KR20010068085A - magnetized water generation apparatus - Google Patents

Abstract

PURPOSE: A magnetized water production apparatus is provided, which can produce magnetized water by flowing water fed in a magnetizing path through each chamber inside the magnetizing path sequentially for sufficient retention time and can produce concentrated magnetized water by not mixing magnetized water with unmagnetized water. CONSTITUTION: The system comprises the followings: i) a vertical cylindrical casing (5) that has a magnetizing path (10) at the center and a cooling cycle at the bottom; ii) a magnetizing path (10) that is vertically installed at the center part of the casing (5) and is partitioned by many horizontal discs (40) that has penetrating holes (42); and iii) a discharge line (14) that is connected to the bottom of the magnetizing path(10).

Description

Magnetized water generation apparatus

The present invention relates to a magnetized water generator, and more particularly, to a magnetized water generator capable of immediately drinking a sufficiently magnetized magnetized water flowing along the magnetization passage.

Typically, magnetized water has been found to allow water to be rearranged by a magnetic field so that its molecules are rapidly absorbed by the human body and facilitate metabolism. In order to generate such magnetized water, permanent magnets or electromagnets are usually used. However, the method of using a permanent magnet has a problem that it is difficult to produce a sufficient magnetization effect due to insufficient density of the magnet. Therefore, a method of magnetizing water using an electromagnet is mainly used. Such a conventional magnetized water generator installs an electromagnet around a vessel in which water is placed so that the magnetic field of the electromagnet passes through the water stored in the vessel. To create it.

By the way, since the magnetized water generator using the electromagnet is difficult to magnetize by adding the amount of water to drink each time, it is usually magnetized to contain a large amount of water in a relatively large container, magnetizing such a large amount of water Since a large amount of electrical energy is consumed by the electromagnet, a predetermined amount of water contained in a container is magnetized without continuous operation of the magnetized water generator. However, if the magnetized water is stored in the refrigerator for a long time as described above, the molecular arrangement of the magnetized water is released to its original state, thereby not exerting its effect properly.

The present invention has been proposed in view of the above-described problems, and an object of the present invention is to provide a magnetized water generator capable of immediately drinking a sufficiently magnetized magnetized water while flowing along the magnetized passage.

1 is a cross-sectional view of the use state of the magnetized water generator according to the present invention

Figure 2 is a cross-sectional view of the use state of another embodiment of FIG.

<Explanation of symbols for main parts of the drawings>

10. Magnetization Path 20. Electromagnet

30. Cooling cycle 40. Bulkhead

According to the present invention, a magnetization passage 10 which is vertically formed inside the casing 5 and supplied with water from the upper portion thereof, a magnetization water discharge port 14 connected to the lower end of the magnetization passage 10, and the magnetization passage; A cooling cycle 30 including an electromagnet 20 mounted around the periphery, a cooling pipe 32 arranged between the magnetization passage 10 and the electromagnet 20, and the magnetization passage 10. It is installed in the spaced apart up and down to partition the magnetization passageway 10 into a plurality of chambers (44), the partition 40 has water in the upper chamber (44) to the lower chamber (44) The through-hole 42 or the gap 47 with the magnetization passage 10 to be supplied is formed, so as to be able to drink sufficiently magnetized magnetized water while passing through the respective chambers 44 of the magnetization passage 10. A magnetized water generator is provided.

According to another feature of the invention, the electromagnet 20 is provided with a magnetized water generator, characterized in that it is configured to generate a magnetic field between 100gauss and less than 600gauss.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a side cross-sectional view of a state of use of the magnetized water generator according to the present invention. Referring to this, the magnetization water generator is a magnetization passage 10, the discharge port 14 provided at the lower end of the magnetization passage 10, the electromagnet 20 around the magnetization passage 10, and the magnetization passage 10 ) And a cooling cycle 30 including a cooling pipe 32 arranged between the electromagnet 20 and a partition wall 40 inside the magnetization passage 10.

The magnetization passage 10 is formed vertically in the casing (5), the upper end is formed with a drinking water inlet (12) connected to the water pipe or bottled water bottle (2), and the lower end is connected to the magnetized water outlet (14) It is configured. In addition, the magnetization passage 10 is provided with a plurality of partition walls 40 therein and partitioned into respective chambers 44, and the partition walls 40 are formed with through holes 42 having a small diameter. In addition, a drain pipe 17 connected to the lower side of the casing 5 is installed at the lower portion of the magnetization passage 10. The discharge port 14 is installed at one upper side of the casing 5, and is connected to the lower part of the left shoe passage 10 by a discharge tube 16 vertically installed in the left shoe passage 10. By operating (14), the magnetized water stored in the lower portion of the magnetization passage 10 is discharged by the pressure of the water in the magnetization passage 10 to receive and drink it.

The electromagnet 20 is provided with a magnetic field line in the form of a coil, and is installed around the magnetization passage 10 to generate a magnetic field according to power supply to magnetize the water in the magnetization passage 10. At this time, if the magnetic field of the electromagnet 20 is 100gauss or less, almost no magnetization is made, if the magnetic field is 600gauss or more, the amount of power consumption is increased, heat is generated, and the capacity of the coil is increased, so that the unit price increases. The magnetic field of the electromagnet 20 should be in the range of 100gauss or more to less than 600gauss. In addition, the electromagnet 20 is connected to a separate control device is configured to automatically turn on and off by this control device. The cooling cycle 30 comprises a cooling pipe 32, a condenser 36 and a compressor 34, the cooling pipe 32 is mounted between the electromagnet 20 and the container portion 10 The heat generated from the electromagnet 20 is blocked and simultaneously cooled to a temperature suitable for drinking water.

The partition wall 40 is spaced up and down at a predetermined interval inside the magnetization passage 10 to partition the internal space of the magnetization passage 10 into a plurality of chambers 44, and a through hole 42 at one side thereof. This is formed so that water in the upper chamber 44 flows into the lower chamber 44. Accordingly, the water supplied to the drinking water inlet 12 of the magnetization passage 10 is discharged to the discharge port 14 while sequentially passing through each chamber 44 through the partition 40 and the through hole 42. Until magnetized by staying in the magnetization passage 10 for a sufficient time. In addition, the magnetization passage 10 is partitioned into a plurality of chambers 44 by the partition 40, so that the magnetized water and the less magnetized water are not mixed so that only the concentrated magnetized water can be drunk.

At this time, the through-holes 42 are arranged in a zigzag form spaced apart from each other by a predetermined interval in the horizontal direction rather than being arranged in a straight line in each partition 40, the water in the upper chamber 44 of the lower chamber 44 It can effectively prevent mixing with water. In addition, by installing a substantially? -Shaped short pipe in the through hole 42 of the partition wall 35, it is possible to more effectively prevent the water of the upper chamber 44 from mixing with the water of the lower chamber 44. do.

In some cases, a separate through hole 42 is not formed in the partition 40, and as shown in FIG. 2, a partition 40 having a diameter smaller than that of the magnetization passage 10 is discharged ( 16 may be fixedly installed at predetermined intervals so that water flows into the gap 47 between the partition 40 and the magnetization passage 10.

As described above, according to the present invention, the magnetized water generator is magnetized by staying for a sufficient time while the water supplied to the magnetization passage sequentially passes through the respective chambers of the magnetization passage, and the magnetized water and the less magnetized water are magnetized. Since it is not mixed, there is an advantage that you can only receive concentrated magnetized water.

Claims (2)

A magnetization passage 10 vertically formed inside the casing 5 and supplied with water from the upper portion thereof, a magnetization water discharge port 14 connected to a lower end of the magnetization passage 10, and a circumference of the magnetization passage 10. A cooling cycle 30 including an electromagnet 20 mounted on the cooling circuit, a cooling pipe 32 arranged between the magnetization passage 10 and the electromagnet 20, and spaced vertically apart from the magnetization passage 10. And a partition wall 40 that partitions the magnetization passage 10 into a plurality of chambers 44, and the partition wall 40 has a through hole for supplying water from the upper chamber 44 to the lower chamber 44. Or a gap (47) with the magnetization passage (10), so that the magnetization water generator can drink sufficiently magnetized magnetization water while passing through each chamber (44) of the magnetization passage (10). 2. The magnetized water generator according to claim 1, wherein the electromagnet (20) is configured to generate a magnetic field between 100 and less than 600 gauss.