FIG. 1 is a side view of a lock bolt according to a first embodiment.

FIG. 2 is a side view of a lock bolt of another aspect according to the first embodiment.

FIG. 3 is a side view of a lock bolt according to a second embodiment.

FIG. 4 is a side view of another aspect according to the second embodiment.

FIG. 5 is a side view of a lock bolt according to a third embodiment.

FIG. 6 is a side view of a connecting coupler according to a third embodiment.

FIG. 7 is a side view of the nut according to the third embodiment.

FIG. 8 is a side view of a pressure bearing plate according to a third embodiment.

FIG. 9 is a schematic enlarged cross-sectional view of the metal ground surface of the lock bolt according to the embodiment.

FIG. 10 is an explanatory diagram of each step of a conventional rock bolt construction method.

FIG. 11 is a cross-sectional view of a conventional rock bolt construction method.

FIG. 12 is a plan view of the vicinity of a lock bolt in a conventional lock bolt construction method.

FIG. 13 is a cross-sectional view showing an unstable layer on the background side of a conventional slope.

FIG. 14 is a side view of a conventional driving type lock bolt.

FIG. 15 is a side view of a conventional rotary lock bolt.

FIG. 16 is an explanatory diagram of a conventional method using a dry capsule.

FIG. 17 is a diagram illustrating the use of a conventional self-piercing lock bolt.

FIG. 18 is a cross-sectional view showing a fixing state of a conventional self-piercing lock bolt.

[Explanation of symbols]

 1 Rock Bolt 2 Slope 3 Ground 10 Anti-corrosion and Corrosion Resistant Film 11 Tip 12 Rear End 13 Connection 101 101 Dacrotized Film 102 Metal Ground

Claims (5)

[Claims] 1. A lock bolt, which is mainly used to reinforce the ground side of a slope made of concrete or mortar spraying surface, the lock bolt having a full length such as a front end portion, a connection portion, and a rear end portion. Over the iron, steel and other metal members, and the front end portion, the connection portion, the rear end portion and the like has a passivated anticorrosion and corrosion resistant coating metal base metal consisting of a dacrodized coating etc. Slope lock bolt with excellent corrosion resistance. 2. An accessory such as a nut, a pressure plate, and a washer made of a metal member used for the lock bolt,
The rock bolt for slopes having excellent corrosion resistance according to claim 1, wherein the metal base material made of a dacrotized film or the like has a passivated rust-proof and corrosion-resistant film. 3. The lock bolt has a total length of 1.0 to
It has a length of 5.0 m and has a connecting coupler made of a metal member at the rear end portion or the connecting portion, and the connecting coupler has a rust-corrosion-resistant coating in which a metal ground surface made of a dacrotized coating is passivated. The rock bolt for slopes having excellent corrosion resistance according to claim 1 or 2, further comprising: 4. The lock bolt is any one of a drive type lock bolt, a self-drilling type lock bolt, a rotary type lock bolt such as a grout lock bolt, a dry capsule lock bolt, and the like. 4. A sloped surface having excellent corrosion resistance according to any one of claims 1 to 3, characterized in that the metal base material made of, for example, has a passivated rust-proof corrosion-resistant film and an alkali-resistant film on its surface. Lock bolt for. 5. The self-drilling type rock bolt has a rust-proof and corrosion-resistant coating in which a metal substrate made of a dacrotized coating is passivated on the entire surface of a hollow body and an alkali-resistant coating on the surface, The rock bolt for slopes having excellent corrosion resistance according to any one of claims 1 to 4, wherein the tip has a removable bit with a tip.