JP2008064509A - Slurry execution method, slurry testing method and slurry tester - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a slurry tester capable of accurately grasping the delicate difference of the flow properties of a slurry, which is prepared by delicately changing the compounding ratio of a hydraulic composition and water even in the case where a hydraulic slurry used for the floor surface execution of a building of every kind has extremely high self-flowability and adapted to slurry flowability control on the execution site, a testing method using it and an execution method of the hydraulic slurry for performing the flowability control by the testing method. <P>SOLUTION: In the execution method of the hydraulic slurry, the hydraulic slurry is prepared by kneading the hydraulic composition with water by a mixer provided on the execution site and the flowability test of the hydraulic slurry is performed using a cylindrical slurry tester, and the hydraulic slurry is supplied to an execution spot by a slurry pump to be applied to a floor surface. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a hydraulic slurry construction method having self-fluidity, a hydraulic slurry fluidity test method applied to the construction method, and a hydraulic slurry tester used for a hydraulic slurry fluidity test.

In the floor construction of various buildings, a construction method using hydraulic slurry having self-fluidity capable of efficient construction such as shortening construction time and labor saving is widely adopted.

Regarding a truck mixer truck that enables a cement kneaded material to be supplied to a construction site, Patent Document 1 has a spiral blade inside and is disposed so as to be inclined so that a cement doorway is located in an upper part. Rotating drum for transporting cement powder (with waterproof dustproof cover), cement powder discharge passage, cement powder metering device, cement kneading device, supply water amount adjusting device, water supply pipe, kneading water tank, cement kneaded material There is disclosed a cement kneaded material manufacturing truck equipped with all of a stirring device and a cement kneaded material pressure feed pump.

  Patent Document 2 discloses a self-leveling material in which a self-flowing hydraulic composition is transported to the site as powder, kneaded with water by a continuous kneading method to adjust the slurry, and the slurry is poured. A construction method is disclosed.

About the fluidity evaluation method of the hydraulic slurry having self-fluidity, a pipe having a diameter of 5 cm, a height of 5.1 cm, and an internal volume of 100 ml is used in Non-Patent Document 1, and after the slurry is filled into the pipe, the pipe is pulled up, A method is shown in which the diameter of the spread of the slurry is measured in two directions in the vertical direction and evaluated by the average value.

Japanese Patent Laid-Open No. 5-208412 JP 2001-40862 A Architectural Institute of Japan JASS15M-103

The floor surface construction method of various buildings using hydraulic slurry with self-fluidity can form a floor surface with good surface smoothness, and also has excellent construction in terms of shortening construction time and labor saving etc. Is the method. In the construction method using the hydraulic slurry having self-fluidity, the fluidity of the hydraulic slurry affects the supply characteristics of the slurry and the surface smoothness of the slurry hardened body. Yes.
In particular, a hydraulic slurry having extremely high self-fluidity provides a better effect in terms of its pumpability, workability, and surface smoothness of the cured body, while the slurry has extremely high fluidity. For this reason, there are cases in which subtle differences in the flow properties of slurries prepared by slightly changing the blending ratio of the hydraulic composition and water cannot be captured by the conventional fluidity evaluation method.
In the present invention, even when the hydraulic slurry used for floor construction of various buildings has extremely high self-fluidity, the flow of the slurry prepared by slightly changing the blending ratio of the hydraulic composition and water. A slurry tester that can accurately capture subtle differences in properties and can be applied to slurry fluidity management at the construction site, a slurry test method using the same, and a hydraulic slurry that performs fluidity management using the test method The purpose was to provide a construction method.

The present inventors can apply to a process of preparing and constructing a hydraulic slurry at the construction site, and even for a hydraulic slurry having extremely excellent self-fluidity, a subtle change in fluidity due to the difference in its preparation conditions. The present invention was completed by intensively studying a slurry tester, a slurry test method, and a slurry application method using the slurry tester that can accurately and easily evaluate the above.
Furthermore, the present inventors can be applied to the process of constructing hydraulic slurry using a hydraulic slurry preparation / construction truck equipped with a tank for storing the hydraulic composition at the construction site, and the difference in the preparation conditions The present inventors have found that a subtle difference in fluidity due to can be accurately and easily evaluated and completed the present invention.
That is, the present invention relates to the following matters.
1) A hydraulic slurry is prepared by kneading the hydraulic composition and water with a mixer provided at the construction site, and performing a fluidity test on the hydraulic slurry using a cylindrical slurry tester. Construction method of hydraulic slurry that supplies hard slurry to the construction site and constructs it on the floor.
2) A hydraulic slurry construction method using a hydraulic slurry preparation and construction truck equipped with a tank for storing the hydraulic composition, the hydraulic composition using a mixer mounted on the hydraulic slurry preparation and construction truck The material and water are continuously kneaded to prepare a hydraulic slurry, the fluidity test of the hydraulic slurry is performed using a cylindrical slurry tester, and the hydraulic slurry is supplied to the construction site with a slurry pump and the floor surface Construction method of hydraulic slurry that is continuously applied to the surface.
3) In the fluidity test, a hydraulic slurry obtained by kneading a hydraulic composition and water was placed on a horizontal plate, the height / inner diameter ratio was 0.9 to 4, and the internal volume was 200 ml to After filling a 400 ml cylindrical slurry tester and pulling up the slurry tester in the vertical direction, when the hydraulic slurry stops moving, the diameter of the spread of the hydraulic slurry is measured as an average value in two right angles. Or the construction method of the hydraulic slurry of said 2.
4) The cylindrical slurry tester is a hydraulic slurry construction method according to the above 1 to 3, wherein an upper surface and a lower surface are cut in a direction perpendicular to an extension axis of the cylinder.
5) The hydraulic slurry obtained by kneading the hydraulic composition and water has self-fluidity, and the flow value (JASS15M-103) of the hydraulic slurry is 180 to 300 mm. Method of hydraulic slurry.
6) A test method for a hydraulic slurry prepared using a hydraulic slurry preparation / construction truck equipped with a tank for storing the hydraulic composition, wherein the water is mixed with a mixer mounted on the hydraulic slurry preparation / construction truck. The hydraulic slurry test method according to any one of 1 to 5 above, wherein a hydraulic slurry is prepared by continuously kneading a hard composition and water, and a fluidity test of the hydraulic slurry is performed using a cylindrical slurry tester.
7) A slurry tester for use in a fluidity test of a hydraulic slurry prepared using a hydraulic slurry preparation / construction truck equipped with a tank for storing a hydraulic composition,
Prepare a hydraulic slurry by continuously kneading the hydraulic composition and water with a mixer mounted on a truck for preparing and constructing a hydraulic slurry, and test the fluidity of the hydraulic slurry using a cylindrical slurry tester. 7. The slurry tester according to 1 to 6 above.

The present invention is a construction site,
The present invention relates to a construction method for a hydraulic slurry having excellent self-fluidity, a fluidity testing method for a hydraulic slurry applied to the construction method, and a hydraulic slurry tester used for a fluidity test for a hydraulic slurry.
The slurry test method using the slurry tester of the present invention is the hydraulic slurry prepared by changing the blending ratio of the hydraulic composition and water slightly even in the hydraulic slurry having excellent fluidity, or The hydraulic slurry prepared by slightly changing the mixing ratio of the hydraulic composition and water can capture subtle differences in fluidity, and supply the hydraulic slurry prepared at the construction site. The fluidity that affects properties, workability, and the surface smoothness of the cured slurry can be accurately and easily evaluated and grasped, and reflected in the control of the mixing ratio of the hydraulic composition and water. It is always possible to suitably maintain and manage the supply characteristics and workability of the hydraulic slurry and the surface smoothness of the cured slurry.
In addition, by applying the present invention to the process of continuously preparing hydraulic slurry by continuous kneading using a hydraulic slurry preparation and construction truck equipped with a tank for storing the hydraulic composition at the construction site. Because the fluidity of hydraulic slurry with extremely good self-fluidity can be controlled accurately and simply, the optimum fluidity can be maintained, good workability, excellent surface smoothness of the cured slurry, water Construction that appropriately ensures the strength management of the slurry cured body by managing the blending ratio of the hard composition and water becomes possible.

  The present invention relates to a hydraulic slurry construction method having excellent self-fluidity, a hydraulic slurry fluidity test method applied to the construction method, and a hydraulic slurry tester used for a hydraulic slurry fluidity test.

The construction method of the hydraulic slurry of this invention is demonstrated.
In the construction of hydraulic slurry with self-fluidity, as one method of on-site kneading, put it in the tank of a hydraulic slurry preparation / construction truck equipped with a tank that stores the hydraulic composition of powder and the construction site The slurry is prepared by continuously kneading the hydraulic composition and water using a mixer installed in the truck for preparing and constructing the hydraulic slurry, and the fluidity of the hydraulic slurry using a cylindrical slurry tester. The quality is controlled by testing, and hydraulic slurry is supplied to the construction site by a slurry pump and continuously applied to the floor.

An example of a hydraulic slurry preparation / construction truck is shown in FIG. 1 as a schematic diagram. Fig.1 (a) is a rear view, (b) is a side view.
A hydraulic slurry preparation / construction truck 11 shown in FIG. 1 has a hydraulic composition tank 13 having a supply port 12 provided at the top thereof. The hydraulic slurry preparation / construction truck 11 then mixes the hydraulic composition and water to produce the hydraulic slurry 14 so that the hydraulic slurry 14 can be produced from the kneader 15 and the hopper 16 from the hydraulic composition tank. And a screw feeder 18 for supplying a required amount of the hydraulic composition 17 to the kneading device 15.
Further, the hydraulic slurry preparation / construction truck 11 is provided with a water tank 19 for transporting and supplying water for kneading. Water in the tank is supplied to a water supply pipe 21 by a water supply pump 20. Then, it is supplied to the kneading device 15.
The hydraulic slurry preparation / construction truck 11 as shown in FIG. 1 is supplied with the hydraulic composition 17 from the supply port 11 into the tank 13 with the discharge port closed. And after putting a predetermined amount of hydraulic composition in the tank 13, the supply port 12 is closed and it moves to a construction site. After arriving at the construction site, the outlet of the lower part of the hydraulic composition tank 13 is opened when necessary, and the hydraulic composition is taken out therefrom.
The hydraulic composition is then introduced into the kneader 15 under the control of the screw feeder 18. The kneading device 15 is supplied with water for kneading almost simultaneously from the water tank 19 while adjusting the amount of supplied water. The hydraulic composition and water are mixed and stirred at a predetermined ratio by the kneading device 15 to prepare the hydraulic slurry 14, which is retained in the hydraulic slurry tank 22. The slurry tank 22 can continue stirring the slurry in the slurry tank until the hydraulic slurry is actually applied.
The fluidity of the hydraulic slurry is evaluated by collecting the hydraulic slurry 14 from the slurry tank 22 with the hand beaker 23 and using the cylindrical slurry tester of the present invention.
The fluidity is evaluated immediately before the hydraulic slurry is actually applied, preferably every 30 minutes, more preferably every 20 minutes, more preferably every 15 minutes, and particularly preferably every 10 minutes. A fluidity test is carried out, and the mixing ratio of the hydraulic composition and water is finely adjusted as appropriate based on the test results.
The hydraulic slurry 14 and the slurry pump 24 are supplied from the slurry tank 22 through the slurry hose 25 to the construction site, and the hydraulic slurry is applied to the floor surface.

In this invention, in order to evaluate the fluidity | liquidity of a hydraulic slurry by a flow value, a cylindrical pipe is used as a slurry tester, and a flow value is measured on the board installed horizontally.
The cylindrical pipe used in the present invention is such that the upper and lower surfaces of the pipe are cut in a direction perpendicular to the extension axis of the cylinder.
The material of the cylindrical pipe is not particularly limited, but a material that does not absorb water can be suitably used, and a metal or resinous material can be suitably used. In particular, resin pipes such as vinyl chloride, polypropylene, polyethylene, and acrylic are particularly preferable because they are lightweight and have good operability.
The cylindrical pipe used in the present invention is
Preferably, the ratio of height / inner diameter is 0.9-4, the internal volume is 200 ml-400 ml,
More preferably, the ratio of the inner diameter to the height / inner diameter is 0.95 to 3.7, the inner volume is 220 ml to 350 ml,
More preferably, the ratio of the inner diameter to the height / inner diameter ratio is 1.2 to 3, and the inner volume is 240 ml to 300 ml.
The difference in the fluidity of the slurry can be properly reflected in the test value, and it is preferable from the viewpoint of handling the tester when the test is performed at the construction site.

If the ratio of the height / inner diameter of the cylindrical pipe exceeds 4, it is not preferable because the cylindrical pipe becomes elongated and it is difficult to fill the pipe with slurry in the test and it is difficult to obtain good operability.
Moreover, if the ratio of the height / inner diameter of the cylindrical pipe is less than 0.9, the filling property of the slurry into the pipe is good, but the filling amount varies due to the large inner diameter, and the test value may vary. Therefore, it is not preferable.

The material of the plate used for the test is not particularly limited, but a material that is easy to carry, strong, strong and does not absorb water can be used, and a metal or resinous material can be suitably used. In particular, those made of resin such as vinyl chloride, polypropylene, polyethylene, and acrylic are particularly preferable.

The slurry test method of the present invention will be described with reference to FIG.
In the slurry test method of the present invention, a cylindrical slurry tester having an inner diameter of 4.2 to 7.8 cm, a height of 6.0 to 20.3 cm, and an internal volume of 200 to 400 ml is provided at the center of a horizontally installed plate 31. 32 is placed, and a hydraulic slurry 33 prepared by kneading the hydraulic composition and water is filled above the upper end of the slurry tester.
Next, after the slurry 34 overflowing from the upper end of the cylindrical slurry tester is removed using a ruler 35, the cylindrical slurry tester is pulled up in the vertical direction, and the diameter of the slurry spread 36 is increased in two directions at right angles ( a, b) Measure and evaluate the fluidity of the hydraulic slurry by the average value (flow value) of the measured values.

The frequency of hydraulic fluidity evaluation of the hydraulic slurry by the slurry test method of the present invention is appropriately selected depending on the construction scale at the site, but usually measured immediately before starting the continuous construction of the hydraulic slurry, and after starting construction. Is preferably measured every 30 minutes, more preferably every 20 minutes, more preferably every 15 minutes, particularly preferably every 10 minutes, to compensate for subtle differences in fluidity from the target value. It is preferable to finely adjust the blending ratio of the composition and water.
By adopting the slurry tester and the slurry test method of the present invention, quality control of the hydraulic properties of the hydraulic slurry periodically (every 30 minutes to 10 minutes), in particular, several hours from the start of construction to the completion of construction. In the case of a property that is continuously constructed over a large area as required, the temperature and water temperature change over time, and even if it is prepared under the same conditions, it corresponds to the fluidity of the hydraulic slurry little by little. Then, by slightly correcting the preparation conditions of the hydraulic slurry, it is possible to obtain a hydraulic slurry hardened body with stable slurry workability and excellent quality.

  The slurry test method of the present invention is suitably used for fluidity evaluation of a hydraulic slurry having self-fluidity. In particular, even in a hydraulic slurry having excellent fluidity, the hydraulic composition and water A slurry prepared by slightly changing the blending ratio can accurately grasp the difference in fluidity. Therefore, by using the test method of the present invention, the fluidity of the slurry that affects the supply characteristics (pumping ability) of the hydraulic slurry and the surface smoothness of the cured slurry is accurately and easily evaluated and grasped. This can be reflected in the operation for appropriately controlling the blending ratio of the hydraulic composition and water based on the test results.

The present invention is applied to fluidity evaluation of a hydraulic slurry having excellent self-fluidity.
The hydraulic slurry to which the present invention is applied is not particularly limited, but is preferably used for fluidity evaluation of a self-flowing hydraulic slurry prepared by kneading a hydraulic composition and water. In particular, an excellent effect can be obtained as a method for evaluating the fluidity of a self-flowing hydraulic slurry having excellent fluidity.
In particular, by applying the present invention to a process for preparing a hydraulic slurry using a hydraulic slurry preparation / construction truck equipped with a tank for storing the hydraulic composition at the construction site, extremely excellent self-fluidity Since the fluidity of the hydraulic slurry can be controlled accurately and simply, the optimum fluidity can be maintained by appropriately reflecting the evaluation result of the fluidity in the control of the slurry preparation conditions. Construction that ensures supply control and workability, excellent surface smoothness of the cured slurry, strength management of the cured slurry by managing the blending ratio of the hydraulic composition and water, and the like are possible.

In the present invention, the hydraulic composition and water are kneaded to prepare and apply a hydraulic slurry.
The hydraulic composition used in the present invention can be widely applied to a hydraulic composition that exhibits excellent self-fluidity by kneading with water. Portland cement-based self-fluid hydraulic composition, Portland cement and alumina cement Can be suitably applied to a self-flowing hydraulic composition containing gypsum, a gypsum-based self-flowing hydraulic composition, and the like, and subtle changes and differences in fluidity can be accurately and easily evaluated.
The hydraulic composition used in the present invention includes excellent self-fluidity such as “SL Flow G”, “Quick Ceramic Flow”, “Finish Flow”, “Floor Leveler”, “Floor Leveler G” manufactured by Ube Industries, Ltd. The hydraulic composition which has can be used suitably.
In addition, the present invention can be suitably applied to fluidity evaluation of grout mortar or injecting material slurry showing high fluidity similar to the self-flowing hydraulic composition, using various cements as hydraulic components, The subtle difference in flow properties can be accurately and easily evaluated.

In the hydraulic slurry construction method of the present invention, a hydraulic slurry having excellent self-fluidity is used.
In the present invention, the flow value measured using a pipe having a diameter of 5 cm, a height of 5.1 cm, and an internal volume of 100 ml described in JASS15M-103 of the Architectural Institute of Japan is preferably 180 to 300 mm, more preferably 200 to 300 mm, and more. By applying the slurry test method of the present invention to a hydraulic slurry that preferably exhibits a flow value in the range of 210 to 300 mm, particularly preferably 220 to 300 mm, a more subtle difference in fluidity can be accurately and easily evaluated. be able to.
When the flow value of the hydraulic slurry is smaller than 180 mm, the fluidity of the slurry is not so excellent, and accuracy that is not insufficient even when measured by the conventional fluidity evaluation method is obtained. Not applicable. Moreover, when the flow value exceeds 300 mm, the material separation tendency of the hydraulic slurry may become strong, and it becomes difficult to obtain a practical slurry state from factors other than the fluidity of the slurry. Is not preferred.

  Hereinafter, the present invention will be described in more detail based on examples. However, this invention is not restrict | limited by the following Example.

(Evaluation method for fluidity)
The flow value (mm) was measured by the following method.
A cylindrical slurry tester is placed at the center of a horizontally installed plate, and a slurry prepared by kneading the hydraulic composition and water is filled above the upper end of the slurry tester.
Next, the cylindrical slurry tester is pulled up in the vertical direction, the diameter of the spread of the slurry is measured in two directions at right angles, and the fluidity of the slurry is evaluated by the average value (flow value) of the measured values.

The following materials were used.
1) Hydraulic composition: Self-leveling material (trade name: SL Flow G, manufactured by Ube Industries).

The following four types of cylindrical slurry testers (vinyl chloride pipes) were used as slurry testers. A metal plate was used as a plate on which the cylindrical slurry tester was installed.
1) Slurry tester a: inner volume 260 ml, inner diameter 7 cm, height 6.8 cm.
2) Slurry tester b: inner volume 260 ml, inner diameter 6 cm, height 10 cm.
3) Slurry tester c: inner volume 260 ml, inner diameter 4.5 cm, height 16.4 cm.
4) Slurry tester d: inner volume 100 ml, inner diameter 5 cm, height 5.1 cm. (Slurry tester according to JASS15M-103)
5) Slurry tester e: Internal volume 147 ml, inner diameter 5 cm, height 7.5 cm.
6) Slurry tester f: inner volume 246 ml, inner diameter 5.6 cm, height 10 cm.

[Examples 1 to 3 and Comparative Examples 1 and 2]
Under the conditions of a temperature of 20 ° C. and a relative humidity of 65%, 100 parts by mass of the hydraulic composition is added with the kneading water shown in Table 1, and is kneaded at a rotational speed of 650 rpm for 5 minutes using a chemistor. A flowable slurry was prepared.
Table 1 shows the results of fluidity evaluation of the obtained four types of slurry using four types of slurry testers.

1) In the case of Comparative Example 1 using a slurry tester d (JASS15M-103) having a capacity of 100 ml and a height / inner diameter ratio of 1.02, the amount of water used during slurry preparation was changed from 24.5 parts by mass to 25.0 parts. The difference in fluidity of the slurry changed to 2 parts by mass and the difference in fluidity of the slurry changed from 25.0 parts by mass to 26.0 parts by mass were both as small as 1 mm.
2) In the case of Comparative Example 2 using a slurry tester e having a capacity of 147 ml and a height / inner diameter ratio of 1.5, the amount of water used during slurry preparation was changed from 24.5 parts by mass to 25.0 parts by mass. The difference in fluidity of the slurry was zero, and no difference in fluidity was detected.
3) In the case of Examples 1 to 3 using a slurry tester a, b or c having a capacity of 260 ml and a height / inner diameter ratio of 0.97 to 3.6, along with an increase in the amount of water used during slurry preparation The flow value of the slurry was increased by 3 to 7 mm, and an increase in fluidity was accurately detected.
In particular, when the slurry tester b was used, the difference in flow value was as large as 6 or more, and the difference in fluidity could be captured more clearly.

[Example 4 and Comparative Example 3]
In an outdoor laboratory, a self-leveling material (trade name: SL Flow G, manufactured by Ube Industries) is used as the hydraulic composition, and the hydraulic slurry is continuously produced using the hydraulic slurry preparation / construction truck shown in FIG. For the hydraulic slurry in the slurry tank 22 prepared and continuously applied, the slurry tester f (inner volume 246 ml, inner diameter 5.6 cm, height 10 cm) and slurry tester d (inner volume 100 ml, inner diameter 5 cm, high The fluidity test was conducted using a 5.1 cm, slurry tester according to JASS15M-103. In the fluidity test, the first fluidity test (flow measurement) was performed using the slurry tester f and the slurry tester d and the respective testers immediately before starting the construction of the hydraulic slurry. The slurry was sampled from the slurry tank 22 every minute, and the fluidity test was performed using two testers. Moreover, about the hydraulic slurry which performed each fluidity | liquidity test, the slurry temperature was measured.
The mixing ratio of the hydraulic composition and water was adjusted to an appropriate range, and the hydraulic slurry was adjusted and constructed at 2 m ³ / h for 2 hours and 20 minutes continuously.
Table 2 shows the results of evaluating the fluidity of the continuously prepared hydraulic slurry using two types of slurry testers.

  In the case of Comparative Example 3 using the slurry tester d, the fluidity of the slurry is stable with almost no change from before the construction to 140 minutes after the construction starts, and the fluidity of the slurry is constant from this test value. Is interpreted.

In the case of Example 4 using the slurry tester f, unlike the case of Comparative Example 3, the flow value measured every 20 minutes fluctuates for a period of 140 minutes from the start of measurement to the end of measurement. It was detected.
Normally, when slurry is continuously prepared and applied, the slurry temperature changes slightly due to changes in the outside air temperature, hydraulic slurry preparation and construction truck equipment, etc. As a result, the water ratio changes slightly over time. As apparent from the flow value difference in Example 4, the change in the flow characteristics of the continuously prepared slurry could be appropriately and appropriately verified by using the slurry tester of the present invention. Based on this subtle change in slurry fluidity, quality control of the slurry properties, and fine adjustment of the amount of water to be mixed in the hydraulic composition, which is one of the slurry preparation conditions, is appropriate for the method of continuous slurry preparation It became possible to apply a slurry having a proper property stably.

The slurry test method using the slurry tester of the present invention is the hydraulic slurry prepared by changing the blending ratio of the hydraulic composition and water slightly even in the hydraulic slurry having excellent fluidity. Capable of capturing subtle differences in fluidity.
By applying the slurry test method of the present invention to the quality control of hydraulic slurry prepared at the construction site, the fluidity that affects the supply characteristics and workability, and the surface smoothness of the slurry cured body, etc. can be accurately confirmed. It is possible to apply hydraulic slurry that is easily evaluated and grasped and reflected in the control of the mixing ratio of the hydraulic composition and water, and always has good supply and workability, and excellent surface smoothness of the cured slurry. The construction which ensured the strength management of the slurry hardening body by management of the mixing | blending ratio of water property, a hydraulic composition, and water is attained.

It is a schematic diagram which shows an example of the truck which mounts the storage tank of hydraulic composition and can prepare and construct hydraulic slurry. It is a figure which shows an example of the slurry tester and slurry test method of this invention.

Explanation of symbols

11 Hydraulic Slurry Preparation / Construction Truck 12 Hydraulic Composition Supply Port 13 Hydraulic Composition Tank 14 Hydraulic Slurry 15 Kneading Device (Mixer)
16 hopper 17 hydraulic composition 18 screw feeder 19 water tank 20 water supply pump 21 water supply pipe 22 hydraulic slurry tank 23 hand beaker 24 slurry pump 25 slurry hose 31 horizontal plate 32 slurry tester 33 hydraulic slurry 34 slurry tester Hydraulic slurry 35 overflowing from ruler 36 Spread of slurry

Claims (7)

A hydraulic slurry is prepared by kneading the hydraulic composition and water with a mixer provided at the construction site,
Perform fluidity test of hydraulic slurry using cylindrical slurry tester,
A hydraulic slurry construction method, comprising supplying a hydraulic slurry to a construction site by a slurry pump and constructing the floor surface. A hydraulic slurry construction method using a hydraulic slurry preparation and construction truck equipped with a tank for storing a hydraulic composition,
Prepare a hydraulic slurry by continuously kneading the hydraulic composition and water with a mixer mounted on a truck for hydraulic slurry preparation and construction, and conduct a fluidity test on the hydraulic slurry using a cylindrical slurry tester. ,
A hydraulic slurry construction method, characterized in that hydraulic slurry is supplied to a construction site by a slurry pump and continuously constructed on a floor surface. In the fluidity test, a hydraulic slurry obtained by kneading a hydraulic composition and water was placed on a horizontal plate, the height / inner diameter ratio was 0.9-4, and the internal volume was 200 ml-400 ml. After filling the cylindrical slurry tester and pulling up the slurry tester in the vertical direction, when the hydraulic slurry stops moving, the diameter of the spread of the hydraulic slurry is measured with an average value in two right angles. The construction method of the hydraulic slurry of Claim 1 or Claim 2 to do. The construction method of the hydraulic slurry according to any one of claims 1 to 3, wherein the cylindrical slurry tester has an upper surface and a lower surface cut in a direction perpendicular to an extension axis of the cylinder. The hydraulic slurry obtained by kneading the hydraulic composition and water has self-fluidity, and the hydraulic slurry has a flow value (based on JASS15M-103) of 180 to 300 mm. The construction method of the hydraulic slurry of any one of claim | item 1-4. A hydraulic slurry test method prepared using a hydraulic slurry preparation / construction truck equipped with a tank for storing a hydraulic composition,
Prepare a hydraulic slurry by continuously kneading the hydraulic composition and water with a mixer mounted on a truck for preparing and constructing a hydraulic slurry, and test the fluidity of the hydraulic slurry using a cylindrical slurry tester. The hydraulic slurry test method according to claim 1, wherein the hydraulic slurry is a test method. A slurry tester for use in a fluidity test of a hydraulic slurry prepared using a hydraulic slurry preparation / construction truck equipped with a tank for storing a hydraulic composition,
Prepare a hydraulic slurry by continuously kneading the hydraulic composition and water with a mixer mounted on a truck for preparing and constructing a hydraulic slurry, and test the fluidity of the hydraulic slurry using a cylindrical slurry tester. The slurry tester according to any one of claims 1 to 6, wherein

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