JP2012107423A - Method for adjusting level of foundation base, and method for fixing foundation base - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily adjust the level of a foundation base with a high degree of accuracy by omitting an unshrinkable concrete placing step and a step of adjusting the level of a packer itself.SOLUTION: An anchor bolt 10 is pre-embedded in a depressed part 11 formed in a prescribed region of foundation concrete 1, and one or more anchor bolt through-holes 12 and a plurality of jack bolt screw holes 13 are pre-opened in a foundation base 7 that is disposed in the depressed part 11. A jack bolt 15 is screwed into each of the jack bolt screw holes 13 in a state in which the anchor bolt through-hole 12 of the foundation base 7 is fitted into the anchor bolt 10, and the amount of screwing of each jack bolt 15 is adjusted in a state in which a leading end of the jack bolt 15 abuts on the foundation concrete 1 in the depressed part 11, so as to complete the adjustment of the level of the foundation base 7.

Description

  Embodiments of the present invention relate to a level adjustment method for a foundation base installed on foundation concrete and a method for fixing the foundation base.

  When installing a cylindrical large facility typified by a vertical-shaft turbine generator on foundation concrete, a first foundation base on which a lower bracket for supporting a rotating part such as a rotor or a turbine is mounted on the upper part of the foundation concrete The second foundation base is disposed concentrically outside the first foundation base and on which the stator is placed. And the packer system is generally adopted as a method of adjusting the level, that is, the height of each foundation base installed on the upper part of the foundation concrete.

  Here, the packer system means that a pair of wedge-shaped plates called packers are superposed on the upper part of the secondary concrete placed on the foundation concrete so that the inclined surfaces are opposite to each other, and one of the pair of wedge-shaped plates is arranged. This is a level adjustment method in which the level of the foundation base is adjusted by hitting with a hammer or the like and moving it horizontally.

JP-A-11-125392

The Institute of Electrical Engineers of Japan "Hydroelectric Power Generation (revised version)" 4th edition, May 1971, Chapter 6 Water Turbine Generator, page 222, Fig. 6.3

  The packer method requires a step of placing secondary concrete on the foundation concrete as described above, and further, it is necessary to adjust the level of the packer itself prior to the foundation-based level adjustment.

  The work of placing the secondary concrete requires that the non-shrinkable concrete be kneaded to a suitable hardness so that the packer placed on the upper part does not fall under its own weight. There are challenges. Moreover, since the level adjustment work of the packer itself installed on the secondary concrete is difficult, there is a problem that it takes a lot of time.

In addition, when adjusting the level of the packer, a space for hitting the packer with a hammer or the like is naturally required, and around the foundation base on which the lower bearing bracket located at the lower part of the rotor of the vertical shaft water turbine generator is placed. If there is not enough space, it may be necessary to partially cut the pit liner on the turbine side with a gas cutter or the like and re-weld the pit liner after level adjustment.
Furthermore, there is a problem that the processing accuracy of the inclined surface of the packer must be increased in order to perform highly accurate level adjustment.

  Therefore, the embodiment of the present invention is made in order to solve the above-described problem, and it is easy and easy by omitting the non-shrinkable concrete placing step in the conventional method and the step of adjusting the level of the packer itself. It is an object of the present invention to provide a foundation-based level adjustment method and a foundation-base fixing method capable of performing foundation-base level adjustment with high accuracy.

  In order to achieve the above object, according to the invention of the foundation base level adjustment method according to claim 1, the foundation base is embedded in a depression formed in the foundation base installation planned site of the foundation concrete, and An anchor bolt that protrudes a screw portion from the upper surface, and a foundation that is disposed in the depressed portion of the foundation concrete and has one or more anchor bolt through holes and a plurality of jack bolt screw holes that loosely fit into the anchor bolt. A base, a jack bolt for level adjustment screwed into the plurality of jack bolt screw holes from an upper surface of the foundation base toward a bottom portion of the depressed portion, and a screw portion of the anchor bolt to screw the foundation base. A fixing bolt for fixing the foundation concrete, and the anchor bolt penetrates the anchor bolt. By screwing a jack bolt into the plurality of jack bolt screw holes in a state where the jack bolt is fitted, and adjusting the screwing amount of the jack bolt in a state where the tip of the jack bolt is in contact with the bottom of the depressed portion The base-based level adjustment is performed.

  According to the invention of the foundation base fixing method according to claim 4, the state in which the foundation base level adjustment is completed by the foundation base level adjustment method according to any one of claims 1 to 3 is maintained. However, a fixing nut is screwed into the anchor bolt to fix the foundation base to the foundation concrete, and then a filler is filled in the gap in the depression and solidified.

The figure which shows the installation state of the vertical shaft type water turbine generator by embodiment of this invention. It is a figure which shows the process in the middle of the level adjustment method of the foundation base by embodiment of this invention, (a) is sectional drawing, (b) is a top view. It is a figure which shows the completion state of the level adjustment method of the foundation base by embodiment of this invention, (a) is sectional drawing, (b) is a top view.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a foundation base level adjusting method and a foundation base fixing method according to the present invention will be described below with reference to the drawings.
FIG. 1 is a view showing an installation state of a vertical shaft type water turbine generator in an embodiment of the present invention, and FIG. 2 is a cross-sectional view and a plan view showing a process in the middle of a level adjustment method of a foundation base in an embodiment of the present invention, FIG. 3 is a cross-sectional view and a plan view showing a completed state of the foundation-based level adjustment method.

(Constitution)
As shown in FIG. 1, in a hydroelectric power plant in which a vertical-shaft turbine generator is installed, two annular flat portions 3 and 4 are constructed concentrically with a turbine pit 2 on a foundation concrete 1, and these concentric annular portions are constructed. Among the flat portions, the inner annular flat portion 3 is constructed at a position adjacent to the water turbine pit 2, and the outer annular flat portion 4 is constructed at a position one step higher than the annular flat portion 3.

  A lower bearing bracket 6 for supporting a vertical shaft rotor is placed on the inner annular flat portion 3 after the base base 5 is level-adjusted and fixed, while the outer annular flat portion 4 is mounted on the outer annular flat portion 4. After the level adjustment (height adjustment) of the base base 7, it is fixed and the lower end of the outer frame of the stator 8 of the vertical shaft water turbine generator is placed. The base base 5 and the base base 7 are both made of a rectangular thick steel plate, as will be described later, and a plurality (for example, 8) of the annular flat portions 3 and 4 are arranged at substantially equal intervals in the circumferential direction. Are arranged).

  Since the level adjustment process of these basic bases 5 and 7 is the same, the level adjustment process of the basic base 7 will be described below with reference to FIG.

In FIG. 2, when constructing the foundation concrete 1 by pouring concrete, a rectangular depression 11 having an opening that is slightly larger than the plane area of the foundation base 7 is formed at a position where the foundation base 7 of the annular flat portion 4 is to be installed. In addition, two T-shaped anchor bolts 10 are arranged in a set in the depressed portion 11 in an upright state. Bottom up portion depth of the recess 11 is not uniform, there is provided a deep lower bottom 11 ₂ around so that the two shallow rectangular upper base 11 ₁ in the central portion to embed the anchor bolt 10 is formed .

  The base base 7 disposed in the depressed portion 11 has two anchor bolt through holes 12 for loosely fitting the anchor bolt 10 on the center line drawn in the horizontal direction on the paper surface of FIG. The jack bolt screw holes 13 which are opened and further countersunk at the four corners are opened.

Incidentally, the upper base portion 11 ₁ of the recess 11 of the foundation concrete 1 is designed so as to install the metallic jack bolt seat 14 after pitching its four corners. When installing this jack bolt receiving seat 14 on the upper base portion 11 _1, the level adjusting jack bolts 15 to be described later tip upper bottom 11 ₁ of the surface in contact force pushed into the foundation concrete 1 also act upper base 11 ₁ of the surface without being able to damage, the level adjustment operation stably is so performed. Reference numeral 16 denotes a fixing nut for fixing the base base 7 that is screwed into the anchor bolt 10 after the level of the base base 7 is adjusted by the jack bolt 15.

(Function)
Next, the level adjustment method and fixing method of the base base 7 will be described.
First, as a first step, by fitting the through hole 12 of the foundation base 7 to the upright anchor bolt 10 embedded in the foundation concrete 1, the foundation base 7 is accommodated in the recessed portion 11, Place it on the jack bolt seat 14.

  Next, as a second step, one jack bolt 15 is screwed from the top into each jack bolt screw hole 13 opened at the four corners of the base base 7, and the tip of the jack bolt 15 contacts the jack bolt receiving seat 14. Let By screwing a plurality of jack bolts 15, the level of the base base 7 can be adjusted at each screwed location.

  Further, as a third step, a level or scale (not shown) is placed on the upper surface of the base base 7 and the scale of the scale is checked with a height measuring instrument (not shown) while maintaining the horizontal state of the base base 7. The level (height) of the base base 7 is adjusted to a desired level by turning the jack bolts 15 left and right from the top surface of the base base 7.

When the level adjustment of the base base 7 by the jack bolt 15 is completed, the head of the jack bolt 15 is hidden in the counterbore hole of the jack bolt hole 13 and does not protrude from the surface of the base base 7 (FIG. 3 ( a)).
However, in this state, since the foundation base 7 is not yet fixed to the foundation concrete 1, the foundation base 7 is fixed to the foundation concrete 1 in the next step.

  That is, as a fourth step, the fixing nut 16 is screwed into the threaded portion of the anchor bolt 10 while the level adjustment of the foundation base 7 is completed by the jack bolt 15, and the fixing nut 16 is fixed to the upper surface of the foundation base 7. The base base 7 is fixed to the foundation concrete 1 with the jack bolts 15 and the anchor bolts 10 by applying a predetermined tightening torque even after coming into contact with.

  Thereafter, as a fifth step, as shown in FIG. 3A, a gap 17 in the depressed portion 11 is filled with a filler 17 such as concrete or mortar, and cured and solidified. As a result, the foundation base 7 is firmly fixed to the foundation concrete 1, and the upper surface of the foundation base 7 is substantially flush with the surface of the flat portion 4.

  After a plurality of foundation bases 7 arranged on the annular flat portion 4 in the first to fifth steps described above are level-adjusted and fixed to the foundation concrete 1, as shown in FIG. The outer frame portion of the stator 8 of the water turbine generator is placed.

  In the above description, after the base base 7 is placed on the jack bolt receiving seat 14, the jack bolts 15 are screwed one by one into the jack bolt screw holes 13 at the four corners, and the tip ends of the jack bolts 15 are jacked. Although it is made to contact | abut to the bolt receiving seat 14, this invention is not limited to this method, Before mounting the base base 7 on the jack bolt receiving seat 14, jack bolt is inserted into the jack bolt hole 13. 15 may be screwed in advance, and the through hole 12 of the base base 7 may be fitted to the anchor bolt 10 in this state, and then the jack bolt 15 may be adjusted.

Moreover, although embodiment described above is a level adjustment method of the foundation base which mounts the cylindrical large sized equipment represented by the stator of a vertical shaft type water turbine generator, the large sized equipment mounted on the foundation base 7 is It is not limited to the stator 8 of a vertical shaft type water turbine generator. For example, a horizontally installed generator may be used, or other large-sized equipment other than the generator may be used.
Further, if the large-sized facility is not a vertical shaft cylindrical body, the flat portion for fixing the foundation base formed on the foundation concrete does not need to be annular.

(effect)
As described above, according to the present embodiment, it is possible to omit the process of depositing non-shrinkable concrete and the level adjustment process of the packer itself, which are required in the conventional base level adjustment method by the packer method. The level of the base base 7 can be adjusted easily and accurately from the top of the base base 7 without the need for specially securing a space for working such as hitting a hammer from the bottom of the base 7.

Further, according to this embodiment, depressions 11 formed on an underlying basis 7 planned installation position of the foundation concrete 1 is not uniform depth, deep down around the upper bottom 11 ₁ anchor bolt 10 is located since the bottom 11 ₂ is provided after the level adjustment of the foundation base 7 in the deep lower bottom portion 11 ₂ so as to fill the filling material 17 such as concrete or mortar, uniform depth without the lower bottom portion 11 ₂ The adhesive strength of the foundation concrete 1, the foundation base 7, and the anchor bolt 10 can be made stronger than that of the depressed portion.

DESCRIPTION OF SYMBOLS 1 ... Foundation concrete, 2 ... Water wheel pit, 3 ... Annular flat part, 4 ... Annular flat part, 5 ... Foundation base, 6 ... Lower bearing bracket, 7 ... Foundation base, 8 ... Outer frame of stator, 10 ... Anchor bolt, 11 ... depression, 11 ₁ ... upper bottom, 11 ₂ ... lower bottom, 12 ... anchor bolt through hole, 13 ... jack bolt screw hole, 14 ... jack bolt receiving seat, 15 ... jack bolt, 16 ... fixing bolt , 17 ... filler (concrete or mortar).

Claims (4)

An anchor bolt that is embedded in a depressed portion formed in a foundation base installation planned site of the foundation concrete, and that projects a threaded portion from the upper surface of the foundation concrete,
A foundation base disposed in the depression of the foundation concrete and provided with one or more anchor bolt through holes and a plurality of jack bolt screw holes loosely fitting to the anchor bolts;
A jack bolt for level adjustment screwed into the plurality of jack bolt screw holes from the upper surface of the foundation base toward the bottom of the depressed portion;
A fixing bolt that is screwed into a threaded portion of the anchor bolt and fixes the foundation base to the foundation concrete,
The jack bolt is screwed into the plurality of jack bolt screw holes in a state where the anchor bolt through holes are fitted to the anchor bolt, and the jack bolt is in contact with the bottom of the depressed portion. A level adjustment method for a base base, wherein the level adjustment of the base base is performed by adjusting a screwing amount of the base base.   2. The level adjusting method for a foundation base according to claim 1, wherein a jack bolt receiving seat is provided at a location where a tip of the jack bolt for level adjustment of the foundation concrete abuts.   The level adjustment of the foundation base according to claim 1 or 2, wherein the depressed portion formed in the foundation concrete has a shallow upper bottom portion at a central portion and a deep lower bottom portion around the upper bottom portion. Method.   A fixing nut is screwed into the anchor bolt while maintaining the level adjustment of the foundation base by the level adjustment method of the foundation base according to any one of claims 1 to 3, and the foundation base is made into the foundation concrete. A fixing method for a base base, which is fixed and then filled with a filler in a gap in the depressed portion and solidified.

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