JPH0610389B2 - Longitudinal prestressed concrete construction method using PC cable - Google Patents

Description

TECHNICAL FIELD The present invention relates to a vertical prestressed concrete construction method using a PC cable, which is applied to a high vertical structure such as a side wall of a marine structure or a tank. .

"Prior Art" Generally, when introducing prestress to a vertical structure such as a wall, the fixing device at the lower end is provided in a foundation slab or the like,
The PC steel material is also embedded and fixed (fixed and fixed) in a state where it is attached to this. Thus, as shown in FIG. 5, this PC steel material is used in the assembling of the reinforcing bar of the longitudinal structure,
It is installed prior to concrete pouring with it inserted in the sheath.

By the way, when the height of the longitudinal structure is large, it is necessary to add PC steel material in the middle portion thereof. In such a case, if a PC cable is used as the PC steel material, a connecting tool for connecting the PC cable is required, and the diameter of the sheath at that portion is about three times as large as that of the general portion. It is also a problem to settle in. Therefore, the connection can be easily made with a coupler or the like, as shown in FIG.
The prestressed concrete construction method using steel bars is often selected.

The conventional construction method shown in FIG. The anchor plate c is attached to the lower ends of the sheath a ₁ and the PC steel rod b ₁ passed through the sheath a ₁ by screwing and tightening a nut d.
And the grout injection hose e are communicated with each other, and the rebar is assembled and erected at the same time, and the lower end thereof is driven into the foundation slab s.

ii. A concrete structure of the lower half w ₁ of the longitudinal structure is concrete-cast on the foundation slab s, and another sheath a ₂ and another PC steel rod b ₂ inserted through this are connected by couplers f and g,
Built during the rebar assembly.

iii. Further subjected to longitudinal structures on concrete joint of the semi-w ₂ on the longitudinal structure the lower half w _1, and the upper end of the vertical direction structures on semi-w _2, and the upper end of the sheath a ₂ The pressure bearing plates h are arranged in series.

iv. The upper end of the PC steel rod b ₂ is strongly pulled upward with a jack j, grout is injected into the gap in the sheaths a ₁ and a ₂ via the hose e, and the nut i is attached to the upper end of the PC steel rod b _2. Is tightened by screwing, and prestress is introduced into the longitudinal structure via the bearing plate h.

That is.

However, even if a PC steel rod is used, it is necessary to connect the middle portion, the tensile strength of the PC steel rod is smaller than that of the PC cable, and the maximum diameter is around 30 mm,
Since the introduction force per unit is small, the cost for applying the same prestress is currently higher with the PC steel rod.

Another prestressing method is to use a special anchor plate (Japanese Patent Publication No. 57-10259). This construction method includes: i. A special anchor plate with a rustproof film fixed on the bottom,
A concrete sheath to be built is placed on a formwork, and a tubular sheath is erected so as to be detachable on the special anchor plate.

ii. Concrete is poured on the mold, and after the concrete exhibits a predetermined strength, the special anchor plate is removed from the mold together with the mold.

iii. A PC steel wire or a PC steel rod is passed through the sheath, and the lower end of the PC steel wire or PC steel rod is connected to the special anchor plate that has been demolded.

iv. An adhesive is applied to the concave portion of the concrete structure bottom formed by demolding the special anchor plate and the inner surface of the special anchor plate, and the PC steel wire or PC steel rod is pulled up from the upper end of the concrete structure,
The special anchor plate is re-fitted into the recess and fixed by adhesion.

v. Prestressing is introduced into the concrete structure through the clamp by pulling off the PC steel wire or PC steel rod at the upper end of the concrete structure.

According to this construction method, a PC steel wire or the like can be inserted after the concrete is poured, and by using the PC steel wire, it can be used without being connected to a concrete structure having a high height on the way.

However, in this case, in order to fix the lower end of the PC steel wire, the special anchor plate together with the formwork is once peeled off from the bottom surface of the concrete structure, and the lower end of the PC steel wire inserted into the sheath from above is connected to this. After that, it is necessary to fit it back into the peeled recess and fix it with adhesive. Therefore, the construction is complicated, and it is very troublesome.
It is not easy to make the interior of C steel wire more complicated. In general, there are very few cases where a special anchor plate can be attached to and detached from the bottom surface of a concrete structure, and it cannot be arbitrarily used for various structures without limitation. Moreover,
Since the filler is not injected into the gap inside the sheath, the strength and proof strength are insufficient.

[Problems to be Solved by the Invention] Therefore, according to the present invention, it is possible to insert a PC cable from above into a sheath that has been driven into a vertical structure in advance after the concrete is cast into the vertical structure. In addition to eliminating the connection in the middle part, after inserting the PC cable, it is possible to easily fix and fix the lower end by injecting grout, and also the interior of multiple PC cables in one sheath In the same way, make it easier, and also fill the inside of the sheath with grout,
It aims to improve quality and performance, and at the same time, improve economic efficiency.

[Means for Solving the Problems] In order to achieve the above object, the present invention provides a lower end fixing tool that forms a cone-shaped bottomed cylinder having a larger diameter than the sheath at the lower end of the sheath, and an upper end having a fixing plate at the upper end. Along with connecting the fixing tools, by grouting and discharging means for the lower end fixing tool and the sheath, the sheath or both fixing tools are driven in the vertical direction in the vertically placed concrete in the structure, and Insert the PC cable with the fixing grip attached to the lower end in advance from the upper fixing device into the sheath, and let the lower fixing grip reach the lower fixing device. Then, grout is injected into the lower fixing device. The lower end of the inserted PC cable is fixed and fixed through a fixing grip by curing, and tension is applied to the PC cable at the upper end of the PC cable protruding from the upper end of the sheath. With
The present invention is characterized in that grout is injected into a gap in a sheath or an upper end fixing tool to be cured, and the upper end of the PC cable is fixed and fixed to introduce prestress to the structure.

"Operation" Because of the above configuration, the sheath that has been previously driven into the vertical structure enables the insertion of a long PC cable after concrete placement, eliminating the connection at the intermediate portion, and
The fixing grip attached to the lower end of the cable in advance is
The fixing tool that facilitates the insertion of the PC cable into the sheath and drives it together with the sheath at the lower end of the sheath is fixed by fixing and fixing the fixing grip at the lower end of the inserted PC cable by grouting and hardening. It enables simple fixing and fixing, and also makes it easy to install multiple PC cables in one sheath in the same way. Furthermore, when prestressing is introduced, the general gap in the sheath can be maintained. The grout filled in allows the improvement of quality and performance.

"Embodiment" FIGS. 1 to 4 show an embodiment of the present invention.

The construction method will be described in detail below with reference to FIG.

i. The lower end of the steel sheath 1 _1, a larger diameter than this, shorter, and, in a steel pipe forming a cone-shaped, upper or top and a bottom having a fixing plate and an intermediate portion lower fixing member 2 concatenating, at the lower end portion of the fixing member, connecting the grouting hose 3, also the sheath 1 ₁ grout discharge hose 4 to a lower point and the upper point at the lower end portion of the other grouting hose 5 to connect the lower end fixing device 2 to the slab
In the sheath 1 ₁ longitudinally structure lower half w _1, respectively with the concreting is implanted into the concrete.

As shown in FIGS. 2 and 3, a fixing plate 6 is attached to the lower end fixing tool 2 at the upper end of the outer circumference or at the upper end and the middle part, and a spiral streak 7 is arranged around the fixing plate 6 to support the pressure. Be able to withstand stress and split stress. Each hose is connected thereto by providing a mouth in place of the lower fixing member 2 and the sheath 1 _1.

ii. The upper end of the sheath 1 _1, connects the other of the sheath 1 _2, further to the upper end of the sheath 1 _2, which consists of a short steel pipe a larger diameter than the fixing plate 9 and the appropriate exhaust port at the upper end The upper end fixing tool 8 provided with is connected, and this is driven into the concrete along with the concrete placing of the upper half w ₂ of the vertical structure.

iii. In the sheath 1 _1, 1 _2, a plurality of PC cable (strand) 10 was crimped advance fixing grip 11 to the lower end, it is inserted one after another from the upper end fixing member 8,
Each fixing grip 11 is made to reach the inside of the lower end fixing tool 2, and the upper ends of those PC cables are connected to the upper end fixing tool 8.
More upwardly.

The fixing grip 11 is, as shown in FIGS. 2 to 4,
It is a cylindrical body made of a metal material as appropriate, but in order to facilitate insertion, the tip is formed into a conical shape, or a conical cap 12 is covered and fixed.

iv. The grout 13 is injected into the lower end fixing tool 2 with the grout injecting hose 3, the surplus is discharged from the grout discharging hose 4, the grout 13 is cured, and the lower end of the PC cable 10 is fixed to the fixing grip 11. Fixed through.

v. The upper end of the PC cable 10 is strongly pulled upward by the jack j.

vi. Subsequently, the gap between the sheath 1 _1, 1 in ₂ to the upper end fixing member 8, the grout 14 is injected with a grouting hose 5, and secure the other fixing grip 15 to the upper end of their PC cable 10 Pre-stress is introduced into the longitudinal structure via the bearing plate 9 to remove the jack j,
Cut off the excess of the PC cable and cure the grout 14 to finish.

Although the vertical structure is constructed by concrete splicing of the upper half w ₁ and the lower half w ₂ , it may be spliced further, and in that case, a plurality of sheaths are cast. You can connect to each lift in sequence.

In addition, this construction method is applied to, for example, a concrete side wall in a large tank above ground or underground, or a concrete box for an oil drilling platform in the ocean. The concrete box is built in a dock and towed to the site, but generally, the box is not sufficiently water-drained, and its bottom plate is placed in concrete close to the dock surface. Therefore, it is very convenient for construction.

[Advantage of the Invention] According to the present invention, a fixing tool having a tube larger in diameter than the sheath is connected to the lower end of the sheath, and the sheath or the fixing tool is vertically driven into a structure long in the vertical direction, A PC cable having a fixing grip at the lower end is inserted from the upper end of the sheath, the fixing grip reaches the fixing tool, and then grout is injected into the fixing tool to cure the PC cable. Since the lower end of the PC is fixed and fixed to the fixing tool with a grout, it is a very easy work to insert the PC cable into the driven sheath or fixing tool and inject the grout into the fixing tool to cure it. Can be fixed very easily. In addition, this fixed fixing is fixed in the fixing tool with a grout that is injected and cured with a fixing grip that is pre-installed at the lower end of the PC cable. Therefore, it is possible to perform stably, accurately, and firmly, and at this time, it is possible to properly install a plurality of PC cables in one sheath or fixing tool without any trouble. Of course, since it is not necessary to attach and detach a special anchor plate or the like on the bottom surface of the structure, the structure can be arbitrarily used for various concrete structures regardless of whether or not the bottom surface of the structure is open.

The PC cable can be used without being connected in the middle part, and the PC cable protruding from the upper end of the sheath applies tension to the PC cable at the upper end to introduce prestress to the structure, At that time, since grout is injected and cured in the entire gap in the sheath, not only can pre-stress be introduced well, but also a structure with high strength and high proof stress can be constructed, and quality and performance can be improved. . Needless to say, the prestressed construction method can be accommodated within the cross section of a structure such as a PC cable, is excellent in process, and is more economical than the case of using a PC steel rod.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a construction method of an embodiment according to the present invention, FIG. 2 is an enlarged cross-sectional view of an essential part, and FIG. 3 is FIG.
FIG. 4 is an enlarged side view of a main part member, and FIG. 5 is an explanatory view showing a conventional construction method. s ...... slab, _{w 1} ...... longitudinal structure the lower half w ₂ ...... longitudinal structure the upper _half, 1 1, _{1 2} ...... sheath 2 ...... lower fixing member, 3,5 ...... grout injection hose 4 …… Grout discharge hose, 6,9 …… Pressure plate 7 …… Spiral streak, 8 …… Top fixing device 10 …… PC cable, 11 …… Fixing grip 12 …… Cap, 13, 14 …… Grout 15 ...... Other fixing grips

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References Japanese Patent Publication No. 57-10259 (JP, B2) Earth anchor method P. 54 Figure 3. 15 August 10, 1979 Published by Japan Society of Geotechnical Engineering

Claims (1)

[Claims] 1. A lower end fixing tool having a cone-shaped bottomed cylinder having a diameter larger than that of the sheath is connected to a lower end of the sheath, and an upper end fixing tool having a fixing plate is connected to an upper end of the sheath, and grout is injected into the lower end fixing tool and the sheath.・ By taking out discharging means, the sheath or both fixing tools are driven in the vertical direction in the concrete poured in a structure long in the vertical direction, and a PC cable with a fixing grip previously crimped to the lower end is fixed to the upper fixing means. To the inside of the sheath, the lower end fixing grip reaches the lower end fixing tool, and then the lower end of the inserted PC cable is fixed by grouting into the lower end fixing tool to cure the fixing grip. It is fixed and fixed through the PC cable, and tension is applied to the PC cable at the upper end portion of the PC cable protruding from the upper end of the sheath, and a grout is provided in the gap between the sheath and the upper end fixing tool. Input and cured, and, longitudinally prestressed concrete construction method by PC cable by fixing the fixing the upper end of the PC cable, and performs prestress introduced to the structure.