JP2007261242A - Method for producing kneading water for hydraulic cement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for producing kneading water for hydraulic cement for subjecting clean water such as tap water to be mixed in cement for use to flushing treatment by a pump, a mixer, far-infrared rays and a strong magnet. <P>SOLUTION: The method for producing kneading water for hydraulic cement is provided in which running water from a water source reservoiring and supplying clean water such as tap water and underground water first flows through a pump unit, next reaches a far-infrared ray generation unit, then flows through a mixer unit after being treated by a strong magnet unit, thereby producing kneading water, wherein kneading water is produced through the process eliminating the far-infrared ray generation unit or the strong magnet unit. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to production of kneaded water for hydraulic cement by treating water such as tap water used for hydraulic cement with a pump, a mixer, far infrared rays and a strong magnet when producing a concrete product and a concrete structure. It is about the method.

In general, the role of water in making concrete using this kind of hydraulic cement is to impart fluidity to the concrete before hardening and to cause the cement to harden by causing a hydration reaction. However, there is no standard for the water, and various water such as sludge water generated by washing tap water, industrial water, well water, river water, ground water, spring water, and ready-mixed concrete, and clarified supernatant water is mixed. It has been used as water. Therefore, as a temporary water quality standard, it is necessary not to include a component that adversely affects cement hardening.
Therefore, conventionally, each kneaded material is used to improve the moldability of the product in addition to the main raw materials of water and cement, and to improve the quality, but those adapted to achieve the purpose of use are: It must be selected from a large number of types, and is very inconvenient and has the troublesome problem of investigating and considering whether the usage and dose are appropriate depending on the purpose of use.

  The present invention solves the above-mentioned conventional problems, and the object is to use kneaded water composed of clean water without using solids or fluids such as mixed materials, A method for producing kneaded water for hydraulic cement that facilitates sufficiently achieving setting hardening, improving freeze-thaw resistance, saving cement amount, improving fluidity and improving workability, etc. Is to provide.

In order to achieve the above object, in the method for producing kneaded water of the present invention, a water source part for storing and supplying water such as tap water and groundwater is provided, and air is injected into the running water from the water source part. The water that has been pressurized through the pump unit is used to produce kneaded water containing fine bubbles of 50 microns or less by the mixer unit.
Moreover, the inside of the far infrared ray generation part for shortening curing time is passed between the pump part and the mixer part to produce kneaded water.
Furthermore, a water pipe is interposed between the pump part and the mixer part, and a magnet is wound around the outer periphery, and a kneaded water is produced by passing through a strong magnet part that subdivides and charges the passing water by the action of magnetic force. It is.
In addition, a water pipe is interposed between the pump unit and the mixer unit from the water source unit of the clean water, passes through a far infrared ray generating unit for enhancing drying and hardening, and subdivides and charges the passing water. The kneaded water completed by the mixer part which installs a strong magnet part and is crushed into ultrafine foam after passing through it is manufactured.

Since the present invention is configured as described above, the following effects can be obtained.
Conventionally, in order to improve the quality of molded products and improve the quality of clean water used for concrete made using this kind of hydraulic cement, it is troublesome to study the purpose and dosage of various kneaded materials. Time and effort.
However, according to the present invention, the above-mentioned kneading material is water without any need for studying whether or not the kneading material is adapted according to the purpose of use, and whether the usage and dosage are appropriate or not. Functional kneaded water can be easily produced by passing running water from the water source. This kneaded water accelerates the hardening of the cement, and has the effect of sufficiently saving cement, improving fluidity, improving durability and workability. .
Then, air is sufficiently injected in the middle of the water source part, water is pressurized by the pump part, passes through the mixer part, generates ultrafine bubbles of 50 microns or less, and hardens the bond with cement as stable and dense. Has the effect of easily promoting.
Furthermore, the present invention provides a kneaded water that has been produced by passing through a far-infrared ray generating section through a flowing water pipe between the pump section and the mixer section, so that the infrared radiation energy and the drying power of the kneaded cement can be obtained. It has an excellent effect of significantly improving the above and shortening the curing time that has not been conventionally available.
In addition, according to the kneaded water that has passed through the inside of the strong magnet section between the pump section and the mixer section, the structure of the magnet is subdivided using the magnetic flux of the magnet to maintain a high degree of uniformity. There is an effect of improving the strength compared to conventional blending.
Further, according to the present invention, the far-infrared ray generating part and the strong magnet part are passed through the flowing water pipe between the pump part and the mixer part. There are also great effects such as improvement in strength, reduction in cement content, improvement in fluidity, improvement in freezing and thawing resistance, reduction in the amount of air in concrete, and shortening of the curing time.

  According to the method for producing kneaded water for hydraulic cement constructed as described above, as shown in the figure, the running water from the water source part such as tap water, ground water, etc., passes through the pump part, and the far infrared It passes through the inside of the generating part and is subdivided by the action of the magnetic flux of the strong magnet part from the outer periphery, and then fine bubbles of 50 microns or less are generated by a mixer to complete the kneaded water. Also, the provision of a far-infrared ray generator for shortening the curing time or the passage of a strong magnet part between the passage of the pump part and the mixer part may be changed depending on the conditions such as differences depending on the appropriate source water. In each manufacturing process, the efficiency can be sufficiently improved and the desired effect can be achieved.

Next, the embodiment will be described with reference to the drawings. In FIG. 1, reference numeral (1) denotes a water source part, and this water source part (1) includes tap water, industrial water, well water, river water, groundwater. It is a water source that stores and supplies clean water.
A self-supplied air or air pump (8) is provided in the middle of the flowing water pipe (10) from the water source part (1), and water is allowed to flow to the next installed pump part (2) while injecting air. Rotating operation. The pump unit (2) gradually reduces the speed of running water to improve efficiency. The water in the pump section (2) is pressurized and then led through the water pipe (10) and connected to the mixer section (3). The mixer section (3) is for crushing the inflowed water into ultrafine bubbles of 50 microns or less and kneading them to form kneaded water (5) through the flowing water pipe (10) and supplying it to the cement kneading water. The mixer section (3) can have a dispersed particle size as small as 50 microns or less.

  In the embodiment shown in FIG. 2, air is injected from the water source part (1) by the operation of the self-supplied air or the air pump (8), the pump part (2) is run, and then on the way to the mixer part (3). A far infrared ray generator (6) provided with a substance having infrared rays for sufficiently fulfilling the drying function is disposed inside, and the interior of the far infrared ray generator (6) is passed through and allowed to flow. Next, the flowing water supplied to the installed mixer unit (3) and flowing into the mixer unit (3) is converted into ultrafine bubbles having a particle size of 50 microns or less by the mixer unit (3) as described above. The kneaded water (5) is stored by crushing into pressure water and flowing through the water pipe (10). The kneading water (5) is used as kneading water for cement.

  In the embodiment shown in FIG. 3, the mixer section through the flowing water pipe (10) supplies the flowing water whose efficiency is improved by gradually decreasing the pressure of the water by the pump section (2) operated from the water source section (1). A strong magnet part (7) is installed in the middle of (3). The powerful magnet section (7) is assembled by mounting a plurality of magnets using magnetic fluxes on the outer periphery of the water flow pipe (10), and passes through the strong magnet section (7) so as to pass through the mixer section. After entering (3), the kneaded water (5) is stored. And it is used as kneading water for cement.

Next, in the embodiment shown in FIG. 4, flowing water from various water source parts (1) such as clean water is injected with self-supplied air or air pump (8) provided in the middle of the flowing water pipe (10). Then, it reached the next pump part (2) operating by the power source (9), and the running water inside the pump part (2) decreased the speed of the water to improve the efficiency, and was then installed. It reaches the far infrared ray generating part (6), receives the radiant energy of the infrared rays while passing through the inside thereof, and flows, and reaches the strong magnet part (7) through the flowing water pipe (10) from the far infrared ray generating part (6). . Several such strong magnet portions (7) are provided on the outer periphery of the flowing water pipe (10) or the like so as to use magnetic fluxes of a plurality of opposing magnets.
The flowing water subdivided by the strong magnet section (7) reaches the mixer section (3) installed next through the flowing water pipe (10). Thereafter, the kneading water (5) is stored and used as kneading water for cement.

  It is a layout view showing the manufacturing process of the kneading water for cement blending of the present invention.   It is an arrangement drawing showing the whole manufacturing process which similarly passes through the inside of the far infrared ray generator of the present invention.   It is a layout view showing the entire manufacturing process through which a strong magnet portion provided on the outer periphery of the present invention is passed.   Similarly, it is a layout view showing the entire manufacturing process in which the far infrared ray generating part and the strong magnet part are passed during the process of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water source part 2 Pump part 3 Mixer part 5 Kneading water 6 Far infrared ray generation part 7 Strong magnet part 8 Self-supply air or air pump 9 Power supply 10 Flowing water pipe

Claims (4)

  It has a water source (1) that stores and supplies sludge water generated by washing tap water, industrial water, well water, river water, ground water, dredged water, and ready-mixed concrete, and clear water from the sludge water. ) After injecting air in the middle of the flowing water pipe, after pressurizing the water in the pump part (2), bubbles of 50 microns or less are generated by the mixer part (3) to produce fine foam water A method for producing kneaded water for hydraulic cement.   The flowing water passing between the pump section (2) and the mixer section (3) according to claim 1 is characterized in that it passes through the inside of the far-infrared ray generating section (6) after interposing the flowing water pipe (10). The method for producing kneaded water for hydraulic cement according to claim 1.   The flowing water passing between the pump section (2) and the mixer section (3) according to claim 1 is the inside of the strong magnet section (7) in which a plurality of magnets are combined on the outer periphery after the flowing water pipe (10) is interposed. The method for producing kneaded water for hydraulic cement according to claim 1, wherein   The flowing water passing between the pump section (2) and the mixer section (3) according to claim 1 is disposed inside the far infrared ray generating section (6) and the strong magnet section (7) after interposing the flowing water pipe (10). The method for producing kneaded water for hydraulic cement according to claim 1, wherein

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