JPH0772418B2 - Anchor tension material - Google Patents

Description

TECHNICAL FIELD The present invention relates to an anchor tension material used in an anchor construction method for supporting a retaining wall and the like.

Conventional technology Anchors are generally made by drilling holes in the ground to make PC steel wire or PC.
Insert a tensile steel material such as steel stranded wire, fill it with an anchor paste such as cement milk and cure it to form a fixing body.Frictional resistance between the fixing body and the ground surface in the ground and the tensile steel material and the fixing body The pulling force acting on the tensile steel material is resisted by the adhesive force between them. Therefore, in order to improve the resistance of the anchor, it is required to increase the adhesive force between the tensile steel material and the anchor paste. Therefore, conventionally, in order to improve the adhesive force between the tensile steel material and the fixing member, a tensile steel material provided with a plurality of grips at predetermined intervals has been proposed.
(Japanese Utility Model Laid-Open No. 55-96932 and Japanese Patent Laid-Open No. 58-600).

Problems to be Solved by the Invention As previously proposed, by attaching a plurality of grips, it is possible to increase the adhesive force between the tensile steel material and the fixing member. However, since the tensile steel material is stretched from its base end portion by the tension, the stress acting on each grip is not uniform, and the tensile stress is not evenly transmitted to the fixing body.
When the stress is partially concentrated on the fixing body and the stress reaches a certain limit or more, fine cracks are generated at that portion, and the fixing body is broken in a chain. If left in the ground with cracks for a long time, moisture and harmful gas in the ground will penetrate the inside of the fixing body through the cracks and corrode the tensile steel material, lowering the anchor strength. To do.

The present invention has been devised in view of the above circumstances, and uniformly spreads the tensile stress applied to the tensile steel material to the fixing member to improve the adhesive force with the fixing member and to fix the fixing member by stress concentration. It is an object of the present invention to provide an anchor tension material capable of preventing fine cracks of (1) and corrosion of a tensile steel material.

Means for solving the problem The above problem is that a plurality of grips are fixed to the coated tensile steel material at appropriate intervals, and the thickness thereof is changed according to the movement amount of the grip due to the elongation of the tensile steel material during tension action. This can be solved by adopting an anchor tension member characterized in that the cushion packing is attached to the moving side end portion of the grip, and the grip and the cushion packing are covered with a water blocking sheath.

Action Attach a grip to the part that will be the fixing part of the tensile steel,
When a tensile force is applied, tensile stress acts on the axial section of the grip, and the tensile force is transmitted to the fixing body.By attaching several grips, the tensile stress is dispersed and transmitted to the fixing body. It will be. Due to the tensile stress, the unbonded tensile steel material extends from the fixed end side, and the amount of extension increases as it approaches the free end portion (stress side) of the anchor, which increases the grip movement amount. As a result, the tensile stress transmitted on the bearing surface of each grip is different, and the stress is partially concentrated on the fixing member. Therefore, if a cushion packing for cushioning the amount of movement of the grip is interposed between the end of the grip in the moving direction and the fixing body, uniform tensile stress is transmitted to the fixing body from each grip bearing surface. As a result, tensile stress is not locally concentrated on the fixing body, and the entire fixing body withstands the tensile force, so that the fixing body is prevented from being broken by fine cracks. As a result, there is no intrusion of groundwater or the like, corrosion of the tensile steel material can be prevented, and the reliability of the anchor can be improved. Furthermore, since the tensile steel material is covered by unbonding and is covered by the grip and the cushion packing, the entire tensile material is completely covered and is semipermanently protected from ground water and harmful gas.

Embodiment Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows an example of anchor construction using an anchor tension material according to the present invention. In the figure, reference numeral 1 is a tensile steel material composed of unbonded PC steel wire or PC twisted steel wire, and 2 is a compression grip which is crimped to the fixing portion A of the tensile steel material at substantially equal intervals. Like the conventional one, the unbonded tensile steel material has a rust preventive effect by coating a synthetic resin such as high density polyethylene by melt extrusion while injecting grease into the outer circumference of the tensile steel material. Yes, it has excellent rust resistance. Therefore, the tensile steel material can be semipermanently protected from groundwater, harmful gas, and the like. Then, the unbonded tensile steel material can be stretched with respect to the fixing body, and by tension,
Elongation comes out from the fixed end side. 3 is a cushion packing whose thickness is changed according to the amount of movement of each grip caused by the elongation of the unbonded tensile steel material, and is formed of sponge or raw rubber. The cushion seal is not attached to the grip 2 _a part of the top end are sequentially mounted in thickness having the amount of movement of the cushion from the two first grip 2 ₂ parts later. 4 is a waterproof sheath that covers the grip and the cushion packing, and is made of polyethylene, polypropylene, or the like,
As shown in FIG. 5 and FIG. 6, the part is covered to prevent intrusion of groundwater and harmful gas. Regardless of the anchor length, the tension member has a fixing side fixing section length of 4 meters or less, and if the above grip and cushion packing are attached at an interval of 1 meter, 3 to 4 pieces,
Even if the strength of the concrete is low, the tensile strength of one compression grip is reduced to 1/3 to 1/4, so that a high load can be pulled.

The tension member configured as described above, on the implementation side,
The tension member unit 10 is obtained by uniformly arranging a plurality (three) of the spacers 5 and bundling them. The tensile member unit 10 thus obtained is inserted into the anchor hole 11, and the cement paste is filled into the portion A which becomes the fixing portion and hardened to form the fixing body 6. Then, similarly to the conventional anchor construction method, the anchor tension member is pulled with a jack and fixed in the stretched state to exert the function as an anchor.

In addition, when prestressing is introduced, the waterproof sheath 4
May be damaged by being compressed by the fixing body 6 and the compression grip 2, but as shown in FIG.
MC nylon cap 13 between the waterproof sheath 4 and the fixing body 6
With the interposition of, the water blocking sheath is not directly pressed against the surface of the fixing body, and the water blocking sheath can be protected. The end of the waterproof sheath 4 is provided with taping 14 so as to be in close contact with the sheath made of tensile steel.

In this way, as a result of making a test piece with the MC nylon cap 13 interposed and performing an experiment, a test was performed 14 to 15 times, the test piece was cracked, and the inside state was confirmed. No breakage of the waterproof sheath protecting the cushion packing was confirmed.

Effects The present invention is configured as described above and has the following excellent effects.

By attaching a plurality of grips to the tensile steel material, it is possible to disperse the tensile force from each grip bearing surface and transmit the tensile force to the fixing member, so that it is possible to endure the transmission of high load as a whole.

Since the cushion packing whose thickness is changed according to the amount of movement is provided on the stress side of the grip, the tensile stress transmitted to the grip can be dispersed more evenly from the deep side grip. As a result, the concentration of stress on the fixing body is eliminated, fine cracks are prevented from occurring, and the fixing body is not destroyed. This prevents the tensile steel material from being corroded by the action of ground water or harmful gas. On the other hand, since the tensile force applied to one grip becomes a fraction of the number of grips, sufficient tension can be achieved even when the strength of concrete is low, and the volume of the fixing member can be reduced.

In addition, since the tensile steel material is unbonded and the grip and cushion packing are protected by the waterproof sheath, the tensile steel material can be semi-permanently protected from groundwater, harmful gas, etc., and the reliability as an anchor leap forward. Can be improved.

[Brief description of drawings]

The drawings show an embodiment of an anchor tensile steel material according to the present invention.
The figure is a side view of a state in which an anchor is formed, FIG. 2 is a sectional view taken along the line AA of FIG. 1, FIG. 3 is a sectional view taken along the line BB, and FIG.
C sectional view, FIG. 5 is an axial sectional view of the grip portion of the shallowest portion of the tensile steel material, FIG. 6 is an axial sectional view of the grip portion of the deepest portion of the tensile steel material, and FIG. 7 is a grip portion of another embodiment. It is an axial sectional view. 1: tensile steel material, 2: compression grip, 3: cushion packing, 4: waterproof sheath, 5: spacer, 6: fixing body,
10: Tensile material unit, 11: Anchor hole, 13: MC nylon cap, 14: Taping

 ─────────────────────────────────────────────────── --Continued from the front page (56) References JP-A-61-117324 (JP, A)

Claims (1)

[Claims] 1. A cushion packing in which a plurality of grips are fixed to a coated tensile steel material at appropriate intervals, and the thickness of the cushion packing is changed according to the movement amount of the grip due to the elongation of the tensile steel material when tension is applied to the stress side of the grip. An anchor tension member, characterized in that it is attached to an end portion and the grip and the cushion packing are covered with a waterproof sheath.