JP3124262B2 - Water magnetizer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water magnetizing device used for magnetizing water in a pipe such as a water pipe.

[0002]

2. Description of the Related Art The quality of tap water varies slightly depending on the water source, but most of the tap water has problems in taste and smell as well as deterioration in the quality of water taken, and there is a need for improvement. In addition, water forms a group of molecules, and it is said that tap water, which is said to be bad, has a large molecular group on average, and delicious natural water has a small molecular group. Water with a small water molecule population is considered to be delicious because the movement of water molecules is activated and activated. In general, rust and scale often occur in water pipes and water storage tanks, and when rust and scale occur in pipes and water storage tanks, the pipe diameter is narrowed and the efficiency of flowing water deteriorates. There is a risk of damaging the piping itself. Therefore, a method has been adopted in which water is magnetized to activate water molecules, thereby making the water delicious, and dissolving and discharging rust and scale in the piping.

As a water magnetizing device, a permanent magnet set in which a pair of permanent magnets are arranged so that opposed magnetic poles are N and S poles, an outer box containing one permanent magnet, and the other. A storage case composed of an inner box for storing permanent magnets, and by fitting the inner box into the outer box with piping interposed,
A pair of permanent magnets are arranged so as to face each other with the pipe interposed therebetween.

[0004] By the way, there are various standards for the pipe diameters (largely 13 mm to 4 mm for water pipes).
0 mm), when a magnetizing device is installed for pipes having different pipe diameters, conventionally, the outer box and the inner box constituting the storage case are manufactured in a size corresponding to the pipe diameter to be used. I was

[0005]

However, when the outer case and the inner case which constitute the storage case are manufactured in a size corresponding to the diameter of the pipe to be used as in the prior art, several kinds of sizes different for each diameter of the pipe are provided. A storage case must be made.
In this case, there is a great disadvantage in terms of manufacturing cost, and there is a problem in that inventory management is troublesome.

The present invention has been made to solve such a conventional problem, and its object is to provide:
An object of the present invention is to provide a magnetizing device for water that can be freely installed in a pipe having a different diameter even though it is one kind of storage case.

[0007]

In order to solve the above-mentioned problems, in the water magnetizing apparatus of the present invention (claim 1), the magnetic poles facing a pair of permanent magnets are the north pole and the south pole. Are arranged in series in such a manner that adjacent magnets are magnetically attached to each other in the flow direction of the pipe, and adjacent permanent magnets have N poles and S poles, and a plurality of permanent magnet sets. A permanent magnet body in which the magnetic force of some of the permanent magnet sets is stronger than the magnetic force of the other permanent magnet sets, an outer box for storing the permanent magnet on one side of the permanent magnet body, and a permanent magnet for the other side. A storage case composed of an inner box and an inner box fitted in the outer box with the piping interposed therebetween, so that a pair of permanent magnets are installed facing each other with the piping interposed therebetween. A magnetizing device for water, wherein locking means for engaging with a fitting surface of the outer box and the inner box in a fitted state is provided. Vignetting, the locking means has a configuration which is stepwise formed in the fitting depth direction,

In the apparatus for magnetizing water according to the present invention, a plurality of permanent magnet sets are arranged in series at intervals in the flow direction of the pipe, and a part of the permanent magnet sets is replaced by a magnetic force of another permanent magnet set. There is a mode (Claim 2) in which it is made stronger. When the water is magnetized, if the flow velocity of the water is high, the water is passed through a weak magnetic field, and if the flow velocity of the water is low, the water is passed through a strong magnetic field. It is known that water molecules are excited by the action, and as a result, the water molecules are reduced and activated. Therefore, as in the water magnetizing device of the present invention, a part of the plurality of permanent magnet sets is made stronger than the magnetic force of the other permanent magnet sets, and the magnitude of the magnetic force of the permanent magnet sets is changed. With this arrangement, the pipes can be irradiated with magnetic field lines of different sizes, and the magnetic field can always be efficiently actuated regardless of the flow velocity to achieve magnetization.

In this water magnetizing device, the locking means is formed by a locking groove and a locking claw, and one of the locking groove and the locking claw is formed stepwise in the fitting depth direction. (Claim 3).

In this magnetizing device, the inner box is fitted into the outer box with the piping interposed therebetween, so that a pair of permanent magnets can be installed facing each other with the piping interposed therebetween. In this case, the fitting state of the outer box and the inner box is maintained by the engagement of the locking means (the locking groove and the locking claw). And since this locking means is formed stepwise in the fitting depth direction, the fitting depth of the outer box and the inner box can be adjusted. Therefore, if the fitting depth is adjusted in accordance with the pipe diameter of the pipe sandwiched between the outer box and the inner box, it can be freely used for pipes having different pipe diameters, even though it is one kind of storage case. Can be installed in response to

In the apparatus for magnetizing water according to the present invention, the yoke is attached to the permanent magnet.
There is. Thus, by attaching the yoke to the permanent magnet, the magnetic force of the permanent magnet can be increased.

In the apparatus for magnetizing water of the present invention, there is a mode in which a permanent magnet is stored in a storage case via an elastic material. As a result, the permanent magnet can be easily mounted in the storage case, and even if a shock or distortion occurs in the storage case, the shock or distortion is absorbed by the elastic material, so that the permanent magnet is misaligned. There is no.

[0013]

Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of the water magnetizing device cut in a direction perpendicular to the pipe, FIG. 2 is a cross-sectional view of the magnetizing device cut in a pipe direction, and FIG. 3 is an outer box constituting a storage case. FIG. 4 is an exploded perspective view showing the magnetizing device, and FIG. 5 is a perspective view showing the magnetizing device.

In FIG. 1, reference numeral 1 denotes a storage case, which is an outer box 2 made of a non-magnetic material such as stainless steel or a synthetic resin.
And the inner box 3. The outer box 2 is formed in the shape of a rectangular tube having a partition wall 20 provided in the center, a space above the partition wall 20 is formed in the magnet storage section 21, and a cover 22 is detachably provided in an opening on the upper surface thereof. Have been.
The lower space of the partition wall 20 is formed in a pipe holding part 23, and semicircular notches 25, 25 are formed in the front and rear walls 24, 24 (surfaces orthogonal to the pipe) of the pipe holding part 23 from the opening edge. Have been. One inner box 3 is formed in the shape of a rectangular tube having a partition wall 30 at the center, similarly to the outer box 2, and a lower space of the partition wall 30 is formed in the magnet storage portion 31, and a lower surface opening thereof is formed. A cover 32 is detachably provided in the section.
A space above the partition wall 30 is formed in a pipe holding portion 33, and semicircular notches 35, 35 are formed in front and rear walls 34, 34 of the pipe holding portion 33 from opening edges. Then, the inner case 3 is fitted into the pipe holding portion 23 of the outer case 2 with the pipe P interposed therebetween, whereby the housing case 1 is assembled.

A locking groove 26 serving as locking means and a locking claw 36 are engaged with the fitting surface of the outer box 2 and the inner box 3 in a fitted state. The locking claw 36 is formed so as to be able to be engaged stepwise in the fitting depth direction. In this case, locking grooves 26 are formed in the inner surface 27 of the outer box 2 on the inner surfaces 27, 27 of the side wall (plane parallel to the pipe) of the pipe holding portion 23 from the opening edge toward the back. The box 3 is provided with locking claws 36, 36 protruding from the side wall outer surfaces 37, 37 of the pipe holding portion 33 along the opening edge. In addition, slit-shaped notches 38 are formed on the side wall of the pipe holding portion 33 on both sides of the locking claw 36.
The notches 38, 38 allow the locking claws 36 to have elasticity.

In the housing case, a pair of permanent magnets 4 is provided.
A permanent magnet set 4 in which the magnetic poles facing the magnetic poles 1, 42 are N and S poles, and a permanent magnet in which a pair of permanent magnets 51, 52 are arranged so that the magnetic poles facing the poles are N and S poles. A permanent magnet body composed of two permanent magnet sets 4 and 5 with the magnet set 5
The permanent magnets 41 and 51 and the permanent magnets 4 adjacent to each other are arranged in series in a state where adjacent magnets are magnetized in the flow direction of the pipe P.
The magnetic poles of 2,52 become N pole and S pole, and the magnetic force of one permanent magnet set is made stronger than the magnetic force of the other permanent magnet set. In this case, one of the permanent magnets 4
1 and 51 are attached to the magnet storage portion 23 of the outer box 2 facing the partition wall 20, respectively.
Reference numeral 51 is attached so as to be surrounded by a common yoke 60 and to fill a gap generated in the magnet housing portion 23 with a silicone resin 70 as an elastic material.
Similarly, the other permanent magnets 42 and 52 of the permanent magnet sets 4 and 5 are respectively mounted on the magnet storage portion 33 of the inner box 3 so as to face the partition wall 30.
The reference numerals 2 and 52 are attached in such a manner that the periphery thereof is surrounded by a common yoke 61 and that a gap generated in the magnet housing portion 33 is filled with a silicone resin 71 as an elastic material. By attaching the yokes 60 and 61 in this manner, the magnetic force of the permanent magnets 41, 51, 42 and 52 can be strengthened, and the gap formed in the magnet housing portions 23 and 33 can be removed by a silicone resin 70 as an elastic material. , 71, the permanent magnets 41, 51, 42, 52 can be easily mounted in the magnet storage portions 23, 33 of the storage case 1, and even if an impact or distortion occurs in the storage case 1, Since the elastic materials 70 and 71 absorb the impact and strain, the permanent magnets 41, 51, 42 and 52 do not shift, and the permanent magnets 41, 51, 42 and 52 can be securely attached.

In the two permanent magnet sets 4 and 5, one permanent magnet set 5 is stronger than the magnetic force of the other permanent magnet set 4. In this embodiment, as an example, the permanent magnets on the upstream side are used. Set 4 is a ferrite magnet with weak magnetic force (about 1600 gauss)
The permanent magnet set 5 on the downstream side has a rare earth magnet (about 4800 to 6400 gauss) having a strong magnetic force. Thus, first, the magnetic flux lines are radiated on the upstream side, and then the magnetic flux lines are radiated on the downstream side. When the flow velocity of the water flow in the pipe P is 2 meters per second or more and the flow velocity is high, the weak magnetic flux lines act. When the flow rate is less than 2 meters per second, strong magnetic lines of force act to magnetize water. Further, the two permanent magnet sets 4 and 5 are arranged in series in a state of being magnetized, and the magnetic poles of the adjacent permanent magnets 41 and 51 and the permanent magnets 42 and 52 are reversed, and one magnetic force is changed to the other. Stronger than magnetic force. As a result, the magnetic force at the boundary between the magnetized permanent magnet sets 4 and 5 can be increased as compared with the case where the permanent magnets are provided alone, and water can be efficiently magnetized.

Next, the operation of the magnetizing device will be described.
In this magnetizing device, the inner box 3 is fitted into the outer box 2 with the pipe P interposed therebetween, so that a pair of permanent magnets 41 and 42 and a pair of permanent magnets are sandwiched with the pipe P interposed therebetween. 5
1 and 52 can be installed facing each other.
Therefore, the lines of magnetic force cross the flow of the pipe P at a right angle, and the lines of magnetic force can be efficiently irradiated. In this case, the fitted state of the outer box 2 and the inner box 3 is maintained by the engagement of the locking groove 26 and the locking claw 36 serving as locking means. Since one of the locking grooves 26 constituting the locking means is formed stepwise in the fitting depth direction, the locking groove 2 for engaging the locking claw 36 is formed.
By selecting 6, the fitting depth of the outer box 2 and the inner box 3 can be adjusted. Therefore, if the fitting depth is adjusted according to the pipe diameter of the pipe P sandwiched between the outer box 2 and the inner box 3, the pipes having different pipe diameters can be used as one kind of storage case 1. Can be freely installed. For example, when installing on a pipe having a diameter larger than that of the pipe P shown in the figure, the outer box 2 and the inner box 3 are engaged so that the locking claw 36 is engaged with the locking groove 26 near the opening edge. In the case where the fitting is performed and the pipe is installed on a small-diameter pipe, the locking claw 36 is engaged with the locking groove 26 at the back.

FIG. 6 is a sectional view of a second embodiment of the present invention, in which the magnetizing device is cut in a pipe direction. In this case, a pair of permanent magnets 4 is provided in the storage case.
A permanent magnet set 4 in which the magnetic poles facing the magnetic poles 1, 42 are N and S poles, and a permanent magnet in which a pair of permanent magnets 51, 52 are arranged so that the magnetic poles facing the poles are N and S poles. A permanent magnet body consisting of two permanent magnet sets 4 and 5 with a magnet set 5
This is an example in which the pipes P are mounted in a state of being arranged in series while maintaining an interval T in the flow direction of the pipes P, and other configurations are the same as those of the first embodiment.

The embodiments of the present invention have been described above.
The specific configuration is not limited to this, and even if there is a design change or the like within a range that does not depart from the gist of the invention, it is included in the present invention. For example, with regard to the locking means, a locking claw may be provided on the outer box and a locking groove may be provided on the inner box, or the locking claw may be provided stepwise. Further, two or more permanent magnet sets may be used.
Regarding the arrangement of the magnetic poles in the case of a plurality of sets, the point is that if the pair of permanent magnets constituting the permanent magnet set are arranged so that the opposed magnetic poles are the N pole and the S pole, the permanent magnet sets are reversed. It may be. In addition, when a plurality of sets of permanent magnets are used, the strength of magnetic force, the interval between the sets, and the like can be appropriately determined according to the material of the pipe, the quality of water in the pipe, the flow velocity, and the like.
Although stainless steel is used as the material of the storage case, ceramics, synthetic resins, and the like can also be used.

[0021]

As described above, in the water magnetizing apparatus of the present invention, since the locking means is formed stepwise in the fitting depth direction, the outer box and the inner box can be formed. The fitting depth can be adjusted. Therefore, if the fitting depth is adjusted in accordance with the pipe diameter of the pipe sandwiched between the outer box and the inner box, it can be used for pipes having different pipe diameters, even though it is one kind of storage case. Can be installed in response to

Further, since some of the plurality of permanent magnet sets are made stronger than the magnetic force of the other permanent magnet sets, it is possible to irradiate lines of magnetic force of different sizes to the pipes, Irrespective of this, the magnetic field can always be efficiently actuated to achieve magnetization. In particular, when a plurality of permanent magnet sets are arranged in series in a state of being magnetized, the magnetic force can be increased at the boundary between the contacted permanent magnet sets as compared with a case where the permanent magnets are arranged alone, and water can be efficiently provided. Can be magnetized.

Further, by attaching the yoke to the permanent magnet, the magnetic force of the permanent magnet can be strengthened, and by storing the permanent magnet in the storage case via an elastic material, the permanent magnet can be easily stored in the storage case. And even if the storage case is shocked or distorted,
Since the impact and strain are absorbed by the elastic material, the permanent magnet can be securely attached without the positional displacement of the permanent magnet.

[Brief description of the drawings]

FIG. 1 is a first embodiment of the present invention, and is a cross-sectional view of a water magnetizing device cut in a direction orthogonal to a pipe.

FIG. 2 is a sectional view of the magnetizing device cut in a pipe direction.

FIG. 3 is a partially cutaway view showing an outer box and an inner box constituting a storage case.

FIG. 4 is an exploded perspective view showing the magnetizing device.

FIG. 5 is a perspective view showing a magnetizing device.

FIG. 6 is a sectional view of a second embodiment of the present invention, in which a water magnetizing device is cut in a pipe direction.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Storage case 2 Outer box 26 Locking groove (locking means) 3 Inner box 36 Locking claw 4 Permanent magnet set 41 Permanent magnet 42 Permanent magnet 5 Permanent magnet set 51 Permanent magnet 52 Permanent magnet 60 Yoke 61 Yoke 70 Silicone resin (elastic material) 71 Silicone resin (elastic material)

Continuation of the front page (56) References JP-A-9-141270 (JP, A) JP-A-9-308888 (JP, A) JP-A-10-180262 (JP, A) JP-A-10-28972 (JP, A) JP-A-11-253963 (JP, A) US Patent 4,265,746 (US, A) US Patent 4,265,755 (US, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) C02F 1/48

Claims (5)

(57) [Claims] 1. A plurality of permanent magnet sets in which a pair of permanent magnets are arranged such that magnetic poles facing each other become N poles and S poles are arranged in series in such a manner that adjacent magnets are magnetized in the flow direction of the pipe. The adjacent permanent magnets have magnetic poles of N and S poles, and a permanent magnet body in which the magnetic force of some of the plurality of permanent magnet sets is stronger than that of the other permanent magnet sets. An outer box for storing a permanent magnet on one side of the magnet body,
A storage case comprising an inner box for storing the permanent magnets on the other side, and by fitting the inner box into the outer box with the piping in between, a pair of permanent magnets are opposed to each other with the piping in between. A water magnetizing device that is installed in a state where the outer box and the inner box are fitted to each other. An apparatus for magnetizing water, which is formed stepwise in the depth direction. 2. A plurality of permanent magnet sets in which a pair of permanent magnets are arranged such that magnetic poles facing each other become N poles and S poles are arranged in series at intervals in the flow direction of the pipe. A permanent magnet body in which the magnetic force of some of the permanent magnet sets in the permanent magnet set is stronger than the magnetic force of the other permanent magnet set; and an outer box for storing the permanent magnet on one side of the permanent magnet body,
A storage case composed of an inner box for storing the permanent magnet on the other side, and by fitting the inner box into the outer box with the piping interposed therebetween, a pair of permanent magnets are opposed to each other with the piping interposed therebetween. A water magnetizing device that is installed in a state where the outer box and the inner box are fitted to each other. An apparatus for magnetizing water, which is formed stepwise in the depth direction. 3. The locking means is formed by a locking groove and a locking claw,
3. The water magnetizing device according to claim 1, wherein one of the locking groove and the locking claw is formed stepwise in a fitting depth direction. 4. The apparatus according to claim 1, wherein the yoke is attached to the permanent magnet. 5. The water magnetizing device according to claim 1, wherein the permanent magnet is stored in the storage case via an elastic material.