JPH11286930A - Deterioration regeneration chart of stable slurry and regenerant adding method using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily judge a condition as to where the present slurry belongs, which regenerant is to be added to regenerate the slurry, and what is the deterioration factor by numerically indicating possible patterns as the deterioration of the stable slurry used for diaphragm wall construction or cast-in-place concrete pile construction every management standard. SOLUTION: This deterioration regeneration chart of stable slurry is formed by arranging a management item display part 10 for displaying possible patterns as deterioration of slurry every management item (a specific gravity range display part 11, a funnel viscosity range display part 12, a filtered water quantity range display part 13, a pH range display part 14), a regenerant addition pattern display part 20 for displaying addition patterns of a regenerant added so that each management item is within a preset reference value (a pure water display part 12 for displaying addition quantity, a bentonite display part 22, a clay display part 23, a CMC display part 24, a dispersant display part 25, a soda ash display part 26, a sodium bicarbonate display part 27) and a main deterioration factor display part 30 for displaying main factors of the deterioration of stable slurry.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a chart for regenerating a stable liquid used in an underground continuous wall method or a cast-in-place concrete pile method, and a method for adding a regenerant using the chart.

[0002]

2. Description of the Related Art Stabilizing liquids used for underground continuous wall method and cast-in-place concrete pile method have many important functions such as prevention of collapse of excavated wall surfaces. Therefore, in order to sufficiently exhibit the function, it is necessary to perform the regeneration of the stable liquid with deterioration and manage it so as to always maintain a predetermined property. At present, as a method of regenerating the stabilizing solution, a method of adding an effective material or chemical (regenerating agent) to an item exceeding the control reference value is adopted.

In general, as a method for coping with the deterioration of the stabilizing solution, there is an adjustment for each management item as described below (reference: “Ground” issued on August 31, 1991, the first printing). Stabilizing solution for middle continuous wall ", written by Shigeaki Hiraoka, published by Sankaido Co., Ltd.)

1) Adjustment of specific gravity First, the specific gravity of the stable liquid is generally 1.03 to 1.0.
You can use up to 15th place. Therefore, the specific gravity is, for example, in the range of 1.03 to 1.15 as the management reference value of the stabilizer.

"Measures for increase in specific gravity" When the specific gravity is lower than 1.03, bentonite or various clays are used as a weighting material in order to increase the specific gravity. <In the case of increasing specific gravity with bentonite> In the case of pure Na bentonite, the specific gravity does not become 1.07 or more because the swelling property is high. In addition, since the viscosity increases in proportion to the addition amount, it is necessary to consider adding a weighting material. In order to suppress the increase in viscosity, the amount of CMC is adjusted, and low viscosity CMC
It is better to use

[0006] Here, bentonite is mainly composed of a clay mineral called montmorillonite.
It is a weakly alkaline claystone accompanied by silicic acid and silicate minerals such as cristobalite, feldspar, fluorite and mica, alkaline earth metal carbonates such as calcite and dolomite gypsum, and lead sulfate minerals. The types include Na-bentonite, Ca bentonite, activated bentonite, and organic bentonite. The bentonite stabilizer has good wall-forming properties (amount of drainage, cake thickness) and moderate viscosity.
Because it has a function of obtaining a large specific gravity, it is often used as a stabilizing solution utilizing such functions (Reference: "Encyclopedia of the Underground Wall" published on November 20, 1995, 1st printing. Shigeru Hiraoka, published by Sankaido Co., Ltd.) In addition, CMC is generally a Na salt, for example, a cellulose-based low-viscosity powder, which reduces the amount of drainage of the stabilizer, prevents disintegration, and increases the dispersion stability of the stabilizer. It has a function as an agent, a reduced amount of drainage, an improvement in wall-forming properties, and a function that can be used at a large depth because it is stable even at high temperatures. The dispersant is
Polymer substances such as surfactants, for example, polycarboxylic acid liquids are mainly used, and by adding a dispersant in advance to a stable liquid, even if calcium is mixed, aggregation of colloid particles is suppressed. And a function of maintaining stable dispersibility. Such dispersing agents, monovalent hydroxide is valid, NaOH, NaCO _3, sodium silicate, sodium hexametaphosphate (NaPO _{3) 6,} Calgon (trade name) and the like.

<Case of Raising Specific Gravity with Weighting Material> This is effective when increasing the specific gravity only without increasing the viscosity. In the case of a high specific gravity stable liquid, the specific gravity is adjusted with this weighting material. If a non-swelling clay material such as kaolinite is used as the weighting material,
Unlike bentonite, the viscosity does not increase, and the dispersion stability deteriorates. Therefore, it is necessary to add CMC and a dispersant to uniformly disperse these weighting materials. <Others> When you do not want to increase viscosity ・ Use kaolin clay as the weighting material. -Add a dispersant. To maintain cement resistance • Reduce the amount of bentonite as much as possible. To maintain suspension stability • Add bentonite as much as necessary. To maintain the current drainage rate ・ Minimize the contents of bentonite and CMC, respectively
1.0% and 0.3%.

[Measures for Specific Gravity Reduction] When the specific gravity is higher than 1.15, sand and silt are removed for the purpose of lowering the specific gravity.
Or, dilute. At this time, the soil particles are separated by the following means according to the cause of the high specific gravity. <When the specific gravity is high due to sand> Separation of sand by machine Use a cyclone or a centrifuge such as a decanter to remove sand. Separation of sand by sedimentation basin (gravity) <When the specific gravity is high with silt> Silt separation by machine The sand and silt are removed by a centrifuge such as a decanter or mud separator machine. It should be noted that sand can be removed almost 100%, but the silt content has an average removal rate of about 50%. Silt separation by a combination of chemical treatments The addition of a dispersant reduces the viscosity of the stabilizing solution, thereby increasing the removal rate of the centrifuge. However, it is currently rarely used. <When the specific gravity is high with clay> When the specific gravity is high with clay, since the current mechanical separation is impossible, it is diluted with water,
Chemically agglomerated and separated by machine. The method of diluting with water is the easiest to perform, but when diluted with water alone, the specific gravity can be adjusted, but the viscosity decreases and the amount of free water increases, so it is necessary to dilute with an appropriate CMC solution.

"Measures for Specific Gravity Reduction-Cases Impossible with a Machine for Sediment Separation System" In this case, excavation is stopped and partially disposed of, or sedimented with a flocculant on the premise of disposal, and centrifuged. Remove with a machine.

2) Adjustment of the amount of drainage The amount of drainage is determined by the mud cake formed on the excavation wall by the stabilizing liquid. In general, about 20 to 30 ml (cc) can be used for the drainage amount. Therefore,
As the standard value for controlling the stable liquid, the amount of drainage is 20 to 30 ml.
Range. For example, if the amount exceeds the range of 20 to 30 ml, a stabilizing solution is prepared.

"Measures to reduce the amount of drainage"<Reduction of the amount of drainage by addition of bentonite> If the bentonite clay component that forms a mud cake in the stable liquid becomes insufficient, mud cake cannot be formed and the amount of drainage increases. Therefore, about 0.5 to 2% of bentonite is added together with the dispersant as a cake-forming component to reduce the amount of drainage. <Reduction of amount of drainage by addition of CMC> Even if bentonite and clay components, which are cake forming components, are mixed in a necessary amount, if the thickener is insufficient due to deterioration or consumption and the viscosity of the stable liquid is low, the amount of drainage is The viscosity may increase and exceed the control value. Therefore, by adding the thickener CMC, the viscosity is increased, the water permeability of the cake is reduced, and the amount of drainage is reduced. In this case, the supplementary CMC concentration needs to be about 0.05 to 0.3% based on the target stabilizer. <Reduction of the amount of drainage by adding a dispersant> If a dispersant is added to the stabilizing solution, it is difficult to coagulate even when various ions are mixed in. Therefore, it is effective, and also effective in dispersing once aggregated soil particles. It is. However, in order to effectively disperse the once-agglomerated soil particles, it is better to use sodium carbonate or carbon dioxide gas in combination. These are used properly depending on the degree of aggregation (apparent viscosity). <Reduction of the amount of drainage by adding a pH adjuster> A pH adjuster is used to neutralize the causative substance. For example, sodium carbonate or carbon dioxide gas is a calcium ion (Ca) that aggregates clay particles. ²⁺ )
Remove the insoluble calcium carbonate. In addition, Ca ²⁺
In addition to, in the case where Al ^3+, cations having a cohesive effect such as Fe ³⁺ to contamination, by alkaline, respectively, and _{Al (OH) 3, Fe (} OH) 3, the influence Less. <Reduction of drainage by removing excess soil particles> Mechanical treatment ・ Removal of fine sand by cyclone ・ Removal of silt by decanter Natural sedimentation treatment ・ Method using stable liquid tank ・ Method using sand basin

3) pH adjustment The pH is affected by ions contained in the stabilizing solution, and generally, Ca ⁺⁺ ions affect the deterioration of the stabilizing solution. As for pH, generally, about 7.0 to 11.5 can be used. Therefore, as the control standard value of the stabilizer, pH
Is in the range of 7.0 to 11.5. It should be noted that if the pH is high, it is liable to deteriorate particularly when a large amount of bentonite is contained.

"Treatment to increase pH"<Increase in pH due to addition of caustic soda> When the pH of the stabilizer is 8 or less on a ground with strong acidity, a small amount of addition increases the pH.
Since it can be made H, it is effective to add caustic soda. As a method of the addition, there are a method of directly adding to the stabilizing solution and a method of adding quantitatively by a pump. However, if the addition amount is wrong, the pH will be extremely increased, and not only will the bentonite be agglomerated, but also the dispersion of CMC will be reduced, and the stable liquid may be deteriorated. Therefore, it is usually desirable to use sodium carbonate instead of caustic soda. <Increase in pH by adding sodium carbonate> In the case of sodium carbonate (sodium carbonate), the alkalinity is low.
Even with the addition of about 3%, the pH is about 10.5 to 11.0, and it is easy to set the pH to a desirable range from the viewpoint of prevention of putrefaction, which is convenient.

"Treatment for lowering pH"<Reduction of pH by injecting carbon dioxide> It has been confirmed that it is very effective. The required amount of carbon dioxide varies depending on the pH of the deteriorating stable liquid and the state of apparent viscosity. However, it is important to set the required amount based on the preliminary test results. <Reduction of pH by adding dilute sulfuric acid> The pH of the stabilizer can be lowered by adding an acid such as dilute sulfuric acid. There are almost no cases where the work is carried out by construction work because it is difficult. <Reduction of pH by diluting water> In principle, it is possible, but in order to lower the pH by 1, it is necessary to add about 10 times the amount of the stabilizing solution to dilute the water, and the practicability is not at all. Absent. <Reduction of pH by addition of sodium bicarbonate> The pH of sodium bicarbonate is about 8.0 even when the amount of addition is increased.

4) Adjustment of Viscosity The viscosity depends on the amount of clay, bentonite and CMC in the stabilizing solution, and is not directly related to the stability of the groove walls, but it is a substance that maintains the suspension of fine particles and forms mud cake. Can be used as a substitute characteristic for determining the abundance of. Regarding the viscosity, generally, a funnel viscosity of about 20 to 36 sec can be used. Therefore, the funnel viscosity is in the range of 20 to 36 sec as a reference value for controlling the stable liquid.

"Treatment to increase viscosity"<Increase in viscosity by addition of bentonite> Since addition of bentonite increases not only viscosity but also specific gravity, it is necessary to determine the amount to be added with reference to the control values of both. Yes, the amount of bentonite used for regeneration is about 2%. <Increase in viscosity due to addition of CMC> When it is desired to increase viscosity only without increasing specific gravity, the addition of CMC is effective.
The relationship between the amount of added MC and the viscosity is confirmed, and the amount at which the target viscosity is obtained is set.

"Treatment for lowering viscosity"<Reduction of viscosity by dilution of water> When diluted with water, not only viscosity but also specific gravity decreases and the amount of filtered water increases.
Rather than simply diluting with water alone, it is necessary to replenish bentonite and CMC that are insufficient in dilution. Preliminary tests were also conducted on these, and the appropriate amount of water and bentonite,
Determine the amount of CMC. <Reduction of viscosity by low-viscosity CMC> Low-viscosity CMC, for example, terpolymer 30L is 10% of terpolymer 30.
It is effective to adjust the viscosity of the stabilizing liquid to reduce the amount of the medium-viscosity CMC and reduce the amount of the medium-viscosity CMC to a lower viscosity. This method is suitable for excavating improved ground with cement or the like. <Reduction of Viscosity with Dispersant> When the viscosity is adjusted with a dispersant, the adjustment is performed in the same way as the adjustment of the drainage amount. In addition, as a dispersant, an organic dispersant (Telflow, Marzel),
Organic-inorganic composite (Sun carrier), inorganic dispersant (ST
P, sodium carbonate, sodium bicarbonate, carbon dioxide).

As described above, there are various methods for coping with the deterioration of the stabilizing solution, and a certain degree of skill is required to properly perform the regeneration of the stabilizing solution.

[0019]

Therefore, when an inexperienced person or an inexperienced person controls the quality of a stable liquid, the specific gravity, viscosity, amount of filtered water, pH, etc., are out of the control standard values. It was unclear what regenerative agent was effective and how much should be added. That is,
As described above, as for the management standard, the item covers a plurality of items (four items of specific gravity, drainage amount, pH, and viscosity). It was unclear what kind of regenerant should be added and how much should be added.

Therefore, an object of the present invention is to digitize a pattern which may be a deterioration of a stabilizing liquid used in an underground continuous wall method or a cast-in-place concrete pile method for each management criterion, and determine where the current stabilizing liquid belongs. Also, what kind of regenerating agent should be added to regenerate the stabilizing solution, and what is the deterioration factor, so that even inexperienced or inexperienced people can easily judge. It is an object of the present invention to provide a stability regeneration chart for a stable liquid. It is another object of the present invention to determine the amount of the regenerating agent to be added, and to make it possible to determine a countermeasure from a deterioration factor. An object of the present invention is to provide a method for adding a regenerant to a stabilizer, which is performed using such a chart.

[0021]

SUMMARY OF THE INVENTION In order to solve the above problems, the invention according to claim 1 is a deterioration regeneration chart of a stable liquid used in an underground continuous wall method or a cast-in-place concrete pile method. A management item display unit that displays a pattern that may be degraded for each management item, for example, a numerical value of specific gravity, drainage amount, pH, viscosity, and the like, so that the management item falls within a preset reference value. And a regenerating agent addition pattern display portion for displaying a regenerating agent addition pattern, for example, a regenerating agent addition pattern in a mixed addition method.

Here, the management item display section includes, for example, four items of specific gravity, drainage amount, pH, and funnel viscosity. Also, as the regenerating agent addition pattern display section,
For example, the addition pattern of the regenerant in the mixed addition method is marked and displayed, and includes seven types of fresh water, bentonite, clay, CMC, dispersant, soda ash, and sodium bicarbonate.

As described above, according to the first aspect of the present invention, a management item display section for displaying a pattern which may be a deterioration of the stabilizing liquid by a numerical value for each management item, and a standard for each management item being set in advance. Since the regeneration reproduction is formed by arranging a regenerant addition pattern display part that displays the regenerant addition pattern to be added so as to be within the value, the current deterioration stabilizing liquid is displayed by the numerical value displayed in the management item display part. It is easy to find out to which of the regeneration stabilizing solutions the regeneration stabilizing solution is displayed by selecting the regenerating agent indicated on the regenerating agent addition pattern display from the portion to which the deterioration stabilizing solution belongs. It is immediately apparent whether the agent should be added. Therefore, in the underground continuous wall method or the cast-in-place concrete pile method, even an inexperienced person or an inexperienced person can regenerate the stable liquid by adding an appropriate regenerant in accordance with the deterioration stabilizing liquid.

According to a second aspect of the present invention, there is provided the deterioration regeneration chart of the stabilizing solution according to the first aspect, wherein the management item display section displays the specific gravity for each range, for example, less than 1.03, 1.03 or less.
A specific gravity range display portion divided and displayed as 1.15 or less, exceeding 1.15, and the like, and a funnel viscosity corresponding to each specific gravity range of the specific gravity display portion for each range, for example, 23 sec.
Less than 23 sec. Or more and 35 sec. Or less, and a viscosity range display section divided and displayed over 35 sec. And the like, and the filtered water amount corresponding to each funnel viscosity range of this viscosity range display section for each range, for example, 25 ml or more, The filtrate amount range display portion divided and displayed in less than 25 ml and the like, and the pH is divided into ranges, for example, 8.0 or less, 10.5 or more, corresponding to each filtrate amount range of the filtrate amount range display portion. And a displayed pH range display section. For example, the specific gravity of the stabilizer, the funnel viscosity, the amount of filtered water, the range of pH,
This is merely an example, and in reality, it differs depending on the ground conditions at the site and the initial blending of the stabilizing solution, and the range is appropriately divided according to the situation.

As described above, according to the second aspect of the present invention, the management item display section according to the first aspect displays the specific gravity range display section, the funnel viscosity range display section, and the drainage rate range display separately for each range. Part and pH range display part, so the specific gravity displayed on the management item display part,
From the numerical values of the four items of the funnel viscosity, the filtered water amount, and the pH, it is immediately apparent to which of the deteriorated stable liquids belongs. Then, based on the portion to which the deterioration stabilizing liquid belongs from the range subdivided into four items, the specific gravity, the funnel viscosity, the filtered water amount, and the pH,
An appropriate regenerating agent displayed on the regenerating agent addition pattern display section can be immediately selected.

According to a third aspect of the present invention, there is provided the deterioration regeneration chart of the stabilizing solution according to the first aspect, wherein the regenerant addition pattern display section is provided corresponding to the management item display section. , A fresh water display section for displaying the addition of fresh water, a bentonite display section for displaying the addition of bentonite, a clay display section for displaying the addition of clay, a CMC display section for displaying the addition of CMC, and the addition of a dispersant. It is characterized by comprising a dispersant display section for displaying, a soda ash display section for displaying addition of soda ash, and a baking soda display section for displaying addition of baking soda.

Here, the fresh water is used to reduce the specific gravity by dilution, which causes a decrease in viscosity and an increase in the amount of filtered water.
It is necessary to dilute with an appropriate CMC solution. Bentonite has the effect of increasing specific gravity and viscosity. Clay has the effect of increasing the specific gravity. CMC has the effect of reducing the amount of drainage. The dispersant has an effect of suppressing aggregation of the colloid particles and maintaining stable dispersibility even when calcium is mixed. Soda ash has an effect of inactivating calcium ions, but has an effect of increasing pH. Baking soda, like soda ash, has the effect of inactivating calcium ions.
Has the effect of lowering the

As described above, according to the third aspect of the invention, the regenerating agent addition pattern display section of the first aspect displays the addition of fresh water corresponding to the management item display section of the first aspect. Since it is a deterioration reproduction chart consisting of a part, a bentonite display part, a clay display part, a CMC display part, a dispersant display part, a soda ash display part and a sodium bicarbonate display part, the numerical value displayed on the management item display part, specifically, the specific gravity , Bentonite, clay, CMC, dispersant, and soda displayed on the regenerant addition pattern display based on the part to which the deterioration stabilizing liquid belongs from the range subdivided into four items, namely, funnel viscosity, filtered water amount, and pH. An appropriate regenerant can be quickly selected from ash and baking soda.

According to a fourth aspect of the present invention, there is provided the deterioration regeneration chart of the stabilizing solution according to the first, second or third aspect, wherein the amount of the regenerating agent to be added is displayed on the regenerating agent addition pattern display portion. For example, it is characterized by being indicated by a weight ratio or the like with respect to the deterioration stabilizing liquid.

As described above, according to the fourth aspect of the present invention, the regenerating agent is a deteriorated regenerating chart in which the amount of the regenerating agent is displayed on the regenerating agent addition pattern display portion according to the first, second or third aspect. Can be added in an appropriate amount.

According to a fifth aspect of the present invention, there is provided a method for adding a regenerant to a stabilizing solution used in an underground continuous wall method or a cast-in-place concrete pile method. Using a deterioration regeneration chart of the liquid, based on the indication of the regenerant addition pattern, mixing and adding a regenerant, for example, fresh water, bentonite, clay, CMC, dispersant, soda ash, baking soda, etc. to the stable liquid. By
It is characterized in that the property of the stabilizing solution is reproduced within a preset management reference value.

As described above, according to the fifth aspect of the present invention, the corresponding regeneration is performed based on the display of the regenerating agent addition pattern, using the deterioration regeneration chart of the stable liquid according to the first, second, third or fourth aspect. A regenerant addition method in which the properties of the stabilizing solution are regenerated within a preset management reference value by mixing and adding the agent to the stabilizing solution. , Fresh water, bentonite, clay, CMC, dispersant, soda ash, baking soda and the like can be mixed and added, and for example, a stable liquid can be regenerated while judging what is the cause of deterioration.

[0033]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an embodiment of a deterioration regeneration chart of a stabilizing liquid used in an underground continuous wall method and a cast-in-place concrete pile method according to the present invention, and a method of adding a regenerant using the same. This will be described with reference to FIG.

First, FIG. 1 shows a deterioration regeneration chart of a stabilizing liquid used in an underground continuous wall method or a cast-in-place concrete pile method as an example to which the present invention is applied. FIG. 2 is a chart showing a display section and a regenerating agent addition pattern display section, and FIG. 2 is a chart showing a main deterioration factor display section corresponding to the management item display section and the regenerating agent addition pattern display section. Actually, the chart of FIG. 1 and the chart of FIG. 2 are continuous to constitute the first management sheet on which the deterioration reproduction chart is displayed. It is shown separately in FIG.

In the first management sheet (shown in FIGS. 1 and 2), 10 is a management item display section, 20 is a regenerant addition pattern display section, and 30 is a main deterioration factor display section. That is, the management item display section 10 is formed on the left side, the regenerant addition pattern display section 20 is formed on the right side in the center of the chart, and the main deterioration factor display section 3 is displayed on the right side.
0 is formed. Then, the management item display unit 1 of FIG.
With respect to 0, 11 is a specific gravity range display, 12 is a viscosity range display, 13 is a drainage amount range display, and 14 is a pH range display. Further, regarding the regenerating agent addition pattern display section 20 in FIG. 1, 21 is a Shimizu display section, 22 is a bentonite display section, 23 is a clay display section, 24 is a CMC display section, 25 is a dispersant display section, and 26 is a soda ash display. Reference numeral 27 denotes a baking soda display unit. Further, in the main deterioration factor display section 30 of FIG. 2, reference numeral 31 denotes a cause display column, and 32 denotes a countermeasure display column.

FIG. 3 is a table showing a control item display section and a regenerating agent addition pattern display section when the specific gravity of the stabilizing solution is normal. FIG. 4 shows the management item display section and the regenerating agent addition pattern display section. FIG. 4 is a chart showing a corresponding main deterioration factor display section, and in fact, the chart of FIG. 3 and the chart of FIG. 4 are continuous to form a second management sheet on which a deterioration reproduction chart is displayed. Here, FIG. 3 and FIG. 4 are separately shown due to restrictions of the drawing.

In the second management sheet (shown in FIGS. 3 and 4), reference numeral 40 denotes a management item display section, reference numeral 50 denotes a regenerant addition pattern display section, reference numeral 60 denotes a main deterioration factor display section. Similarly to the sheet, a management item display section 40 is formed on the left side, a regenerant addition pattern display section 50 is formed on the right side in the center of the chart, and a main deterioration factor display section 60 is formed on the right side. ing. And FIG.
For the management item display section 40, 41 is a specific gravity range display section, 42 is a viscosity range display section, 43 is a drainage rate range display section,
44 is a pH range display section. Further, regarding the regenerant addition pattern display section 50 of FIG.
Is bentonite display, 53 is clay display, 54 is CM
C is a display section, 55 is a dispersant display section, 56 is a soda ash display section, and 57 is a baking soda display section. Further, in the main deterioration factor display section 60 of FIG. 4, 61 is a factor display column, and 62 is a countermeasure display column.

FIG. 5 is a table showing a control item display section and a regenerant addition pattern display section when the specific gravity of the stabilizing solution is high, and FIG. 6 corresponds to the control item display section and the regenerant addition pattern display section. FIG. 5 is a chart showing a main deterioration factor display section to be executed.
In fact, the chart of FIG. 5 and the chart of FIG.
Although this is the third management sheet on which the deterioration reproduction chart is displayed, it is shown separately in FIG. 5 and FIG. 6 due to the restriction of the drawing.

In the third management sheet (shown in FIGS. 5 and 6), 70 is a management item display section, 80 is a regenerant addition pattern display section, and 90 is a main deterioration factor display section. Similarly to the management sheet No. 2, a management item display section 70 is formed on the left side, a regenerant addition pattern display section 80 is formed on the right side in the center of the chart, and a main deterioration factor display section 90 is displayed on the right side. Are formed. 5, reference numeral 71 denotes a specific gravity range display, 72 denotes a viscosity range display, 73 denotes a drainage amount range display, and 74 denotes a pH range display. Further, regarding the regenerant addition pattern display section 80 in FIG. 5, 81 is a Shimizu display section, 82 is a bentonite display section, 83 is a clay display section, and 8 is a clay display section.
4 is a CMC display, 85 is a dispersant display, 86 is a soda ash display, and 87 is a baking soda display. Further, in the main deterioration factor display section 90 of FIG.
Is a countermeasure display column.

Here, the initial composition of the deterioration stable liquid to be regenerated is 3 to 5% of bentonite, 0.1% of CMC
About 0.3% and a dispersant of about 0.1 to 0.3%.
1.15, the funnel viscosity is in the range of 20 to 36 sec., The drainage amount is in the range of 30 ml or less, and the pH is 7.0 to 7.0.
It is in the range of 11.5.

In this embodiment, as shown in FIG. 1, FIG. 3, and FIG. 5, the deterioration reproduction chart first has the following configuration for the management item display sections 10, 40, and 70. As for the specific gravity: H displayed on the specific gravity range display sections 11, 41, 71, H <1.03 as in the specific gravity range display section 11 in FIG. 1, and 1 as in the specific gravity range display section 41 in FIG. .03 ≦ H ≦ 1.15, specific gravity range display section 7 in FIG.
As shown in FIG. 1, the area is divided into three ranges of H> 1.15.
Regarding the funnel viscosity: F (sec.) Displayed on the viscosity range display sections 12, 42, and 72, two areas of the specific gravity range display sections 11 and 41 in FIGS. 0
According to 3 ≦ H ≦ 1.15, F <23 and 23 ≦ F ≦ 3 as shown in the viscosity range display sections 12 and 42 in FIGS.
5 and F> 35, and the area of the specific gravity range display section 71 of FIG. 5 corresponds to H> 1.15, and as shown in the viscosity range display section 72 of FIG.
≦ F ≦ 35, F> 35.

The filtered water amount R (ml) displayed on the filtered water amount range display sections 13, 43, 73 is shown in FIGS.
1, 3 and 5 respectively corresponding to three or four areas of the viscosity range display sections 12, 42 and 72, F <23, 23 ≦ F ≦ 35, and F> 35. Parts 13, 4
As shown in 3, 73, the region is divided into two regions R <25 and R ≧ 25. Regarding the pH displayed on the pH range display sections 14, 44, and 74, two areas of the drainage rate range display sections 13, 43, and 73 in FIGS. 1, 3, and 5, R <25, R
8.0 ≧ pH, 8.0 <pH <corresponding to ≧ 25, respectively.
10.5 and pH ≧ 10.5. However, one area of the viscosity range display section 42 in FIG. 3, one area of the drainage rate range display section 43 corresponding to 23 ≦ F ≦ 35, and R <25 corresponds to 8.0 ≧ pH, p
It is divided into two ranges of H ≧ 10.5.

The regenerant addition pattern display sections 20, 50 and 80 shown in FIGS. 1, 3 and 5 are of a mixed addition type, and each area of the pH range display sections 14, 44 and 74 has
8.0 ≧ pH, 8.0 <pH <10.5, pH ≧ 10.
5 corresponds to the following. In addition,
The amounts of the following regenerants are shown in FIGS.
As shown in the cautionary note at the bottom of each figure, the weight ratio (%) to the deterioration stable liquid is shown.

First, the fresh water display sections 21, 51, and 81 indicate whether or not the addition of fresh water is required. When the addition of fresh water is not required, the column is blank. As in the part 81, the added amount “20”% is displayed. The bentonite display sections 22, 52, and 82 indicate whether or not the addition of bentonite is required. When the addition of bentonite is unnecessary, the column is blank. In the case of addition of bentonite, the bentonite display section 22 in FIG. The amount "3"% or "1"% is displayed, and the added amount "1"% is displayed on the bentonite display portion 52 of FIG. 3, respectively. The clay display sections 23, 53, and 83 indicate whether or not the addition of clay is necessary. When the clay addition is unnecessary, the field is blank. In the case of the clay addition, as shown in the clay display section 23 of FIG. , And the added amount “2”% are displayed.

Then, the CMC display units 24, 54, 84
Indicates the necessity of addition of CMC. There is no case where CMC addition is unnecessary. In the CMC display section 24 of FIG. 1, the addition amount is "0.05"%, "0.2"% or "0. 1 "%
However, the CMC display unit 54 in FIG.
"0.2"% or "0.1"% is displayed in the CMC display section 84 of FIG. 5, and "0.05"% or "0.1"% is displayed, respectively. Dispersant display section 25, 55, 85
Indicates the necessity of adding a dispersant, and the case where dispersant addition is unnecessary is blank, and the dispersant display section 2 in FIG.
5, the addition amount “0.05”%, the dispersant display portion 55 in FIG. 3 also has the addition amount “0.05”%, and the dispersant display portion 85 in FIG. 5 has the addition amount “0.1”. % Are displayed respectively. The soda ash display sections 26, 56, and 86 indicate whether or not soda ash needs to be added, and the case where soda ash addition is unnecessary is blank, and in any of FIGS. 1, 3, and 5, The amount of addition “0.1”% is indicated. Lastly, the baking soda display sections 27, 57, and 87 indicate whether or not baking soda is required. When baking soda is not required, the baking soda is blank, and in any of FIG. 1, FIG. 3, and FIG. The addition amount “0.2”% is indicated.

Here, the fresh water is used to reduce the specific gravity by dilution, but if diluted only with water, the viscosity decreases and the amount of free water increases, so it is necessary to dilute with an appropriate CMC solution. It is. Bentonite is used to increase specific gravity and viscosity. Clay is used to increase specific gravity. CMC is used to reduce drainage. The dispersant is used to suppress aggregation of colloid particles and maintain stable dispersibility even when calcium is mixed. Soda ash is used because it has the effect of inactivating calcium ions and the effect of increasing pH. Baking soda, like soda ash, has the effect of inactivating calcium ions, but is used because it has the effect of lowering the pH. As described above, soda ash and baking soda have an effect of inactivating calcium ions, but soda ash and baking soda are selectively used due to differences in pH.

Further, the main deterioration factor display sections 30, 60, and 90 in FIGS. 2, 4, and 6 correspond to the pH range display sections in the management item display sections 10, 40, and 70 in FIGS. 1, 3, and 5, respectively. 1
4, 44, 74, 8.0 ≧ pH, 8.0 <pH
<10.5, pH ≧ 10.5, corresponding to the following configurations. That is, the main deterioration factor display sections 30, 60,
90, as shown in FIGS. 2, 4, and 6 in which the uppercase alphabet corresponding to the right side of each figure in FIGS. 1, 3, and 5 is attached to the left side of each figure.
The cause display columns 31, 61, 91 and the countermeasure display columns 32, 62,
Reference numerals 92 are displayed in a top-to-bottom pair.

More specifically, the main deterioration factor display in FIG. 2 corresponds to A to R in the management item display section 10 and the regenerating agent addition pattern display section 20 in FIG. 1 when the specific gravity of the stabilizer is low. The sentence is described in the factor display column 31 and the countermeasure display column 32 of the unit 30 respectively. For example, like A, specific gravity H
<1.03, funnel viscosity F <23, filtered water volume R <
According to 25, 8.0 ≧ pH, the factor display column 31 includes:
The text "(factor) drop in specific gravity and viscosity due to lack of bentonite, pH drop due to excavation of ground" is displayed, and in the countermeasure display column 32 below it, "(countermeasure) bentonite +
Addition of CMC + soda ash (addition of CMC to maintain suspension stability) ".

The main deterioration factor display section 60 shown in FIG. 4 corresponds to the control item display section 40 and the regenerant addition pattern display section 50 A to Q shown in FIG. 3 where the specific gravity of the stabilizer is normal. The sentences are described in the factor display column 61 and the countermeasure display column 62 respectively. For example, as in A, 1.03 ≦
When the specific gravity H ≦ 1.15, the funnel viscosity F <23, the filtered water amount R <25, and 8.0 ≧ pH, the factor display column 61
The text “(Cause) Decrease in specific gravity and viscosity due to lack of bentonite / CMC, drop in pH due to ground excavation” is displayed, and in the countermeasure display column 62 thereunder, “(Countermeasure) Bentonite + CMC + Soda Addition of ash "is displayed.

The main deterioration factor display section 90 shown in FIG. 6 corresponds to the control item display section 70 and the regenerant addition pattern display section 80 shown in FIG. 5 in which the specific gravity of the stable liquid is high. A sentence is described in each of the factor display column 91 and the countermeasure display column 92. For example, as in A, specific gravity H>
1.15, corresponding to 23 ≦ funnel viscosity F ≦ 35, filtered water amount R <25, 8.0 ≧ pH, the factor display column 91 shows “(factor) increase in specific gravity due to excessive mixing of excavated soil, The text “Lower pH due to excavation of ground” is displayed, and the countermeasure display column 92 below the column shows “(Countermeasure) Operation of Shimizu + CMC + Soda ash + earth and sand separator (C to maintain suspension stability.
MC is added) ".

The deterioration reproduction chart based on the display contents as described above determines a reproduction pattern for keeping each management item within the reference value from the properties of the stable liquid at that time. A deterioration pattern that is not displayed in the deterioration reproduction chart, that is, a pattern in which the specific gravity of the stabilizing solution is normal and which is not solely displayed in the management item display section 40 in FIG. 3, is 1.03 ≦ H (specific gravity). ≦ 1.15, 23 ≦ F (funnel viscosity) ≦ 35, filtered water amount R <25, 8.0 <p
The range of H <10.5 is the case where the stable liquid has properties within the control reference value and it is not necessary to perform the regeneration by deterioration. In the case where the specific gravity of the stabilizing liquid is high and the funnel viscosity F <23 is not actually displayed in the management item display section 70 in FIG. Is the case that cannot occur. In addition, specific gravity H
Is less than or equal to 1.15, the regenerant is added to the drilling fluid. However, when the specific gravity H exceeds 1.15, the regenerant is added to the fresh water and then added to the drilling fluid, so that the drilling fluid is diluted at the same time.

Next, a method of adding a regenerant using the above-mentioned deterioration regeneration chart will be described. First, with respect to the specific gravity H measured from the deteriorated stable liquid, the specific gravity H is low (H <1.03) or good (1.03 ≦ H ≦
1.15) or high (H>1.15);
Select which one applies. Subsequently, regarding the measured funnel viscosity F of the deterioration stable liquid, the funnel viscosity F is low (F <23 (sec.)), Good (23 ≦ F ≦ 35 (sec.)), Or , High (F> 35 (sec.)), Or which one of them is applicable. Then, with respect to the measured filtered water amount R of the deterioration stable liquid, whether the filtered water amount R is high (R ≧ 25) or low (R <25) is selected. Finally, regarding the measured pH of the deterioration stable liquid, the pH is low (pH ≦ 8.0), good (8.0 <pH <10.5), or high (pH ≧ 1).
10.5) or which one applies.

As described above, the measured values of the specific gravity H, the funnel viscosity F, the filtered water amount R, and the pH of the target deterioration stabilizing solution are managed from the first to third management sheets to manage the respective deterioration regeneration charts. Item display sections 10, 40, 70 (specific gravity range display sections 11, 41, 71, viscosity range display sections 12, 42,
72, the drainage rate range display sections 13, 43, 73, and the pH range display sections 14, 44, 74), whereby the regenerant addition pattern display sections 20, 50, 80 (fresh water display sections 21, 51, 81, bentonite) Display units 22, 52, 8
2, clay display units 23, 53, 83, CMC display unit 24,
54, 84, dispersant display sections 25, 55, 85, soda ash display sections 26, 56, 86, baking soda display sections 27, 57, 8
From the corresponding point of 7), the addition pattern of the regenerant in the mixed addition method can be immediately recognized. In addition, by observing the display contents of the upper factor display columns 31, 61, and 91 from the main degradation factor display sections 30, 60, and 90, the main degradation factors can be identified, and at the same time, the lower countermeasure display columns 32 and Looking at 62 and 92, the countermeasures can be understood.

That is, as shown in the deterioration reproduction chart of the first management sheet shown in FIGS. 1 and 2, H <1.0
In the case of No. 3, the main causes of deterioration and the countermeasures can be found as follows. In the case of F <23, R <25, and 8.0 ≧ pH, the main deterioration factors are “decrease in specific gravity and viscosity due to lack of bentonite, and decrease in pH due to ground excavation”. And bentonite "3"% + CM
It can be seen that C "0.05"% + soda ash "0.1"% may be added. F <23, R ≧ 25, 8.0 <pH <
In the case of 10.5, as in E, the main deterioration factors are “decrease in specific gravity due to lack of bentonite, bentonite / CMC
And a decrease in the viscosity and an increase in the amount of filtered water due to the lack of water.
It can be seen that 2 "% may be added. 23 ≦ F ≦ 35,
In the case of R <25 and pH ≧ 10.5, it is understood that the main deterioration factors are “decrease in specific gravity due to lack of bentonite, increase in pH due to mixing of cement component” as in I, and bentonite “3”. % + CMC "0.05"% + baking soda "0.2"%.

23 ≦ F ≦ 35, R ≧ 25, 8.0 ≧ pH
In the case of J, it is understood that the main deterioration factors are "decrease in specific gravity due to lack of bentonite, increase in filtered water volume due to lack of bentonite and CMC, and decrease in pH due to excavation of soil", as in J. 3 "% + CMC
It can be seen that it is sufficient to add "0.1"% + soda ash "0.1"%. F> 35, R <25, 8.0 <pH <1
In the case of 0.5, as in N, the main deterioration factors are "decrease in specific gravity due to lack of bentonite, increase in viscosity due to agglomeration of fine particles in the stabilizing solution, and increase in pH due to mixing of cement".
And at the same time, bentonite "1"% + clay "2"% + CMC "0.05"% + dispersant "0.0"
It can be seen that 5 "% may be added. F> 35, R ≧ 2
5. When pH ≧ 10.5, as in R, the main deterioration factors are “decrease in specific gravity due to shortage of bentonite, increase in viscosity due to aggregation of fine particles in the stable liquid, bentonite / CMC
Deficiency, increased amount of filtered water due to agglomeration of fine particles "and bentonite" 1 "% + clay" 2 "
% + CMC "0.1"% + dispersant "0.05"% + baking soda "0.2"%.

Then, as shown in the deterioration reproduction chart of the second management sheet shown in FIG. 3 and FIG.
In the case of ≦ H ≦ 1.15, the main causes of deterioration and their countermeasures can be understood as follows. 7. F <23, R <25,
In the case of 0 <pH <10.5, as shown in B, the main deterioration factors were found to be “decrease in specific gravity and viscosity due to lack of bentonite”, and bentonite “1”% + CMC
It turns out that adding "0.1"% is sufficient. F <23,
When R ≧ 25 and pH ≧ 10.5, as in F, the main deterioration factors are “decrease in viscosity due to lack of bentonite / CMC, increase in filtered water amount, increase in pH due to mixing of cement”. Understand, bentonite "1"%
It can be seen that it is sufficient to add + 0.2% of CMC + 0.2% of baking soda. 23 ≦ F ≦ 35, R <25, 8.0
In the case of ≧ pH, it is understood that the main deterioration factor is “decrease in pH due to ground excavation” as in G, and CMC
It can be seen that it is sufficient to add "0.05"% + soda ash "0.1"%.

23 ≦ F ≦ 35, R ≧ 25, 8.0 <pH
In the case of <10.5, as in J, the main deterioration factor is “CM
It can be seen that "the increase in the amount of filtered water due to the shortage of C" and that CMC "0.1"% should be added. In the case of F> 35, R <25, and pH ≧ 10.5, it was found that the main deterioration factor was “increase in viscosity due to agglomeration of fine particles in the stable liquid” as in N, and CMC
"0.05"% + dispersant "0.05"% + baking soda "0.
It can be seen that 2 "% may be added. F> 35, R ≧ 2
5, 8.0 ≧ pH, as in O, the main deterioration factors are “increase in viscosity due to aggregation of fine particles in the stabilizing solution, increase in filtered water due to aggregation of fine particles and insufficient CMC, PH drop due to ground excavation "
"0.1"% + dispersant "0.05"% + soda ash "0.
It can be seen that 1 "% may be added.

Further, as shown in the deterioration reproduction chart of the third management sheet shown in FIGS. 5 and 6, H> 1.
In the case of No. 15, the main causes of deterioration and the countermeasures can be found as follows. 23 ≦ F ≦ 35, R <25, pH ≧ 1
In the case of 0.5, as in C, the main deterioration factors are “increase in specific gravity due to excessive mixing of excavated soil,
Increase "and Shimizu" 20 "% +
In addition to adding CMC “0.05”% + baking soda “0.2”%, it turns out that the sediment separator should be operated.
In the case of 23 ≦ F ≦ 35, R ≧ 25, 8.0 ≧ pH, as in D, the main deterioration factors are “increase in specific gravity due to excessive mixing of excavated soil, increase in filtered water volume due to lack of CMC, and It is known that the pH is lowered by excavation ", and Shimizu" 20 "% + CMC" 0.1 "% + soda ash" 0.1 "
It can be seen that in addition to the addition of%, the sediment separator should be operated.

F> 35, R <25, 8.0 <pH <1
In the case of 0.5, it can be seen that the main deterioration factors are "increase in specific gravity due to excessive mixing of excavated soil and increase in viscosity due to aggregation of fine particles in the stable liquid" as in H, and 2
It can be seen that in addition to the addition of 0 "% + CMC" 0.05 "% + dispersant" 0.1 "%, the sediment separator should be operated.
In the case of F> 35, R ≧ 25, pH ≧ 10.5, the main deterioration factors are “increase in specific gravity due to excessive mixing of excavated soil, increase in viscosity due to aggregation of fine particles in the stabilizing solution,” as in L. , Increased amount of filtered water due to agglomeration of fine particles and lack of CMC, and increase in pH due to mixing of cement. "
Shimizu "20"% + CMC "0.1"% + dispersant "0.
It turns out that in addition to the addition of 1 "% + baking soda" 0.2 "%, the sediment separator should be operated.

As described above, by using the deterioration regeneration chart according to the present invention, even an inexperienced person or an inexperienced person in the underground continuous wall method or the cast-in-place concrete pile method can properly reproduce the deterioration stable liquid. A plurality of different regenerants can be selected and mixed and added, and the properties of the corresponding stabilizing solution can be regenerated within a preset management reference value.

In the above embodiment, the initial formulation of the stabilizing solution was 3-5% bentonite, 0.1% CMC
０．３0.3%, dispersant 0.1〜0.3%, control standard values specific gravity 1.03３1.15, funnel viscosity 20〜3
6 sec., Filtered water amount 30 ml or less, pH 7.0 to 11.5. However, the initial formulation of the stable liquid and the control standard value vary depending on the site, so the present invention is not limited to this. Or a management reference value. In addition, the setting of each threshold value of the funnel viscosity, the amount of filtered water, and the pH is arbitrary, and it goes without saying that the specific addition pattern of the regenerating agent can be appropriately changed.

[0062]

As described above, according to the deterioration regeneration chart of the stabilizer according to the first aspect of the present invention, the numerical value displayed on the management item display portion immediately indicates where the current deterioration stabilizer belongs. In addition, by selecting the regenerating agent displayed on the regenerating agent addition pattern display portion from the portion to which the deterioration stabilizing liquid belongs, what kind of regenerating agent should be added to regenerate the deterioration stabilizing solution In the underground continuous wall method and the cast-in-place concrete pile method, even an inexperienced or inexperienced person can add an appropriate regenerant according to the deterioration stabilizing solution and regenerate the stabilizing solution. it can.

According to the deterioration regeneration chart of the stabilizer according to the second aspect of the present invention, where the deterioration stabilizer is based on the numerical values of the specific gravity, funnel viscosity, filtered water amount and pH displayed on the management item display section, You know immediately if you belong,
Specific gravity, funnel viscosity, filtered water amount and pH based on the portion to which the degradation stable liquid belongs from the range subdivided into four items,
An appropriate regenerating agent displayed on the regenerating agent addition pattern display section can be immediately selected. Therefore, in the same manner as the effect obtained by the first aspect of the present invention, it is possible to regenerate the stable liquid by adding an appropriate regenerant in accordance with the deteriorated stable liquid.

According to the deterioration regeneration chart of the stabilizer according to the third aspect of the present invention, the numerical values displayed on the control item display section, namely, the specific gravity, the funnel viscosity, the filtered water amount and the pH value are displayed.
Based on the part to which the deterioration stabilizing liquid belongs from the range subdivided into items, appropriate regeneration from among Shimizu, bentonite, clay, CMC, dispersant, soda ash, and sodium bicarbonate indicated on the regenerant addition pattern display Agents can be selected immediately. Therefore, in addition to the effect obtained by the first aspect of the present invention, there is obtained an advantage that the stabilizer can be regenerated by mixing and adding an appropriate regenerant in accordance with the deterioration stabilizer.

According to the regenerating chart of the stabilizer according to the fourth aspect of the present invention, the amount of the regenerating agent added is displayed on the regenerating agent addition pattern display area. In addition to the effect obtained by the above, there is obtained an advantage that an appropriate amount of a regenerating agent can be added.

According to the method for adding a regenerating agent for a stabilizer according to the fifth aspect of the present invention, in the underground continuous wall method or the cast-in-place concrete pile method, an appropriate regenerating agent depending on the deterioration stabilizer, specifically, As in the invention of claim 3,
Shimizu, bentonite, clay, CMC, dispersant, soda ash, sodium bicarbonate is added by mixing plural kinds, at that time, as described in claim 4, by adding an appropriate amount, for example, what is the deterioration factor, Further, the stabilizer can be regenerated while judging what the countermeasure is.

[Brief description of the drawings]

FIG. 1 shows a deterioration regeneration chart of a stable liquid used in an underground continuous wall method or a cast-in-place concrete pile method as an example to which the present invention is applied. It is the chart which showed the agent addition pattern display part.

FIG. 2 is a table showing a main deterioration factor display section corresponding to a management item display section and a regenerating agent addition pattern display section of FIG. 1;

FIG. 3 is a diagram showing a deterioration regeneration chart of a stabilizer used in an underground continuous wall method or a cast-in-place concrete pile method as an example to which the present invention is applied. It is the chart which showed the regenerant addition pattern display part.

4 is a table showing a main deterioration factor display section corresponding to the management item display section and the regenerating agent addition pattern display section of FIG. 3;

FIG. 5 shows a deterioration regeneration chart of a stabilizer used in an underground continuous wall method or a cast-in-place concrete pile method as an example to which the present invention is applied. It is the chart which showed the agent addition pattern display part.

FIG. 6 is a table showing a main deterioration factor display section corresponding to the management item display section and the regenerant addition pattern display section of FIG. 3;

[Explanation of symbols]

 10, 40, 70 Control item display section 11, 41, 71 Specific gravity range display section 12, 42, 72 Viscosity range display section 13, 43, 73 Filtration amount range display section 14, 44, 74 pH range display section 20, 50, 80 Regeneration agent addition pattern display part 21, 51, 81 Shimizu display part 22, 52, 82 Bentonite display part 23, 53, 83 Clay display part 24, 54, 84 CMC display part 25, 55, 85 Dispersant display part 26, 56,86 Soda ash display part 27,57,87 Baking soda display part 30,60,90 Main deterioration factor display part 31,61,91 Factor display column 32,62,92 Countermeasure display column

────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] March 29, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0024

[Correction method] Change

[Correction contents]

Then , the management item display section displays the specific gravity for each range, for example, less than 1.03 and 1.03 or more to 1.1.
Specific gravity range display section divided and displayed as 5 or less, exceeding 1.15, etc., and the funnel viscosity corresponding to each specific gravity range of this specific gravity display section for each range, for example, less than 23 sec.
c. 35 sec. or more, 35 sec. or less, a viscosity range display portion divided and displayed over 35 sec. and the like, and the drainage amount corresponding to each funnel viscosity range of the viscosity range display portion for each range, for example,
A drainage amount range display section divided and displayed as 25 ml or more and less than 25 ml, and a pH corresponding to each drainage amount range of the drainage amount range display section, for example, 8.0 or less, 10.5 or more, etc. And a pH range display section which is divided and displayed. For example, the specific gravity of the stabilizing solution, the funnel viscosity, the amount of drainage, and the range of pH are merely examples, and in reality, the range varies depending on the ground conditions at the site and the initial blending of the stabilizer, and the range is appropriately classified accordingly. I do.

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0025

[Correction method] Change

[Correction contents]

As described above, the management item display section is a deterioration reproduction chart composed of a specific gravity range display section, a funnel viscosity range display section, a drainage amount range display section, and a pH range display section which are displayed separately for each range. From the numerical values of the four items of specific gravity, funnel viscosity, drainage amount, and pH displayed on the display unit, it is immediately apparent to which of the deterioration stable liquids belongs. Then, an appropriate regenerating agent displayed on the regenerating agent addition pattern display section can be immediately selected based on the portion to which the deterioration stabilizing liquid belongs from the range subdivided into the four items of the specific gravity, the funnel viscosity, the filtered water amount, and the pH. .

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0026

[Correction method] Change

[Correction contents]

Further , the regenerating agent addition pattern display section is provided corresponding to the management item display section.
For example, a fresh water display section for displaying the addition of fresh water, a bentonite display section for displaying the addition of bentonite, a clay display section for displaying the addition of clay, and a C display for displaying the addition of CMC.
An MC display section, a dispersant display section for displaying the addition of a dispersant, a soda ash display section for displaying the addition of soda ash, and a baking soda display section for displaying the addition of baking soda, are characterized by being constituted. .

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0028

[Correction method] Change

[Correction contents]

As described above, the regenerating agent addition pattern display section displays the addition corresponding to the control item display section, the fresh water display section, the bentonite display section, the clay display section, the CMC display section, the dispersant display section, and the soda. Since it is a deterioration reproduction chart consisting of an ash display section and a baking soda display section, the numerical values displayed on the control item display section, specifically, specific gravity, funnel viscosity, drainage amount and p
Based on the portion to which the deterioration stabilizing liquid belongs from the range subdivided into four items of H, from among Shimizu, bentonite, clay, CMC, dispersant, soda ash, and sodium bicarbonate displayed on the regenerant addition pattern display section, An appropriate regenerant can be selected immediately.

[Procedure amendment 6]

[Document name to be amended] Statement

[Correction target item name] 0029

[Correction method] Change

[Correction contents]

[0029] Furthermore, the regenerant added pattern display unit, the amount of to be added regenerant, for example, that the indication by the weight ratio or the like to degradation stabilizing solution is characterized.

[Procedure amendment 7]

[Document name to be amended] Statement

[Correction target item name] 0030

[Correction method] Change

[Correction contents]

As described above, since this is a deterioration reproduction chart in which the amount of the regenerating agent is displayed on the regenerating agent addition pattern display portion, an appropriate amount of the regenerating agent can be added.

[Procedure amendment 8]

[Document name to be amended] Statement

[Correction target item name] 0031

[Correction method] Change

[Correction contents]

[0031] Then, an invention according to claim 2, wherein a stabilizing solution of regenerant addition method used for the underground continuous wall method and place concrete pile construction method, the deterioration reproduction chart of the stabilizing solution of claim 1, wherein Used, based on the display of the regenerating agent addition pattern, a regenerating agent corresponding to, for example, fresh water, bentonite, clay, CMC, dispersant, soda ash, sodium bicarbonate, etc., by mixing and adding to the stabilizing solution, That the property is reproduced within the preset management reference value,
It is characterized by.

[Procedure amendment 9]

[Document name to be amended] Statement

[Correction target item name] 0032

[Correction method] Change

[Correction contents]

As described above, according to the second aspect of the present invention, the deterioration regeneration chart of the stable liquid according to the first aspect is used,
Based on the indication of the regenerating agent addition pattern, the relevant regenerating agent is mixed and added to the stabilizing solution, so that the properties of the stabilizing solution are regenerated within the preset management reference value, so that the deterioration is stable. Depending on the liquid, an appropriate regenerating agent, specifically, Shimizu, bentonite, clay, CMC, dispersant, soda ash, baking soda are mixed and added, for example, while judging what is the deterioration factor, The stabilizer can be regenerated.

[Procedure amendment 10]

[Document name to be amended] Statement

[Correction target item name] 0063

[Correction method] Change

[Correction contents]

[0063] Then, a specific gravity which is displayed on the management item display section, a funnel viscosity, with apparent immediately is where to belong degradation stabilizing liquid from the numerical four items of the filtrate water and pH,
Specific gravity, funnel viscosity, filtered water amount and pH based on the portion to which the degradation stable liquid belongs from the range subdivided into four items,
An appropriate regenerating agent displayed on the regenerating agent addition pattern display section can be immediately selected. Therefore, it is possible to regenerate the stabilizer by adding an appropriate regenerant in accordance with the deterioration stabilizer.

[Procedure amendment 11]

[Document name to be amended] Statement

[Correction target item name] 0064

[Correction method] Change

[Correction contents]

Further , the numerical values displayed on the management item display section, namely, specific gravity, funnel viscosity, filtered water amount, and pH 4
Based on the part to which the deterioration stabilizing liquid belongs from the range subdivided into items, appropriate regeneration from among Shimizu, bentonite, clay, CMC, dispersant, soda ash, and sodium bicarbonate indicated on the regenerant addition pattern display Agents can be selected immediately. Therefore, there is obtained an advantage that the stabilizer can be regenerated by mixing and adding an appropriate regenerant in accordance with the deterioration stabilizer.

[Procedure amendment 12]

[Document name to be amended] Statement

[Correction target item name] 0065

[Correction method] Change

[Correction contents]

Moreover , since the amount of the regenerating agent added is displayed on the regenerating agent addition pattern display portion, there is an advantage that an appropriate amount of the regenerating agent can be added.

[Procedure amendment 13]

[Document name to be amended] Statement

[Correction target item name] 0066

[Correction method] Change

[Correction contents]

According to the method of adding a regenerant to a stabilizer according to the second aspect of the present invention, in the underground continuous wall method or the cast-in-place concrete pile method, an appropriate regenerant is used depending on the deteriorating stabilizer. Contains fresh water, bentonite, clay, C
MC, dispersing agent, soda ash, baking soda are mixed and added.
At that time, by adding an appropriate amount, for example, what is the deterioration factor, and while judging what the countermeasures,
The stabilizer can be regenerated.

Claims (5)

[Claims] 1. A management item display section for displaying a pattern which may be a deterioration of a stabilizing liquid by a numerical value for each management item, and a regenerating agent added to make the management item fall within a preset reference value. And a regeneration agent addition pattern display section for displaying the addition pattern of (1), and (2) formed side by side. 2. A management item display unit comprising: a specific gravity range display unit which displays specific gravity for each range; and a viscosity which displays funnel viscosity for each range corresponding to each specific gravity range of the specific gravity display unit. A range display section, a drainage rate range display section in which the drainage rate is displayed for each range in accordance with each funnel viscosity range of the viscosity range display section, and a drainage rate range corresponding to each drainage rate range of the drainage rate range display section. 3. The deterioration regeneration chart of the stable liquid according to claim 1, comprising: a pH range display section displaying the pH separately for each range. 3. The regenerant addition pattern display section is provided corresponding to the management item display section, and includes a fresh water display section for displaying addition of fresh water, a bentonite display section for displaying addition of bentonite, A clay display for displaying the addition of clay; a CMC display for displaying the addition of CMC; a dispersant display for displaying the addition of dispersant; a soda ash display for displaying the addition of soda ash; 2. The deterioration regeneration chart of the stable liquid according to claim 1, comprising: a baking soda display portion for indicating addition. 4. The deterioration regeneration chart of a stabilizing solution according to claim 1, wherein the amount of the regenerating agent to be added is displayed on the regenerating agent addition pattern display portion. 5. A method according to claim 1, wherein the regenerating agent is mixed and added to the stabilizing solution based on the display of the regenerating agent addition pattern. A method for adding a regenerant to a stabilizer, wherein the properties of the stabilizer are regenerated within a preset management reference value.