JPS6366997B2 - - 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 allow the resin to harden. Methods such as doing this 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 places with upward perforations and spring water. often leaks out,
Another drawback is that it is difficult to increase the tightening force by applying pretension to the anchor bolt. In addition, the method using resin compensates for the above-mentioned drawbacks, but has the disadvantages that it is expensive, cumbersome to handle, and does not provide sufficient fixing force. 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 prior art. First, a cylindrical body is inserted into a borehole, and a capsule containing cement mortar is inserted through the cylindrical body deep into the borehole. After inserting a capsule enclosing a hardening accelerator and then inserting a mortar, the anchor bolt is inserted into the perforation, thereby destroying each capsule of the cement mortar and hardening accelerator. In addition to making it possible to fix the anchor bolt easily and inexpensively, the anchor bolt has a large fixing force and can be pre-tensioned, thereby improving the construction efficiency and construction economy of the anchor bolt. .

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

Fig. 1 shows the condition inside the borehole just before inserting the anchor bolt.
A cylindrical body 12 made of a material such as plastic, provided with a mesh or formed into a net shape, is inserted. Inserting the cylindrical body 12 in this way prevents the hole from collapsing when drilling in weak ground, etc., and allows for smooth and easy insertion of capsules 3 and 5 or cement mortar 6, which will be described later. This is not only effective but also important in order to prevent the capsules 3, 5 from being damaged by the irregularities formed in the perforation when inserting the capsules 3, 5. Then, the capsule 3 containing the cement mortar 2 is inserted through the cylindrical body 12. This capsule 3 can be crushed by pressing or rotating an anchor bolt inserted later.
For example, it is made of glass or plastic. Further, it is preferable that the encapsulated mortar 2 has a composition that hardens quickly and has high strength. Following cement mortar capsule 3, when mixed with cement mortar and subjected to hydration reaction,
A capsule 5, which can be crushed in the same manner as described above and which contains a hardening accelerator 4 that rapidly hardens the cement, is inserted.
Then, cement mortar 6 is further inserted into the remaining perforation, and then anchor bolts 7 are inserted.

When inserting the anchor bolt 7, its tip should be inserted into the hole 1.
In this case,
The anchor bolt 7 is normally inserted while rotating, whereby the two types of capsules 3 and 5 inserted earlier are destroyed by the anchor bolt 7, and the rotation of the anchor bolt accelerates hardening. Agent 4 is the cement mortar 2 at the other end.
and the forward part of the cement mortar 6 located behind it and are stirred to form a mixed layer 8 as shown in FIG. Become.

Once the tip of the anchor bolt 7 is fixed by the mixed layer 8, pretension is applied to the anchor bolt 7 before the other cement mortar 6 is solidified. This is done by fitting the washer 9 into the borehole entrance and tightening the nut 10. The means for applying this preliminary tension is a conventionally known technique, but it is not limited to the one used in this embodiment, and it goes without saying that other suitable means can be used. Thereafter, the fixation of the cement mortar 6 progresses, and the anchor bolt 7 is fixed within the borehole 1 over its entire length.

As an example, the curing accelerator 4 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 4 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 if there is some spring water. It has the following features.

FIG. 3 shows another embodiment, in which cement mortar 6, which is inserted following capsules 3 and 5, is housed in many capsules 13, 13, etc., and the capsules are inserted one after another. That's what I do. In this way, it is not necessary to use a special device such as a mortar gun to insert the cement mortar 6, and the construction is simplified.

As explained above, the present invention involves inserting a cylindrical body to prevent collapse of the hole into a perforation, passing through the cylindrical body and inserting a capsule in which cement mortar is sealed in the inner part, followed by a capsule in which a hardening accelerator is sealed. The cement mortar and hardening accelerator capsules are destroyed by inserting the cement mortar and hardening accelerator capsules by inserting the anchor bolt into the hole after inserting the mortar, which prevents the hole from collapsing even in fragile ground. In addition to preventing damage to the inserted capsule due to the unevenness formed in the perforation, the construction can be performed easily and reliably. Then, the hardening accelerator 4 is stirred and mixed both in the cement mortar 2 in front of the cement mortar 2 and in the cement mortar 6 inserted from behind, and the hardening accelerator 4 is efficiently utilized to form the tip of the anchor bolt. The rapid fixing range is large, strong fixing is possible, pre-tension can be applied reliably and firmly to the anchor bolt, and other parts of the anchor bolt can be fixed with ordinary cement mortar. Therefore, the material cost is not only low, but also the fixing force of the anchor bolt can be strongly maintained over a long period of time, and many other excellent effects are exhibited.

[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 is a diagram showing a state in which the anchor bolt is fixed, and FIG. 3 is a diagram showing another embodiment. 1...Drilling, 2...Cement mortar, 3...
capsule, 4... hardening accelerator, 5... capsule,
6... Cement mortar, 7... Anchor bolt, 12... Cylindrical body.

Claims (1)

[Claims] 1. A cylindrical body with a large number of holes or a net shape is inserted into the perforation, and a capsule containing cement mortar is inserted into the depth of the perforation, followed by a capsule containing a hardening accelerator. and then inserting the mortar and then inserting an anchor bolt to destroy each capsule of the cement mortar and hardening accelerator,
How to fix anchor bolts.