JP2011149196A - Cold region water meter box with water activating function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cold region water meter box with a water activating function, which enables water to be activated concurrently while preventing freezing of a water supply pipe and protecting a water meter, in a cold region having atmosphere temperature set below zero (zero degree C or less). <P>SOLUTION: This cold region water meter box 10 includes: a box body 20 like a cylinder 21A, which comprises a lid portion 22 and a bottom 21B and which is long in a height direction; a spiral water supply pipe 51 which is housed in the box body 20, connects inflow-side and outflow-side water supply pipes 101 and 102 together, and is spirally wound; the water meter 52 which is installed in the spiral water supply pipe 51; and a handle portion 54 which pulls-up the water meter 52 and the upper portion of the spiral water supply pipe 51. The cold region water meter box 10 also includes magnetic and far-infrared irradiation devices 30 and 40 which are arranged on the primary and secondary sides of the water supply pipe holding the water meter 52 in between, respectively. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  TECHNICAL FIELD The present invention relates to a cold district water meter box with an active water function for storing and protecting a water meter and activating water in a water supply pipe laid in a cold district.

  Usually, water meters are installed in houses, facilities, and the like that use water supplies in order to measure the amount of water used. The water meter is installed in a water supply pipe buried in the ground, and meter reading is performed regularly by a business operator. In addition, replacement is obliged after the set deadline. A meter box is commonly used to protect the meter and facilitate meter reading and replacement.

On the other hand, water supply pipes laid in cold regions are buried deep in the ground to prevent freezing by using geothermal heat. As a result, the water meter installed in the water supply pipe was also installed deep in the ground, and the above-described meter reading and replacement work was very difficult. So, the water box with a long distance (height) from the surface to the bottom,
There has been proposed so far that a water supply pipe in a box is wound in a spiral shape so that the water meter installed in the water supply pipe can be pulled up (see, for example, Patent Document 1).

JP 2003-56016 A

  By the way, in order to easily improve the taste and safety of tap water in ordinary households and the like, simple water treatment devices such as water purifiers and water conditioners are usually used.

  However, these devices attempt to purify the water by filtering the water with a filter, and there is a problem that the performance is greatly lowered if the maintenance of the filter medium is neglected. Furthermore, since the chlorine added for the purpose of sterilization is removed, there is a problem that the safety as drinking water is remarkably lowered over time.

  Moreover, in the case of the said conventional simple water treatment apparatus, it must be installed not on the primary side (supply side from a municipality etc.) but on the secondary side (after water meter). However, the impurities flowing from the primary side cause the flow rate to decrease due to adhering to the strainer of the water meter and damage due to the clogging of the water meter eto. Moreover, not only the water meter but also the water stop valve is attached, which hinders the opening and closing of the valve. In the case of the conventional simple water treatment device, it is impossible to deal with such a problem because water cannot be purified on the primary side.

  Therefore, in view of the above situation, the present invention can prevent water pipe freezing and protect a water meter while simultaneously activating water in a cold region where the atmospheric temperature is below freezing (less than 0 degrees Celsius). An object of the present invention is to provide a cold district dose water supply box with a live water function.

  In order to solve the above problems, the present invention has a cylindrical box body having a lid portion and a bottom portion and elongated in the height direction, and an inflow side water supply pipe and an outflow side water supply pipe housed in the box body. And a spiral water supply pipe wound spirally, a water meter installed in the spiral water supply pipe, and a handle portion that allows the water meter and the upper part of the spiral water supply pipe to be pulled up And a cold water meter box, further comprising a magnetic and far-infrared irradiation device respectively disposed on a primary side and a secondary side of a water supply pipe across the water meter. To provide a cold district dose water bottle box with live water function.

  Here, it is preferable that the magnetic and far-infrared irradiation device includes a permanent magnet as a magnetic irradiation means, and the permanent magnet is preferably a bar magnet.

  According to the cold district dose water supply box with the active water function of the present invention, in the cold district, the water supply pipe is prevented from freezing and the water meter is protected, and at the same time, the water activation on the primary side and the secondary side is easily performed. Can be achieved.

BRIEF DESCRIPTION OF THE DRAWINGS It is the whole schematic which shows the outline | summary of the cold district dose water device box with a live water function which concerns on one Embodiment of this invention. It is an upper surface schematic diagram of the cold district water meter box with a live water function shown in FIG. It is the elements on larger scale of the cold district dose water device box with an active water function shown in FIG. It is a perspective view of the magnetic and far-infrared irradiation part in the cold district water meter box with a live water function shown in FIG. It is a disassembled perspective view of the primary side magnetism and far-infrared irradiation part shown in FIG. It is a disassembled perspective view of the secondary side magnetism and far-infrared irradiation part shown in FIG. It is a perspective view which shows the example of arrangement | positioning of the permanent magnet in the cold district water dispenser box with an active water function shown in FIG. It is a graph which shows the result of the temperature rise test of the water and the tap water which were activated by the cold district dose water device box with an active water function of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is an overall schematic diagram showing an outline of a cold district dose water dispenser box with an active water function according to an embodiment of the present invention. FIG. 2 is a schematic top view of the cold district water meter box with a live water function, and FIG. 3 is a partially enlarged view thereof.

  As shown in these drawings, a cold district dose water dispenser box 10 with an active water function of the present invention includes a box body 20 that houses a pull-up section 50, and a primary-side magnetic and far-infrared irradiation section that is built in the box body 20. 30, the secondary side magnetism and far-infrared irradiation part 40, and the raising part 50 provided with the water meter 52 grade | etc., Are comprised.

  The box body 20 includes a cylindrical portion 21A, a bottom portion 21B, and a lid portion 22.

  The cylindrical portion 21A is provided with a water meter 54 and the like, and has a long shape in the depth direction to prevent freezing. A bottom portion 21B is integrally formed at the lower end, and a lid portion 22 is disposed at the upper end. Further, on the side surface of the cylindrical portion 21A, a primary side mounting portion 23 for fixing a primary side magnetism and far infrared irradiation unit 30 described later and a secondary side for fixing the secondary side magnetism and far infrared irradiation unit 40. A side mounting portion 24 is provided.

  The pull-up unit 50 connects the inflow side (primary side) water supply pipe 101 and the outflow side (secondary side) water supply pipe 102, and a spiral water supply pipe 51 wound spirally in the vertical direction, The water meter 52 installed in the spiral water supply pipe 51, the water stop valve 53 similarly installed in the spiral water supply pipe 51, and the water meter 52 and the water stop valve 53 are connected to the upper part of the spiral water supply pipe 51. And a handle portion 54 that can be pulled up. If necessary, the lid portion 22 of the box body 20 is removed and the handle portion 54 of the lifting portion 50 is lifted to lift the water meter 52 and the water stop valve 53 together with the upper portion of the spiral water supply pipe 51. Can be read and replaced. The ends of the spiral water supply pipe 51 are led out to the outside of the box body 20 through the cylindrical primary-side magnetism and far-infrared irradiation unit 30 and secondary-side magnetism and far-infrared irradiation unit 40, respectively. And the primary side connection part 51A for connecting with the inflow side water supply pipe | tube 101 is provided in the front-end | tip of the primary side. Similarly, the secondary side connection part 51B for connecting with the outflow water supply pipe 102 is provided at the tip of the secondary side.

  Next, the magnetic and far infrared irradiation units 30 and 40 will be described. FIG. 4 is a perspective view showing the magnetic and far-infrared irradiation units 30 and 40. 4A shows the primary-side magnetism and far-infrared irradiation unit 30, and FIG. 4B shows the secondary-side magnetism and far-infrared irradiation unit 40. FIG. 5 is an exploded perspective view of the primary-side magnetism and far-infrared irradiation unit 30. Here, for easy understanding, a diagram in which the primary-side magnetism and far-infrared irradiation unit 30 is divided into two horizontally is shown. FIG. 6 is an exploded perspective view of the secondary-side magnetism and far-infrared irradiation unit 40. Similarly to FIG. 5, the secondary magnetism and far-infrared irradiation unit 40 is horizontally divided into two.

  As shown in these drawings, the primary-side magnetism and far-infrared irradiation unit 30 has a cylindrical shape having an insertion hole 31 for passing a water supply pipe, a far-infrared layer 32 made of a far-infrared emitting material, An infrared layer 32 is laminated, and a magnetic layer 33 on which permanent magnets 33a and 33b are mounted, a magnetic shield sheet 34, and a case 35 are provided. The primary-side magnetism and far-infrared irradiation unit 30 is disposed in a primary-side attachment portion 23 provided in the cylindrical portion 21 of the box body 20.

  Similarly, the secondary-side magnetism and far-infrared irradiation unit 40 has a cylindrical shape having an insertion hole 41 for passing a water supply pipe, and a far-infrared layer 42 made of a far-infrared emitting material and the far-infrared layer 42 are laminated. In addition, a magnetic layer 43 on which permanent magnets 43a and 43b are mounted, a magnetic shield sheet 44, and a case 45 are provided. The secondary-side magnetism and far-infrared irradiation unit 40 is disposed in a secondary-side mounting portion 24 provided in the cylindrical portion 21 of the box body 20.

  The far-infrared layers 32 and 42 are formed by spraying a far-infrared raw material on the inner surfaces of the magnetic layers 33 and 43. The far-infrared layers 32 and 42 are prepared by mixing nine kinds of raw materials in order to secure a wavelength of 8 to 14 microns, which has a high absorption rate with respect to water. Is used.

  As shown in FIGS. 5 and 6, the magnetic layers 33 and 43 are composed of a plurality of bar magnets (permanent magnets; preferably ferrite magnets and rare earth magnets). In this way, magnetic leakage can be prevented by arranging bar magnets instead of U-shaped magnets in the cylindrical fixtures 33 and 43. Here, as shown in FIG. 7, the four pole magnets are arranged so that the same poles are opposed to each other in the circumferential direction, and different polarities are opposed to each other in the vertical direction. By arranging so that the same poles are opposed and repelled in the circumferential direction, it is possible to draw a Gauss that is approximately three times as many as the Gauss number of the single magnet. On the other hand, it arrange | positions so that the opposite polarity may differ in an up-down direction. Here, as an example, the S pole is disposed on the upper insertion hole side, the N pole is disposed on the outer side, the N pole is disposed on the lower insertion hole side, and the S pole is disposed on the outer side. Thus, the water activation function can be exhibited by arranging them so as to attract each other vertically.

  The magnetic shield sheets 34 and 44 are preferably made of hard rubber. The cases 35 and 45 are made of iron plates for magnetic shielding. More preferably, a resin material is used to prevent corrosion.

  Next, the activation of water by the cold region dose water supply box with an active water function of the present invention will be described. In the present invention, by arranging the magnet and the far-infrared radiation material with the water supply pipe interposed therebetween, the energy level of water is improved, and the water penetration force and dissolution power are increased. It also suppresses carcinogenic substances simultaneously by inhibiting the binding of organic substances and chlorine in water. On the other hand, the sterilizing power of water is maintained by the residual chlorine, and water suitable as drinking water can be provided. Such activated water also suppresses corrosion of the water supply pipe.

  The water flow that passes through the cold region dose water supply box with the active water function of the present invention first passes through the far-infrared rays that are the magnetic field and radiant energy between the two poles. The magnetic flux density used is 1500 to 3000 gauss (a strong magnetic field of 6000 to 8000 gauss can also be used). The magnetic field has the property of attracting each other by the N and S magnetic poles, but far infrared rays are one of electromagnetic waves, and the radiant energy is the wavelength, so it does not directly irradiate water from the outside of the pipe, It gradually penetrates into the pipe and is radiated to the water.

  In the present invention, when these two energy bodies are used and water passes, an electron excitation action (ionization action) works. Since water originally contains ions and has electrical conductivity, energy conversion between the water molecules (ionization effect between the water molecules) occurs violently by the radiation energy of the magnetic field and far infrared rays. This is because water molecules are also polar, one of which is a negative charge (-) and the other is a positive charge (+). ... resonance / resonance reaction occurs in O), and hydrogen bonds are separated, and water molecules are activated. This is because the polarity of water is divided into yin and yang by receiving an external magnetic field and diverted. During this time, water molecules are vigorously spun and activated. Water that has received magnetic and far-infrared rays is activated by an electronic excitation action, and the energy level is increased, so that the energy balance of water molecules is adjusted. The duration of water activated by such a change in the structure of water molecules can be evaluated by measurement.

The NMR (nuclear magnetic resonance device) is used to represent the frequency H _Z captures the speed in motion of water molecules. As the molecular motion is fast numerical frequency H _Z is small, a set of small water molecule indicates that they are actively exercise. By this measurement, the time when the activity rate of the water treated by the cold district dose water dispenser box with the live water function of the present invention returned to the value of the non-treated water was traced. It was confirmed to last.

  Moreover, the cold district water meter box with an active water function of the present invention also has an effect of inhibiting corrosion. It is generally said that it is about 15 to 20 years after construction when the piping of a new house is corroded and so-called “red water” is generated and flows out. When leaching rust reaches a concentration of about 0.5 mg / l, it is visually confirmed as red water and cannot be used as drinking water. Therefore, a trial calculation of the period until the rust elutes at the above concentration from the new pipe through which the water treated by the cold district water dispenser box with an active water function of the present invention circulates is doubled in the case of the pipe not treated. From 30 years to 35 years.

  Furthermore, the water activated by the cold district water dispenser box with an active water function of the present invention can be boiled faster than normal tap water. The outline of the experiment is shown below. Two thermo-heaters (50 ° C. setting) were installed in the water tank, filled with 18.6 degrees of tap water and active water and circulated with a circulation pump, and the time required to reach a water temperature of 50 ° C. was measured. FIG. 8 shows the result. As can be seen from this figure, it is apparent that the temperature of the active water by the cold district dose water supply box with the active water function of the present invention rises faster than the tap water. For this reason, it becomes possible to exhibit an energy saving effect.

  It has also been found that the water activated by the cold water doser box with a live water function of the present invention removes oil stains well. The outline of the experiment is shown below. The cloth soaked with machine oil was put into a beaker containing tap water and active water, and the amount of hexane (component) eluted in the water was compared (measurement method: shaking extraction method JISK0102). A higher hexane value indicates that oil stains are easier to remove. As a result, hexane eluted in tap water was 69 mg / l, whereas hexane eluted in active water according to the present invention was 140 mg / l. Thereby, it turns out that the water activated by the cold district water meter box with an active water function of this invention removes oil stains well. Therefore, when used for washing tableware, clothes, etc., it becomes possible to save the amount of water and reduce the amount of detergent.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment, Based on the meaning of this invention, various deformation | transformation are possible, These are excluded from the scope of the present invention. is not.

  TECHNICAL FIELD The present invention relates to a cold district water meter box with an active water function for storing and protecting a water meter and activating water in a water supply pipe laid in a cold region, and has industrial applicability.

DESCRIPTION OF SYMBOLS 10 Cold district dose water supply box with active water function 20 Box main body 21A Cylindrical part 21B Bottom part 22 Cover part 23 Primary side attachment part 24 Secondary side attachment part 30 Primary side magnetism and far infrared irradiation part 31 Insertion hole 32 Far infrared layer 33 Magnetic Layer 33a Permanent magnet 33b Permanent magnet 34 Magnetic shield sheet 35 Case 40 Secondary side magnetism and far infrared irradiation unit 41 Insertion hole 42 Far infrared layer 43 Magnetic layer 43a Permanent magnet 43b Permanent magnet 44 Magnetic shield sheet 45 Case 50 Lifting part 51 Spiral water supply Pipe 51A Primary side connection part 51B Secondary side connection part 52 Water meter 53 Water stop valve 54 Handle part 101 Inflow side water supply pipe 102 Outflow side water supply pipe

Claims (2)

A cylindrical box body having a lid part and a bottom part and elongated in the height direction was connected to the inflow side water supply pipe and the outflow side water supply pipe housed in the box body and wound spirally. A water meter box for cold districts, comprising: a spiral water supply pipe; a water meter installed in the spiral water supply pipe; and a handle portion that allows the upper part of the water meter and the spiral water supply pipe to be pulled up. Because
A cold district dose waterer box with a live water function, further comprising a magnetic and far-infrared irradiation device respectively disposed on the primary side and the secondary side of the water supply pipe with the water meter interposed therebetween.   2. The cold district dose water dispenser box with an active water function according to claim 1, wherein the magnetic and far-infrared irradiation device includes a permanent magnet as magnetic irradiation means, and the permanent magnet is a bar magnet.

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