JP2004339800A - Anchor disk of fixing part of prestressed concrete and bush fitted/inserted in fitting/inserting hole of anchor disk - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an anchor disk, and a bush, for firmly fitting and installing the bush for inserting a PC steel stranded wire, in a fixing part of a prestressed concrete structure. <P>SOLUTION: In the fixing part of prestressed concrete, a bush fitting/ inserting hole is bored by expanding up to the midway depth in a plurality of PC steel stranded wire inserting holes penetratingly arranged in the anchor disk. The synthetic resin bush for shaping a recess-projection part on an outer peripheral surface, is fitted and inserted in the bush fitting/inserting hole. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anchor disk of a fixing portion of a stranded PC steel wire in a prestressed concrete structure and a bush to be inserted into an insertion hole thereof.
[0002]
2. Description of the Related Art Generally, when constructing a prestressed concrete structure, a plurality of tension members (PC steel stranded wires) are inserted into concrete and tension is applied to the tension members. To form prestressed concrete.
At this time, the end of the tendon (the stranded wire of PC steel) is inserted into a sheath, and the sheath is provided at one end with an anchor plate.
The plurality of tendon members (PC steel stranded wires) in the sheath are provided with a tendon insertion hole so that they do not come into contact with each other when the strain is applied, and do not break or break. Are inserted into the steel spacers having recesses, respectively, and then inserted into the tendon insertion holes fitted in the anchor discs, and are sandwiched by wedges.
In recent years, there has been a case in which a bush (bushing) is used without using the spacer, or a bush is used in combination with the spacer. In either case, the purpose is to prevent breakage or breakage of the tendon material. I have.
[0003]
However, in the anchoring portion of the prestressed concrete structure constructed as described above, there is a problem that when the tendon is inserted into the anchor disk after being inserted into the spacer or the bush, the bush is likely to come off from the anchor disk. , Very poor workability.
[0004]
SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and it is an anchor disk for a fixing portion of prestressed concrete having the following structure.
(1) In the anchor disk of the anchoring part of prestressed concrete, the bush fitting insertion hole which is expanded to a depth in the middle of the plurality of PC steel stranded wire insertion holes penetrating through the anchor disk, and the unevenness on the outer peripheral surface An anchor disk for an anchoring portion of prestressed concrete, wherein a synthetic resin bush having a shape formed thereon is inserted.
(2) The prestressed article according to the above (1), wherein the uneven portion formed on the outer peripheral surface of the synthetic resin bush is formed by projecting a number of ridges in an annular shape on the outer peripheral surface of the bush. Anchor disk for concrete anchorage.
(3) The fixing portion of prestressed concrete according to the above (1), wherein the uneven portion formed on the outer peripheral surface of the synthetic resin bush is a ridge protruding spirally on the outer peripheral surface of the bush. Anchor disk.
(4) The anchor of the prestressed concrete anchoring section according to (1), wherein the uneven portion formed on the outer peripheral surface of the synthetic resin bush is a knurled portion formed on the outer peripheral surface of the bush. disk.
[0005]
(5) In the anchor disk of the anchoring part of the prestressed concrete, the irregularities are formed on the inner peripheral surface of the bushing insertion hole which is expanded to a depth halfway through the plurality of PC steel stranded wire insertion holes penetrating the anchor disk. An anchor disk for a fixing part of prestressed concrete, characterized in that it is formed.
(6) In the anchor disk of the anchoring part of the prestressed concrete, the irregularities are formed on the inner peripheral surface of the bushing insertion hole which is expanded to a certain depth of the plurality of PC steel stranded wire insertion holes penetrating the anchor disk. The anchor disk of the anchoring part of prestressed concrete according to any one of the above items (1) to (4), wherein the anchor disk is formed.
(7) The irregularities formed on the inner peripheral surface of the bush insertion hole of the anchor disk are a number of ridges projecting annularly on the inner peripheral surface of the bush insertion hole. 5) An anchor disc of a fixing part of prestressed concrete according to (6).
(8) The uneven portion formed on the inner peripheral surface of the bush insertion hole of the anchor disk is a ridge protruding spirally on the inner peripheral surface of the bush insertion hole. ) Or (6), the anchor disk of the anchoring portion of the prestressed concrete.
(9) The anchor disk of the fixing section of prestressed concrete according to the above (5) or (6), wherein the uneven portion is a sandblasted portion.
(10) The anchor disk of the anchoring portion of the prestressed concrete according to any one of (1) to (9), wherein the anchor disk is made of steel and the bush is made of high-density polyethylene resin. .
(11) The method according to any one of the above items (1) to (10), wherein an adhesive is filled in an uneven portion of a gap between an inner peripheral surface of the bush insertion hole of the anchor disk and the surface of the bush. An anchor disk for a prestressed concrete anchorage as described.
(12) Any one of the above items (1) to (11), which is inserted into a bushing insertion hole which is enlarged to a certain depth of a PC steel stranded wire insertion hole penetrating through an anchor disk of an anchoring portion of prestressed concrete and is drilled. A bush made of synthetic resin, wherein an uneven portion is formed on the outer peripheral surface according to (1).
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, an anchor disk of a prestressed concrete anchoring portion is inserted into a bushing insertion hole which is expanded to a depth halfway through a plurality of PC steel stranded wire insertion holes penetrating the anchor disk. An anchor disk of a prestressed concrete anchoring portion formed by inserting a synthetic resin bush having an uneven portion formed on the outer peripheral surface.
Here, the synthetic resin bush having an uneven portion formed on the outer peripheral surface has a number of ridges projecting annularly on the outer peripheral surface.
The bush according to the present invention has an uneven portion on the outer peripheral surface thereof so as to be firmly fitted when the bush is inserted into the bush insertion hole formed in the anchor disk. Therefore, the uneven portion formed on the outer peripheral surface of the bush according to the present invention includes not only a plurality of the ridges projecting in a ring shape, but also a helical projecting ridge on the outer peripheral surface, and a bushing. The shape of the concave and convex portions formed on the outer peripheral surface is not limited, such as one formed by knurling, and may be any shape that can be firmly fitted into the bush insertion hole drilled in the anchor disk. Just fine.
[0007]
Further, the anchor disk of the anchoring portion of the prestressed concrete structure according to the present invention has an inner periphery of a bushing insertion hole that is enlarged to a depth halfway through a plurality of PC steel stranded wire insertion holes penetrating the anchor disk. The surface is formed with an uneven portion.
The concave and convex portions formed on the inner peripheral surface of the bush insertion hole of the anchor disk are used to firmly fit the bush to be inserted into the insertion hole. Examples of the ridge include a ridge formed in a ring shape, a ridge formed in a spiral shape, and a sandblasted uneven portion.
Further, according to the present invention, it is possible to form irregularities on both the surface of the bush and the inner peripheral surface of the bush insertion hole of the anchor disk.
It is also preferable that an adhesive is filled between the surface of the bush and the inner peripheral surface of the bush insertion hole of the anchor disk. In particular, in the case where the unevenness is formed on both the surface of the bush and the inner peripheral surface of the bush insertion hole of the anchor disk, when the adhesive is filled, the adhesion between the two becomes strong.
As the adhesive, a cyanoacrylate adhesive, an epoxy adhesive, or the like can be used. Note that a filler such as silica powder or calcium carbonate powder may be added to and mixed with the adhesive.
Furthermore, the anchor disk in the present invention is preferably made of high-strength steel, since it supports the stranded PC steel wire and is robustly formed so as to give sufficient tension.
On the other hand, the bush is molded of a polyethylene resin that does not break or break the stranded PC steel, or other synthetic resin materials such as FRP and engineering plastic. Excellent and preferred.
[0008]
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an anchor disc of a fixing part of a prestressed concrete structure according to an embodiment of the present invention.
FIG. 1 is an explanatory cross-sectional view of an anchor disk of a fixing part of a prestressed concrete structure according to a first embodiment of the present invention. FIG. 2 is an explanatory cross-sectional view of an anchor disk of a fixing part of a prestressed concrete structure of the present invention. FIG. 3 is a front view of the anchor disk according to the first embodiment of the present invention and a sectional explanatory view of the anchor disk and the bush. FIG. 4 is a front view of the anchor disk of the second embodiment of the present invention and a sectional explanatory view of the anchor disk and the bush. FIG. 5 is a side view and a cross-sectional view of a bush according to the present invention, FIG. 6 is a cross-sectional view for explaining the bush according to the present invention, and FIG. FIG. 8 is an explanatory view of Embodiment 2 of the anchor disk of the anchoring portion of the prestressed concrete structure according to the present invention.
In the drawing, 1 is a strand of PC steel, 2 is an anchor disc, 2a is a bushing insertion hole penetrating through the anchor disc, 2b is an uneven portion on the inner peripheral surface of the bushing insertion hole, 3 is a bush, and 3a is a bush. Irregular portions formed on the outer peripheral surface, 4 is a spacer, 5 is an anchor plate, 6 is a sheath, 7 is a wedge, 8 is a spiral streak, 9 is a steel pipe, 20 is a PC steel stranded wire insertion hole, C is concrete, and G is Grout.
[0009]
As shown in the explanatory sectional view of Example 1 of FIG. 1 and the explanatory sectional view of Example 2 of FIG. 2, the present PC steel stranded wire 1 is inserted into the anchor disk of the anchoring portion of the prestressed concrete structure of the present invention. A bush made of synthetic resin in which a plurality of PC stranded wire insertion holes 20 penetrating through the anchor disc 2 are extended to an intermediate depth and a bush-fitting insertion hole 2a is formed by drilling. 3 is inserted.
In the first embodiment, the anchor disc 2 is provided with a plurality of PC steel stranded wire insertion holes 20 as shown in the cross-sectional explanatory view of the anchor disc and the bush in the present invention in FIG. The bush fitting insertion hole 2 a formed at the end of the wire insertion hole 20 is drilled so as to extend to a certain depth of the PC steel stranded wire insertion hole 20.
In the second embodiment, a plurality of PC steel stranded wire insertion holes 20 are provided as shown in the cross-sectional explanatory view of the anchor disk and the bush in the present invention in FIG. The bush fitting insertion hole 2a formed in the portion is enlarged and drilled to a midway depth of the PC steel stranded wire insertion hole 20, and the bush fitting insertion hole 2a has an uneven portion 2b formed on an inner peripheral surface thereof. In FIG. 4, the projections and depressions 2b formed on the inner peripheral surface of the bush insertion hole 2a are a large number of projections projecting annularly.
The uneven portion 2b formed on the inner peripheral surface of the bush insertion hole 2a can be formed by a spirally projecting ridge, or can be formed by sandblasting.
Further, in the bush 3, an uneven portion 3a is formed on the outer peripheral surface. As shown in a side view and a sectional view of the bush in the present invention shown in FIG. (A) protrudingly formed on the outer peripheral surface of the ring 30 (a), or (b) formed by a ridge protruding spirally 30 ', or may be formed by other knurling.
[0010]
FIG. 6 is an explanatory cross-sectional view of the bush according to the present invention, in which a number of ridges are formed in a ring shape on an outer peripheral surface of a synthetic resin bush (made of high-density polyethylene resin). , L is the total length of the bush 3, H is the outer diameter of the bush 3, h is the inner diameter of the bush 3, and T is the height of the uneven portion 3a of the bush 3.
Since the entire length L of the bush 3 is a length that is inserted into the bush insertion hole 2a of the anchor disk 2, it is preferable to form the bush 3 in consideration of the size of the anchor disk 2.
The outer diameter H and the inner diameter h of the bush 3 are large enough to securely insert and protect the stranded PC steel wire 1 inserted into the bush 3.
The height T of the uneven portion 3a of the bush 3 is such that it does not easily come out when the bush 3 is inserted into the bush insertion hole 2a of the anchor disk 2.
The bush 3 shown in FIGS. 5 and 6 is preferably manufactured so that H is slightly larger than the diameter of the bush fitting insertion hole 2a, and when the bush 3 is driven into the bush fitting insertion hole 2a, the T portion is formed. Part of the bush is inserted into the bushing insertion hole 2a and is fixed to the inner wall surface thereof.
As an example of the shape of the bush 3,
Total length L = 20,
Outer diameter H = 26.2,
Inner diameter h = 19.3,
Height T of uneven portion 3a = 1
(The unit of each numerical value is mm). The bush 3 is inserted into the bush insertion hole 2 a of the anchor disk 2 in consideration of the diameter of the PC steel stranded wire 1 and the shape of the anchor disk 2 and the spacer 4. In this case, it is preferable that the shape is formed so that the fitting can be performed sufficiently and securely.
In the above description, particularly, T is preferably 0.8 to 1.2 mm regardless of L, H, and h.
On the other hand, the shape of the bush fitting insertion hole 2a is similarly formed with respect to the uneven portion 2b formed on the inner peripheral surface of the bush fitting insertion hole 2a of the anchor disk 2 in the embodiment 2 so that the bush can be securely inserted. Is done.
[0011]
FIG. 7 is an explanatory view of Embodiment 1 of the anchor disk of the anchoring portion of the prestressed concrete structure according to the present invention. In the concrete C, the PC steel stranded wire 1 penetrating the steel pipe 9 has one end portion of the anchor plate 5. The sheath is filled with grout, and a spiral streak 8 is provided on the outer periphery of the sheath 6. The stranded PC steel wire 1 is inserted into a spacer 4, and each stranded PC steel wire 1 protruding from the spacer 4 is configured by inserting a bush 3.
The bush 3 has an uneven portion 3a formed on the outer peripheral surface.
The stranded PC steel wire 1 inserted into the bush 3 is penetrated through the anchor disc 2, and the plurality of PC steel stranded wire insertion holes 20 pierced through the anchor disc 2 are expanded to an intermediate depth. A bush 3 is inserted into the bush insertion hole 2a, and the PC steel stranded wire 1 is fixed by a wedge 7 at an end of the anchor disk 2.
[0012]
FIG. 8 is an explanatory view of Embodiment 2 of the anchor disk of the anchoring portion of the prestressed concrete structure according to the present invention. In the concrete C, the strand 1 of the PC steel penetrating the steel pipe 9 has one end portion of the anchor plate 5. The sheath is filled with grout, and a spiral streak 8 is provided on the outer periphery of the sheath 6. The stranded PC steel wire 1 is inserted into a spacer 4, and each stranded PC steel wire 1 protruding from the spacer 4 is configured by inserting a bush 3.
The bush 3 has an uneven portion 3a formed on the outer peripheral surface.
The stranded PC steel wire 1 inserted into the bush 3 is penetrated through the anchor disc 2, and the plurality of PC steel stranded wire insertion holes 20 pierced through the anchor disc 2 are expanded to an intermediate depth. A bush insertion hole 2a is formed.
[0013]
A bush 3 is fitted into the bush insertion hole 2a, and the PC steel stranded wire 1 is fixed by a wedge 7 at an end of the anchor disk 2.
In the present embodiment, an irregular portion 2b is formed on the inner peripheral surface of the bush fitting insertion hole 2a of the anchor disk 2, and is firmly fitted to the irregular portion 3a formed on the outer peripheral surface of the bush 3. .
In the second embodiment, the concave and convex portions 2b and 3a are formed on both the inner peripheral surface of the bush fitting insertion hole 2a of the anchor disk and the outer peripheral surface of the bush 3, respectively. It is also possible to form a concave and convex portion only at the bottom and insert it.
In order to more firmly fit the bush 3 into the bush insertion hole 2a of the anchor disk 2, an uneven portion 2b formed on the inner peripheral surface of the bush insertion hole 2a of the anchor disk 2 and the outer peripheral surface of the bush 3 are formed. It is preferable to fill the formed uneven portion 3a with an adhesive or the like.
[0014]
According to the anchor disk of the anchoring portion of the prestressed concrete structure of the present invention, the bush insertion which is expanded to a depth of a halfway of a plurality of PC steel stranded wire insertion holes penetrating the anchor disk is provided. Since the synthetic resin bush having an uneven portion formed on the outer peripheral surface is inserted into the hole, the bush in which the anchor disc and the PC steel stranded wire are inserted can be firmly fitted.
The uneven portion formed on the outer peripheral surface of the synthetic resin bush may have any shape such as a number of annularly projecting ridges, a spirally projecting ridge, or a knurled one. Can be selected and formed, so that the shape of the uneven portion can be selected according to the environment or the like to be used.
Further, according to the anchor disk of the anchoring portion of the prestressed concrete structure of the present invention, the bush fitting insertion hole which is expanded to a certain depth of the plurality of PC steel stranded wire insertion holes penetrating through the anchor disk is formed. Since the concavo-convex portion is formed on the peripheral surface, the bush to be inserted into the bush insertion hole can be securely fitted, and the workability can be improved.
And, by a number of ridges protruding annularly, or helically protruding ridges formed on the inner peripheral surface of the bush fitting insertion hole of the anchor disk, or by blasting, or the like, By forming the bush, the shape can be appropriately selected according to the shape of the outer peripheral surface of the bush and the installation environment.
[0015]
Furthermore, by forming the anchor disk from steel and forming the bush from a synthetic resin material, for example, a high-density polyethylene resin, the bush can flexibly follow the movement of the PC steel stranded wire. It is also possible to prevent the strands of PC steel from being damaged by the ends of the anchor disk without breaking or breaking.
By filling the irregularities of the anchor disk and the irregularities of the bush with an adhesive, the anchor disk and the bush can be more firmly fitted.
[Brief description of the drawings]
FIG. 1 is an explanatory sectional view of an anchor disk of an anchoring portion of a prestressed concrete structure according to a first embodiment of the present invention; FIG. 2 is an explanatory sectional view of an anchor disk of an anchoring portion of a prestressed concrete structure of the present invention. FIG. 3 is a front view of the anchor disk according to the first embodiment of the present invention and a sectional explanatory view of the anchor disk and the bush; FIG. 4 is a front view of the anchor disk of the second embodiment of the present invention and a sectional explanatory view of the anchor disk and the bush; 5 is a side view and a cross-sectional view of a bush according to the present invention. FIG. 6 is a cross-sectional view for explaining the bush according to the present invention. FIG. 7 is a view illustrating an anchor disk of an anchoring portion of a prestressed concrete structure according to the present invention. FIG. 8 is an explanatory view of the anchor disk of the anchoring portion of the prestressed concrete structure according to the second embodiment of the present invention. Description]
DESCRIPTION OF REFERENCE NUMERALS 1 PC steel stranded wire 2 Anchor disk 2a Bush fitting insertion hole 2b penetrating through the anchor disk 3 Irregularities on inner peripheral surface of bushing inserting hole 3 Bush 3a Irregularities formed on outer peripheral surface of bush 4 Spacer 5 Anchor plate 6 Sheath 7 Wedge 8 Spiral streaks 9 Steel pipe 20 PC steel stranded wire insertion hole 30 Annular ridge 30 ′ Spiral ridge C Concrete G Grout L Overall length of bush H Outside diameter h of bush Inner diameter T of bush Irregularity of bush Part height

Claims (12)

In anchor disk of anchorage part of prestressed concrete,
A bush made of synthetic resin having a concave and convex portion formed on the outer peripheral surface is inserted into a bush insertion hole which is enlarged and drilled to an intermediate depth of a plurality of PC steel stranded wire insertion holes penetrating the anchor disk. An anchor disk for an anchoring portion of prestressed concrete, characterized in that: 2. The fixing part of prestressed concrete according to claim 1, wherein the uneven portion formed on the outer peripheral surface of the synthetic resin bush is formed by projecting a number of ridges in an annular shape on the outer peripheral surface of the bush. Anchor disk. The anchor disk according to claim 1, wherein the uneven portion formed on the outer peripheral surface of the synthetic resin bush is a ridge protruding spirally on the outer peripheral surface of the bush. 2. The anchor disk according to claim 1, wherein the uneven portion formed on the outer peripheral surface of the synthetic resin bush is a knurled portion formed on the outer peripheral surface of the bush. In anchor disk of anchorage part of prestressed concrete,
Prestressed concrete characterized by forming irregularities on the inner peripheral surface of a bushing insertion hole which is expanded to a certain depth of a plurality of PC steel stranded wire insertion holes penetrating through the anchor disc and drilled. Anchor disk of fixing section. In the anchor disk of the anchoring part of prestressed concrete, irregularities are formed on the inner peripheral surface of the bushing insertion hole that is extended to the middle depth of the plurality of PC steel stranded wire insertion holes penetrating through the anchor disk. The anchor disk of a fixing part of prestressed concrete according to any one of claims 1 to 4, characterized in that: The uneven portion formed on the inner peripheral surface of the bush insertion hole of the anchor disk is a large number of ridges projecting annularly on the inner peripheral surface of the bush insertion hole. An anchor disk for an anchoring portion of prestressed concrete according to item 1. The uneven portion formed on the inner peripheral surface of the bush insertion hole of the anchor disk is a ridge protruding spirally on the inner peripheral surface of the bush insertion hole. An anchor disk for a prestressed concrete anchorage as described. The anchor disk according to claim 5 or 6, wherein the uneven portion is a sandblasted portion. The anchor disk according to any one of claims 1 to 9, wherein the anchor disk is made of steel and the bush is made of high-density polyethylene resin. The fixing of the prestressed concrete according to any one of claims 1 to 10, wherein an adhesive is filled in an uneven portion of a gap between an inner peripheral surface of the bush insertion hole of the anchor disk and the surface of the bush. Department of anchor disk. 12. The bushing insertion hole according to any one of claims 1 to 11, wherein the bushing insertion hole is formed by extending to an intermediate depth of a PC steel stranded wire insertion hole penetrating through an anchor disk of a prestressed concrete anchoring portion. Synthetic resin bushing with irregularities formed on the outer peripheral surface.

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