JPS6366998B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for securing anchor bolts using cement mortar and hardening accelerators within a borehole.

Conventionally, various anchor construction methods have been used to prevent cracks, cave-ins, etc. by driving anchor bolts during tunnel construction. In conventional construction methods, cement mortar is injected together with the anchor bolt, or a capsule filled with resin is inserted into the hole, and the anchor bolt is inserted to break the capsule and release the resin. Methods such as curing are being implemented.

The above method of fixing anchor bolts with cement mortar uses inexpensive materials and is easy to install, but it takes a lot of time to fix the anchor bolts, and cement mortar is used in areas with a lot of spring water or in upwardly facing holes. In addition, the method using resin has a rapid setting property, so it can be quite effective in areas with a lot of spring water and drilling upwards, but the material cost is high. It has the disadvantage that it is troublesome to handle and cannot maintain a strong fixing force over a long period of time. In addition, in weak ground, the hole collapses, making it difficult to insert capsules, cement mortar, etc.

The present invention was proposed in view of the above-mentioned drawbacks of the conventional art. First, a cylindrical body is inserted into a borehole, cement mortar is inserted through the cylindrical body into the borehole, and then a hardening accelerator is encapsulated in a capsule. By inserting the capsule and then inserting the anchor bolt, the capsule is destroyed and the hardening accelerator and cement mortar are mixed, thereby making it possible to bury and fix the anchor bolt easily and inexpensively, and also to fix the anchor bolt. The purpose is to maintain strength over a long period of time, and to fix anchor bolts efficiently and economically.

Embodiments of the present invention will be described below with reference to the drawings.

Figure 1 shows the state inside the borehole just before inserting the anchor bolt.First, a large number of holes 9 are made or formed in a net shape in the borehole 1, which is made at the required depth in the rock mass. A cylindrical body 10 made of plastic material is inserted. Inserting the cylindrical body 10 in this manner prevents the hole from collapsing when drilling in weak ground, allows the cement mortar 2 and the capsule 4 to be inserted smoothly, and makes it easier to insert the capsule 4. This is important in order to prevent damage to the capsule 4 due to the unevenness formed within the perforation. Cement mortar 2 is inserted through this cylindrical body 10 using, for example, a mortar gun, and then mixed with the cement mortar and hardened rapidly when it undergoes a hydration reaction. A capsule 4 containing an accelerator 3 is inserted. This capsule 4 is made of, for example, glass or plastic and can be broken by pressing or rotating an anchor bolt inserted later. Subsequently, the anchor bolt 5 is inserted. At this time, while rotating the anchor bolt 5,
The tip thereof is made to reach the innermost part of the perforation 1.

By rotating and inserting the anchor bolt 5, the capsule 4 is destroyed, and the hardening accelerator 3 inside flows out and is mixed and stirred with the cement mortar 2, and the second
As shown in the figure, a mixed layer 6 is formed at the base of the perforation,
The anchor bolt 5 is rapidly adhesively fixed in the borehole 1 at that point.

In this state, by fitting the washer 7 into the hole entrance and tightening the nut 8, the work of fixing the anchor bolt 5 is completed. Thereafter, the cement mortar 2 solidifies, and the anchor bolt 5 is fixed in the borehole 1 over its entire length.

As an example, the curing accelerator 3 is CaO ₃ =about 1/3,
It is preferable to use a blending ratio of approximately 1/3 SO ₃ and approximately 1/3 Al ₂ O ₂ . This hardening accelerator 3 and cement mortar react to form calcium sulfoaluminate hydrate (3CaO, AlO ₃ , 3CaSO ₄ ,
32H ₂ O, and 3CaO, Al ₂ O ₃ , CaSO ₄ , 12H ₂ O)
is formed, making the mortar expandable and at the same time significantly increasing the activity of dicalcium silicate and tricalcium silicate in the cement, making it extremely hard. This curing accelerator exhibits high strength at the same time as rapid setting, and also exhibits appropriate expansibility, thereby increasing the adhesion between mortar and rock. In addition, it has hydraulic properties and does not reduce the long-term strength of cement. Furthermore, since it does not contain any chloride, there is no risk of corrosion of the anchor bolt, and it has a strong quick setting force and hardens in a few minutes, so the anchor bolt can be fixed even in the presence of some spring water. It has the following features.

In addition, as shown in FIG. 3, the capsule 4 is inserted a little deeper than the entrance of the hole, and the capsule 12, which can be broken in the same way as above, and which contains the cement mortar 11 is inserted in front of it, and then the anchor bolt is inserted. 5 can also be inserted. In this case, the hardening accelerator 3 is mixed and stirred not only with the previously inserted cement mortar 2 but also with the cement mortar 11 that has been broken by the anchor bolt 5 and flowed out, so that it can be effectively utilized.

Cement mortar 2 into capsules 13 similar to the above
In addition to preparing a large number of mortar 2, the hardening accelerator 3 is also sealed in many capsules 4, and if the capsules are inserted, a special device for inserting the mortar 2 is not required. Therefore, the construction becomes easier, and the cement mortar 2 and hardening accelerator 3 are mixed and stirred extremely well over the entire length of the borehole 1, and the anchor bolt 5 is more firmly fixed.

As explained above, the present invention involves inserting a cylindrical body into a borehole to prevent collapse of the hole, inserting cement mortar through the cylindrical body, and then inserting a capsule containing a hardening accelerator into the base of the borehole. By inserting the anchor bolt and then inserting the anchor bolt, the capsule is destroyed and the hardening accelerator and cement mortar are mixed. This prevents hole collapse and ensures reliable construction even on weak ground. At the same time, the unevenness formed in the perforation can prevent damage to the capsule to be inserted, and construction can be performed easily and reliably.

Then, the hardening accelerator and cement mortar are stirred and mixed to form a quick-setting mixed layer, which not only makes it possible to quickly fix the anchor bolt, but also allows the anchor bolt to hold up well over a long period of time. It has many advantages, such as being able to maintain a strong anchoring force, and since the quick-setting mixed layer is formed from the base of the hole, it is suitable for construction methods that do not apply pre-tension to the anchor bolt. It has the following effects.

[Brief explanation of drawings]

The drawings are side sectional views showing embodiments of the present invention.
Figure 1 shows the state just before inserting the anchor bolt.
FIG. 2 shows a state in which the anchor bolt is fixed, and FIG. 3 shows another embodiment. 1...Drilling, 2...Cement mortar, 3...
Hardening accelerator, 4... Capsule, 5... Anchor bolt, 10... Cylindrical body.

Claims (1)

[Claims] 1. Insert a cylindrical body with a large number of holes or a net shape into the perforation, insert cement mortar into the perforation from within the cylindrical body, and then fill the base of the perforation with a hardening accelerator. 1. A method for fixing an anchor bolt, which comprises inserting a capsule containing a mixture thereof, and then inserting an anchor bolt, thereby destroying the capsule and mixing a hardening accelerator and cement mortar.