JP2003053348A - Liquid magnetic treatment apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid magnetic treatment apparatus which has interchangeability to fluid conduits having different outside diameter and is installed firmly with a simple work to align each magnet accurately in this state. SOLUTION: A plurality of holder units 3 each composed of a magnet case 5 having a magnet 15 and a holder member 4 annularly connected to each other with a connection mechanism are fitted to the outer circumferential part of the fluid conduit. The holder member 4 is provided with a cross-section arculate base body part 4a having an attaching part 6 for attaching the magnet case 5, a pair of bearing projecting parts 7, 8 projectingly provided integrally at one end side of the base body part 4a facing each other and provided with axial holes of which the axis lines are coincident and an engaging projecting part 10 projectingly provided integrally at another end side as a projecting part having smaller width than the opposed interval of the bearing projecting part and having an axial hole penetrating in the width direction.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is attached to a fluid conduit such as a water pipe, and irradiates a fluid flowing in the pipe with magnetic energy to improve its properties and performance. The present invention relates to a liquid magnetic treatment device designed to improve the osmotic force and the like.

[0002]

2. Description of the Related Art Equipment for treating drinking water or the like is provided by attaching magnetic means to a water pipe or the like to remove solids or scales attached to the inner wall of the pipe by magnetic force, or to prevent the attachment. There has been proposed a liquid magnetic treatment apparatus which is intended to improve productivity while protecting the same. For example, in Japanese Unexamined Patent Publication No. 10-28972 and Japanese Unexamined Patent Publication No. 10-118658, magnetic fields of N-pole and S-pole are applied to a water pipe by magnetic means, and one of these magnetic fields is concentrated on the central axis. An apparatus and method for magnetically treating tap water or the like flowing in a pipe are disclosed.

In a liquid magnetic treatment apparatus, a plurality of sets of magnetic block bodies having a pair of magnets with respect to a water pipe are arranged such that magnets of the magnetic block bodies have the same poles facing each other with a central axis of the water pipe interposed therebetween. And attached. The liquid magnetic treatment device effectively attaches magnetic energy to the water pipe or the tap water flowing inside by attaching each magnetic block body to the water pipe in this manner.

[0004]

In the liquid magnetic treatment apparatus described above, when attached to a water pipe or the like having a different outer diameter, magnetic energy is concentrated on the central axis of the water pipe. The magnets of each magnetic block body must be accurately positioned relative to each other. Since the liquid magnetic processing apparatus includes a plurality of magnets in each magnetic block body, the magnets attract each other with different poles or repel each other with the same poles. Therefore, in the liquid magnetic treatment device, it is extremely difficult to accurately align and attach a plurality of magnets when each magnetic block body is attached to the water pipe.

As a liquid magnetic treatment apparatus, for example, a device in which a plurality of magnets are enclosed in a holder member made of a synthetic resin sheet so that the magnetic poles on the front side are the same and the whole is formed into a band shape is considered. Such a liquid magnetic treatment apparatus is attached so as to be wound around the outer peripheral portion of a water pipe or the like, so that each magnet has the same polarity on the outer peripheral portion of the water pipe or the like so that it can be used for tap water flowing through the water pipe or inside. To effectively act on the magnetic energy. The liquid magnetic processing apparatus can be attached to water pipes having different outer diameters by appropriately adjusting the length of the holder member.

However, such a liquid magnetic treatment apparatus also has a problem that it is difficult to firmly attach it to a water pipe or the like in the rotating direction, and it is easy to loosen it.
In addition, such a liquid magnetic processing apparatus is compatible with the outer diameter of a water pipe or the like because the relative position of each magnet is fixed with respect to the holder member even if the entire length can be adjusted. However, there is a problem that the position of each magnet shifts when the length is adjusted. Such a liquid magnetic processing apparatus is
For this reason, the magnetic energy of each magnet is not concentrated on the central axis of a water pipe or the like, which causes a problem that the efficiency is reduced.

Therefore, the present invention is compatible with fluid conduits having different outer diameters, is firmly attached by a simple operation, and each magnet is accurately aligned in this state. An object of the present invention is to provide a liquid magnetic processing device.

[0008]

A liquid magnetic treatment apparatus according to the present invention which achieves this object comprises a plurality of holder units having magnets mounted on the outer peripheral portion of a fluid conduit. The liquid magnetic processing apparatus according to the present invention comprises a plurality of holder members in which each holder unit is connected to each other via a connecting mechanism. In this liquid magnetic processing apparatus, each holder member is integrally provided with a base portion having an arcuate cross-section having a mounting portion for mounting a magnet case, at one end side of the base portion so as to face each other, and the axes thereof are aligned. And a pair of bearing projections provided with a shaft hole, and a shaft penetrating in the width direction integrally on the other end side of the base body as a projection having a width slightly smaller than the facing interval of the bearing projections. And a fitting protrusion having a hole.

In the liquid magnetic processing apparatus according to the present invention configured as described above, the fitting protrusions of the second holder member are fitted between the bearing protrusions of the first holder member and the respective shafts. The holes are in communication. In the liquid magnetic processing apparatus, the first holder member and the second holder member are hinge-coupled by inserting the hinge shaft into each of the communicating shaft holes, and a predetermined number of holder members are sequentially arranged in the same manner. In addition to being hinged, the holder member at the final stage is hingedly connected to the first holder member so that the holder member has an inner diameter equal to the outer diameter of the fluid conduit and the holder members are evenly spaced in the circumferential direction. The arranged annular body is configured. Therefore, in the liquid magnetic processing apparatus, the magnetic force of each magnet of each holder unit is effectively applied to the fluid conduit and the fluid flowing therein,
Removes or prevents solids, scales, etc. adhering to the inner wall of the pipe.

Further, the liquid magnetic processing apparatus according to the present invention is
Each holder unit is connected to each other via the connecting mechanism so as to form an annular connecting body as a whole according to the outer diameter of the fluid conduit, and a moving mechanism for the holder member of the fluid conduit by the moving mechanism. And a magnet case that is assembled so as to be movable toward and away from the outer peripheral portion and that houses the magnet in a sealed state via a lid.

In the liquid magnetic processing apparatus according to the present invention having the above-described structure, a predetermined number of holder units are annularly connected to each other by connecting the holder members by the connecting mechanism and are mounted on the outer peripheral portion of the fluid conduit. It In the liquid magnetic processing apparatus, in this state, each magnet case is fixed to the fluid conduit by being pressed into contact with the outer peripheral portion of the fluid conduit via the magnet case moving mechanism. Therefore, in this liquid magnetic processing apparatus,
Each magnet case is firmly attached to the fluid conduit, and the magnetic force of the magnet is effectively applied to the fluid conduit and the fluid flowing inside the magnet conduit to remove solid matter, scale, etc. adhering to the inner wall of the tube, or Prevent adhesion.

Further, in the liquid magnetic processing apparatus according to the present invention, several kinds or several or one kind or one magnet magnetized in the vertical direction and a yoke are housed in a magnet case composed of a main body and a lid. They are stacked and stored in a sealed state.

In the liquid magnetic processing apparatus according to the present invention configured as described above, the magnet case is pressed against the outer peripheral portion of the fluid conduit when the holder unit is mounted on the fluid conduit, so that the magnet conduit is connected to the fluid conduit. Fixed against. In this liquid magnetic processing apparatus, each holder unit is assembled in the fluid conduit in a stable state in the circumferential direction, and the magnetic force of each magnet is effectively applied even when hot water or the like flows inside the fluid conduit. To remove or prevent impurities such as solid matter and scale attached to the inner wall of the pipe.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of the present invention will now be described in detail with reference to the drawings. A liquid magnetic treatment apparatus 1 shown in the drawings as an embodiment concentrates magnetic energy on tap water flowing in a pipe by being attached to a fluid conduit, for example, an outer peripheral portion of a water pipe 2 as shown in FIGS. 1 and 2. By doing so, it is possible to remove solids, scales, etc. adhering to the inner wall of the pipe, and to prevent the adhering to protect equipment and devices and improve performance. The liquid magnetic treatment apparatus 1 can be attached to the water pipes 2 having different outer diameters with compatibility, as will be described later in detail.

As will be described later in detail, the liquid magnetic treatment apparatus 1 has four identically arranged units which are arranged at equal intervals to each other with an opening angle of 90 ° with respect to the outer peripheral portion of the water pipe 2. Of holder units 3a to 3d. The liquid magnetic processing apparatus 1 is mounted by forming an annular body having a different inner diameter by combining the holder units 3 by appropriately increasing and decreasing the number thereof according to the outer diameter of the water pipe 2. Each holder unit 3 is composed of a holder member 4 and a magnet case 5 having a lid 17 assembled to the holder member 4.

The holder member 4 is formed of a plate having a corrosion resistance and heat resistance, for example, a synthetic resin material, a stainless steel material, or aluminum die-casting so as to have a circular arc-shaped cross section. As shown in FIGS. 1 and 3, the holder member 4 is provided with a rectangular magnet mounting hole 6 penetrating the base portion 4a in the thickness direction. On the holder member 4, a first bearing protrusion 7 and a second bearing protrusion 8 are integrally provided on one end of the base portion 4a so as to face each other and be spaced apart from each other in the width direction.

The first bearing protrusion 7 and the second bearing protrusion 8
The opposing space portion is configured as a fitting space portion 9 with the holder member 4 to be connected. Further, the first bearing protrusion 7 and the second bearing protrusion 8 are formed with shaft holes 7a and 8a, respectively, with their axes aligned.

The holder member 4 is integrally provided with a fitting convex portion 10 on the other end side of the base portion 4a. Mating projection 10
Is slightly smaller than the width dimension of the fitting space 9 formed between the first bearing protrusion 7 and the second bearing protrusion 8, and is formed by penetrating the shaft hole 10a. ing. In the holder member 4, the hinge shaft 11 is inserted into the shaft hole 7a of the first bearing protrusion 7 and the shaft hole 8a of the second bearing protrusion 8 described above. The holder member 4 has a shaft hole 10a of the fitting protrusion 10.
The hinge shaft 11 fitted in the first bearing protrusion 7 and the second bearing protrusion 8 is inserted therethrough. The hinge shaft 11 is a mating protrusion on the mating side that is fitted between the first bearing protrusion 7 and the second bearing protrusion 8 and the fitting space 9 formed therebetween between the adjacent holder members 4. A hinge connection is made between the part 10 and the part 10.

That is, as shown in FIG. 2, the first holder member 4A has a second holder in a fitting space 9 between the first bearing projection 7 and the second bearing projection 8. The fitting protrusion 10 of the member 4b is fitted. The first holder member 4A and the second holder member 4B correspond to the shaft hole 7 of the first bearing protrusion 7.
a and the fitting protrusion 1 with respect to the shaft hole 8a of the second bearing protrusion 8
The 0 hole 0a is aligned so that the axes are aligned. In the first holder member 4A and the second holder member 4B, the hinge shaft 11 is inserted into the shaft holes 7a, 8a, 10a whose axes are aligned. Thus, the first holder member 4A and the second holder member 4B are rotatably connected to each other at their opposing connecting portions with the hinge shaft 11 serving as a fulcrum.

Similarly, a third holder member 4C is rotatably hinged to the second holder member 4B. Similarly, the fourth holder member 4D is rotatably hinged to the third holder member 4C. The fourth holder member 4D includes a first bearing protrusion 7 and a second bearing protrusion 8 thereof.
The fitting protrusion 10 of the first holder member 4A is fitted between and, and is hinged by the hinge shaft 11. Therefore, the four holder members 4 </ b> A to 4 </ b> D are rotatably connected to each other at their connecting portions with the hinge shaft 11 as a fulcrum to form an annular body having an outer diameter substantially equal to that of the water pipe 2.

Each holder member 4 is located in the vicinity of the magnet mounting hole 6 of the base portion 4a and has a magnet adjusting screw hole 1
2 is formed. The magnet adjusting screw hole 12 is a screw hole penetrating the base portion 4a in the thickness direction, and the adjusting screw 13 is screwed therein. The adjusting screw 13 is used for the holder member 4
It has a length sufficient to penetrate the base portion 4a, and the magnet case 5 is brought into contact with and separated from the water pipe 2 as described later.

The magnet case 5 is also made of a non-conductive material having corrosion resistance and mechanical characteristics, such as a synthetic resin material, a stainless material, or aluminum die cast. As shown in FIGS. 1 and 3, the magnet case 5 is formed in a rectangular tube shape having a ceiling surface and an open bottom surface. The magnet case 5 is formed so that its cross-sectional shape is substantially the same as the opening shape of the magnet mounting hole 6 formed in the holder member 4, and faces the magnet adjusting screw hole 12 of the holder member 4 as shown in FIGS. 3 and 4. A screw receiving portion 14 is integrally projectingly provided on the bottom of the side surface.

As shown in FIGS. 3 and 6, the magnet case 5 has two kinds of magnets 15a and 15b inside.
And a yoke 16 and a lid body 17 are incorporated. Each magnet 15 is made of a ferromagnetic material such as neodymium or ferrite, and is formed into a rectangular block body having an outer shape substantially equal to the internal space of the magnet case 5. Strong magnetic force can be expected by combining several different magnetic materials.

The first magnet 15a is magnetized in the vertical direction and is housed in the internal space of the magnet case 5 with the S pole surface facing the ceiling surface. Similarly, the second magnet 15b is also vertically magnetized, and is housed in the inner space of the magnet case 5 with its S pole surface facing the N pole surface of the first magnet 15a. There is. Therefore, the first magnet 15a and the second magnet 15a
The magnet 15b is magnetically integrated and housed in the internal space of the magnet case 5.

After the yoke 16 made of an iron thin plate or the like is incorporated in the magnet case 5, two types of magnets 1 are provided.
Attach 5a and 15b. The yoke 16 has a function of concentrating magnetic energy on the water pipe 2 and causing it to act.
A lid 17 is joined to the magnet case 5 with an adhesive so as to close the opening on the bottom surface, thereby sealing the magnets 15a and 15b incorporated in the internal space and the yoke 16.

As shown in FIGS. 4 and 5, the magnet case 5 is provided with a magnet mounting hole 6 from the inner peripheral side of the holder member 4.
The holder unit 3 is assembled inside. In this state, in the magnet case 5, the screw receiving portion 14 integrally provided on the side surface is positioned below the magnet adjusting hole 12 on the holder member 4 side. Magnet case 5
In this case, the tip end of the adjusting screw 13 screwed into the magnet adjusting hole 12 is abutted against the screw receiving portion 14 to prevent the holder member 4 from coming off from the outer peripheral surface side.

When the adjusting screw 13 is deeply screwed into the magnet adjusting hole 12, the screw receiving portion 14 of the magnet case 5 is pressed and moved in the magnet mounting hole 6 toward the center. As the magnet case 5 is moved, the lid body 17 joined to the bottom surface portion is pressed against the outer peripheral portion of the water pipe 2 and elastically deformed,
It is firmly attached to the water pipe 2. The magnet case 5 includes magnets 15a and 15b housed in the internal space.
The magnetic energy of is applied to the water pipe 2 via the lid 17.

The liquid magnetic processing apparatus 1 is constructed by assembling the magnet case 5 to each holder member 4 as described above.
The individual holder units 4 are hingedly connected to each other to form an annular body and are combined with the outer peripheral portion of the water pipe 2. In the liquid magnetic processing apparatus 1, as shown in FIGS. 1 and 2, each holder unit 4 is attached to the outer peripheral portion of the water pipe 2 so that the holder units 4 are 90 degrees apart from each other.
It is arranged with an opening angle of °. Liquid magnetic processing apparatus 1
In this state, as shown in FIG. 4, there is a gap between the outer circumference of the water pipe 2 and the inner circumference of each holder unit 4.

Therefore, in the liquid magnetic processing apparatus 1, the adjusting screw 13 screwed into the magnet adjusting hole 12 of each holder member 4 is screwed. In the liquid magnetic processing apparatus 1, as described above, each adjusting screw 1
By screwing in 3, the screw receiving portion 14 formed integrally with the magnet case 5 is pressed by the tip portion thereof. In the liquid magnetic processing apparatus 1, the magnet case 5 gradually moves toward the center in the magnet mounting hole 6, so that the lid body 17 joined to the magnet case 5 is pressed against the outer peripheral portion of the water pipe 2. .

In the liquid magnetic processing apparatus 1, since the holder units 4 are arranged on the outer peripheral portion of the water pipe 2 at equal intervals, the magnets 15 housed in the magnet case 5 are connected to the outer periphery of the water pipe 2. The parts are arranged at equal intervals. Therefore, in the liquid magnetic processing apparatus 1, the magnetic field of each magnet 15 is concentrated on the central axis of the water pipe 2, and magnetic energy is effectively applied to the tap water flowing in the water pipe to adhere to the inner wall of the pipe. Remove impurities such as things and scales or prevent their adhesion.

The liquid magnetic processing apparatus 1 has four holder units 4 for the standard outer diameter water pipe 2 as described above.
Are attached by hinged connection, but an appropriate number is connected according to the outer diameters of the water pipe 2 and the large-diameter fluid conduit. When the liquid magnetic treatment apparatus 1 is used for a large-diameter water pipe 2, for example, as shown in FIG. 7, five holder units 4a are provided.
To 4e are hinged to each other. In the liquid magnetic processing apparatus 1, except that the number of holder units 4 is different,
Since the configurations of the respective units are the same, the description thereof will be omitted by giving the same reference numerals.

In the liquid magnetic treatment apparatus 1, in this case, the magnet cases 5 of the holder units 4 are combined with the water pipe 2 with an opening angle of 72 °. Further, in the liquid magnetic processing apparatus 1 also in this case, the magnetic field of each magnet 15 is concentrated on the central axis of the water pipe 2 by pressing the outer periphery of the water pipe 2 under pressure with the lid 17 elastically deformed. Like Since the number of holder units differs depending on the diameter of the fluid conduit, the opening angle of the magnet case 5 changes. Further, the magnet may be of one type or one.

In the above-described embodiment, the liquid magnetic treatment apparatus 1 is attached to the outer peripheral portion of the water pipe 2 to remove solids, scales, etc. adhering to the inner wall of the pipe, and prevent the adherence of the equipment and equipment. However, it is needless to say that the present invention is not limited to this application example.

[0034]

As described in detail above, according to the liquid magnetic processing apparatus of the present invention, a plurality of arc-shaped holder members hingedly connected according to the outer diameter of the fluid conduit are arranged at equal intervals. Since the annular body is constructed, the fluid conduit is downsized and attached, and the magnetic force of each magnet of each holder unit effectively acts on the fluid conduit and the fluid flowing inside the holder, Remove solids, scales, etc. adhering to the wall or prevent the adhering.

Further, according to this liquid magnetic processing apparatus, since the magnet case in which the magnets are sealed is moved by the moving mechanism with respect to each holder member and fixed in pressure contact with the outer peripheral portion of the fluid conduit, each holder unit. Are assembled into the fluid conduit in a circumferentially stable manner.

[Brief description of drawings]

FIG. 1 is a perspective view of a liquid magnetic treatment device shown as an embodiment of the present invention in a state in which it is attached to a water pipe.

FIG. 2 is a partially cutaway front view of the liquid magnetic processing device in use.

FIG. 3 is an exploded perspective view of the liquid magnetic processing apparatus.

FIG. 4 is a vertical cross-sectional view of a main part of the liquid magnetic processing apparatus.

FIG. 5 is a longitudinal sectional view of an essential part for explaining the operation of pressing the magnet case into contact with the water pipe in the liquid magnetic treatment apparatus.

FIG. 6 is a vertical sectional view of a magnet case.

FIG. 7 is a front view when used for a large diameter water pipe.

[Explanation of symbols]

1 Liquid magnetic processing equipment 2 water pipes 3 Holder unit 4 Holder member 5 magnet case 6 Magnet mounting hole 7 Bearing convex part 8 Bearing convex part 9 Fitting space 10 Fitting convex part 11 Hinge axis 12 Magnet adjustment screw hole 13 Adjustment screw 14 Screw receiving part 15 magnets 16 York 17 Lid

Claims (4)

[Claims] 1. A liquid magnetic processing apparatus in which a plurality of holder units each having a magnet are mounted on an outer peripheral portion of a fluid conduit, and each holder unit has a base portion having an arc-shaped cross section having a mounting portion for mounting the magnet. And a pair of bearing projections that are integrally provided so as to face each other on one end side of the base portion and are provided with shaft holes whose axes are aligned, and the bearing projection portion on the other end side of the base portion. A holder member having a fitting convex portion that is integrally projected as a convex portion having a width slightly smaller than the facing interval and that has a shaft hole that penetrates in the width direction, and each of the holder members includes the bearing convex portion. A liquid magnetic process characterized by being combined in an annular shape by inserting a hinge shaft into each shaft hole that is communicated with the mating convex part on the mating side between the parts and being hinge-connected to each other. apparatus. 2. A liquid magnetic processing apparatus in which a plurality of holder units each having a magnet are mounted on an outer peripheral portion of a fluid conduit, wherein each holder unit is connected via a connecting mechanism in accordance with an outer diameter of the fluid conduit. A holder member that is connected to each other so as to form an annular connecting member as a whole, and a holder member that is movably assembled to the holder member in a direction of contacting and separating from the outer peripheral portion of the fluid conduit via a lid member. And a magnet case for accommodating the magnet in a hermetically sealed state, and in a state in which a predetermined number of the holder members are connected to each other and attached to the outer peripheral portion of the fluid conduit,
A liquid magnetic processing apparatus, wherein each of the magnet cases is brought into pressure contact with an outer peripheral portion of the fluid conduit via the moving mechanism. 3. The magnet case has a lid,
The magnet and the yoke are laminated therein and housed in a hermetically sealed state, and in the state where the holder unit is mounted on the fluid conduit, the same poles are pressed against each other in pairs. Item 3. The liquid magnetic processing apparatus according to item 2. 4. The liquid magnetic processing apparatus according to claim 1, wherein the magnets are a combination of several kinds or several magnetized vertically.