JPH07116668A - Water magnetizing and activating apparatus - Google Patents

Abstract

PURPOSE:To enhance water magnetizing treatment efficiency, in a water magnetizing and activating apparatus wherein a magnetizing device passing water through a magnetic field to magnetize the same is provided in a water tank, by arranging a pressure feed pump circulating the water in the water tank to send the same into the magnetizing device under predetermined pressure in the water tank. CONSTITUTION:A magnetizing device 11 passing the water in a water tank 8 provided with an overflow pipe 8a, a water supply port 8b and a water supply pipe 9 through the magnetic field in the water tank 8 to activate the same is provided in the water tank 8. A pressure feed pump 12 sending the water in the water tank 8 into the magnetizing device 11 under predetermined pressure is connected to the water inflow port of the magnetizing device 11 and a mineral device 13 is connected to the discharge port of the magnetizing device 11 through a connection pipe 14. The pressure feed pump 12 is controlled on the basis of the detection value of a water activity measuring sensor by a pressure feed automatic control device 16 and a water level is measured by the electrode rod 18 vertically arranged in the water tank 1 and the operation of the water pumping-up pump in the water supply pipe 9 is controlled by a water supply automatic control device.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a magnetizing and activating device for water.

[0002]

2. Description of the Related Art It is known that when water is passed through a magnetic field having an appropriate strength at a flow velocity of a certain speed or higher, the water produces ions inside and becomes so-called active water.

And, the water activated by the magnetization is
It is well known that it has the property of dissolving and removing oxides (scales) etc. adhering to the wall surface inside the pipe, and when used as drinking water, it tastes much better than conventional tap water. .

Under these circumstances, various magnetization activation devices have been proposed and put to practical use in the past. As an example of the conventional example, FIG. 2 shows a magnetizing activation device in which a water tank is installed at a high place such as a rooftop and water is supplied by utilizing a height difference (head).

In the figure, 1 is a water storage tank, 1a is an overflow pipe, and 1b is a water supply port. Reference numeral 2 is a water supply pipe for supplying water to the water tank 1, and an auxiliary magnetizing device 3 is provided in the middle thereof.
Is provided to guide the water sent out by a pump (not shown) into the mineral device 4 installed in the water tank 1. The auxiliary magnetizing device 3 is for removing oxides in the water supply pipe and for auxiliaryly magnetizing the passing water. Further, the mineral device 4 is a device in which high temperature quartz porphyry is filled in a cylindrical body having a water passage, and is a device for generating mineral ions by a reaction between water and quartz porphyry.

Reference numeral 5 is a water supply pipe connected to the water supply port 1b of the water storage tank 1 and sends active water to each faucet (not shown) attached to the lower middle part. 6 is the water tank 1
It is a magnetizing device installed in the portion of the water supply port 1b inside, and activates the water in the water storage tank 1 by passing the magnetic field inside. Reference numeral 7 denotes an electrode rod vertically arranged in the water storage tank 1, which measures the water level and operates an automatic water supply control device (not shown).

Thus, in the case of the above conventional device, the water in the water tank 1 is activated by flowing in the magnetic field of the magnetizing device 6 at the time of use, but the water passes through the magnetic field only once. Only.
However, if the magnetization process is performed only once in this way, there is a possibility that some parts may not be activated in water.

In consideration of this, if the magnetic force is made strong or the flow velocity of water is increased,
Inevitably, the entire apparatus becomes large in size, which is not preferable. Further, it is possible to increase the activation efficiency by lengthening the magnetic field and lengthening the magnetization time, but in this case too, an increase in the size of the entire device is unavoidable, and the structure is also complicated.

[0009]

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and a magnetizing device is connected to a pressure pump to circulate water in a water tank for magnetizing treatment. The magnetizing process can be performed surely and quickly and the efficiency of the magnetizing can be further improved by increasing the flow velocity when passing through the magnetic field of the water, thereby eliminating the problems of the conventional device. It is an object of the present invention to provide a magnetizing and activating device for water that can be eliminated.

[0010]

Therefore, the gist of the present invention is to magnetize water comprising a water tank and a magnetizing device installed in the water tank for magnetizing water by passing through a magnetic field. In the activating device, there is provided a magnetizing activating device for water, characterized in that a pressure pump for circulating water in the basin and sending it to the magnetizing device at a predetermined pressure is arranged in the water reservoir.

Further, the pressure feed pump is automatically controlled by an automatic control device so that it is activated if the water activity in the water tank is lower than a required value, and is stopped when the activity exceeds a required value. You may do it.

[0012]

Next, the operation of the present invention will be described. At the time of water supply or water storage, the pressure pump is operated to circulate the water in the water tank. The water pumped by the pressure pump is magnetized into active water when passing through the magnetic field in the magnetizing device. Since it passes through the magnetic field many times by circulating, it is magnetized surely and quickly.

Further, since the water passing through the magnetic field has its flow velocity increased by the pressure pump and passes at a flow velocity of about 0.8 m / sec to 2 m / sec, it can be activated much more efficiently than the conventional device. it can.

The water emitted from the magnetizing device returns to the water tank after passing through the mineral device using high temperature quartz porphyry, and is supplied to each faucet through a water supply pipe. In addition, when a mineral device using high-temperature quartz porphyry is also used, the effect of dissolving and removing oxides is improved, and since mineral water can be included in the clean water, it is particularly suitable for use as drinking water. It will be

Further, if the pumping pump is continuously operated and the circulating magnetization is continued, the water in the water tank may be activated more than necessary in some cases, which may cause an unfavorable result. It is preferable to control the operation of the pressure pump according to the activity level.

That is, depending on the activity of the water in the water storage tank, if it is lower than a required value, the pressure pump is operated, and if it exceeds the required value, the operation is automatically stopped. Is preferred.

[0017]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram of an embodiment of the present invention.

In the figure, 8 is a water storage tank, 8a is an overflow pipe, and 8b is a water supply port. 9 is a water supply pipe,
An auxiliary magnetizing device 10 is provided at an intermediate portion to guide the water sent out by a pump (not shown) into the water storage tank 8. The auxiliary magnetizing device 10 and the mineral device described later have the same configuration and operation as those of the conventional device.

Reference numeral 11 denotes a magnetizing device installed in the water storage tank 8, and like the conventional device, the water storage tank 8 is provided.
The water inside is activated by passing the magnetic field inside. Reference numeral 12 is a pressure pump that is connected to the water inlet of the magnetizing device 11 and sends the water in the water storage tank 8 into the magnetizing device 11 at a predetermined pressure.

Reference numeral 13 denotes a mineral device installed in the water storage tank 8 and is connected to a water outlet of the magnetizing device 11 by a connecting pipe 14. Reference numeral 15 denotes a water supply pipe connected to the water supply port 8b of the water storage tank 8 for sending active water to each faucet (not shown) attached to the lower middle part.

Reference numeral 16 denotes an automatic pumping pump control device arranged outside the water storage tank 1, which controls the operation of the pumping pump 12 based on the detection value of a water activity measuring sensor. In this embodiment, the activity measuring sensor is
A known measuring device (not shown) for measuring the electric conductivity or the specific resistance of the activated water is used. The electrode rod described later and the measuring instrument are connected via a terminal 17. Then, the electric conductivity or the specific resistance value of the activated water is provided so as to be continuously measured, and the difference between the standard value and the preset standard value of the activated water produced in sequence is converted into an electric signal, whereby the pumping pump is produced. 12 operation controls are automatically performed.

Further, in the case of automatically controlling the pressure pump 12 in this way, when the amount of water in the water tank 8 is reduced by the use of the user and a large amount of makeup water is injected, the water tank 8 is There is a concern that the activity of the water in the water may drop sharply, but the water injection is about 1/2 of the volume of the water tank.
Since the high-concentration active water is left in a high level and the efficient magnetizing action is continuously performed even at the time of pouring water, the decrease in the activity is not a problem.

Reference numeral 18 denotes an electrode rod vertically arranged in the water storage tank 1, which measures the water level and activates a water supply automatic control device (not shown). The water supply automatic control device normally issues a water reduction alarm at water level A, operates a pump pump (not shown) at water level B, and stops operation of a pump pump (not shown) at water level C. At the water level D, a full water alarm is issued.

In addition to this, it is conceivable that the operation of the pressure feed pump 12 is controlled by utilizing an electric signal from the electrode rod 18. For example, the operation of the pressure-feeding pump may be started at the lowest water level, the operation may be continued even when pouring water, and the operation may be continued for a certain period of time even at the highest water level to maintain the desired activity level.

In addition to the above embodiment, the pressure feed pump 12
The operation control of is operated only during the time when the amount of water used is large,
It may be performed by using a preset timer so as to be paused during a period of low usage such as at night.

[0026]

The present invention has the constitution and operation as described above.
Since the water in the water storage tank is forcibly circulated and passed through the magnetic field of the magnetizing device many times, the water can be more reliably and quickly activated. And
Since there is no need to increase the magnetic force or lengthen the magnetic field, there is no need to increase the size of the entire apparatus, and it is a small size that can be sufficiently magnetized. Further, when passing through the magnetic field, the flow velocity of water can be increased by the pressure pump, so that the efficiency of magnetization can be significantly improved as compared with the conventional device. Further, if the operation of the pressure pump is automatically controlled according to the activity of the water in the water tank, it is possible to prevent the water in the water tank from being activated more than necessary. Also, if a mineral device is installed in the water circulation path, the effect of dissolving and removing oxides due to magnetization and improving the umami will be further improved, and since water can contain minerals, it can be used as drinking water. It is suitable when used.

Further, in the embodiment, an example in which the water tank is installed at a high place such as a rooftop is shown, but it is not limited to this,
It can be applied to a system in which a water tank is installed on the ground to pump water to a user at a high place, and it can also be applied to other cases.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of an embodiment of the present invention.

FIG. 2 is an explanatory diagram of a conventional device.

[Explanation of symbols]

 8 Water Tank 9 Water Supply Pipe 10 Auxiliary Magnetizing Device 11 Magnetizing Device 12 Pressure Pump 13 Mineral Device 15 Water Supply Pipe 16 Pressure Pump Automatic Control Device 18 Electrode Rod

Claims (3)

[Claims] 1. A water magnetization activating device comprising a water tank and a magnetizing device installed in the water tank for magnetizing water by passing through a magnetic field. A magnetizing device for activating water, comprising a pressurizing pump for circulating water and feeding the magnetizing device at a predetermined pressure. 2. The water magnetizing activation device according to claim 1, wherein the operation of the pump is automatically controlled according to the activity of water in the water storage tank. 3. The water magnetism activation device according to claim 1, wherein a mineral device using high-temperature quartz porphyry is arranged in a water circulation path in the water storage tank.