KR940009302B1 - Magnetizing method and apparatus - Google Patents

Abstract

No content.

Description

Magnetizing method and magnetizer of linear magnetic material

1 is a diagram showing a manufacturing process of a linear permanent magnet according to the present invention.

2 is a perspective view of the magnetizing apparatus according to the present invention.

3 is a plan view of the magnetizing apparatus of FIG.

4 is a side cross-sectional view of the magnetizing device of FIG.

5 is a distribution diagram of magnetic poles and magnetic fields of a linear permanent magnet magnetized by a magnetizer according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Based 1a: Slot

1b: magnetic pole piece 2: magnetic pole part

3: conductor line 4: linear magnetic material

5: magnetizing power

The present invention relates to a magnetizing method of a linear permanent magnet magnetized so that the polarity of magnetic poles in the axial direction are alternately reversed every predetermined dimension and the magnetizing device thereof.

Background Art Conventionally, magnetic therapy devices using permanent magnets are known for the purpose of promoting blood circulation, relieving excessive tension of muscles, and reducing muscle pain or stiffness (stiffness). Many devises have been made in (Publication Office 39-26259), Magnetic Supporter (Office 50-55791), Magnetic Quilt (Room 55-44534), Magnetic Mattress (Application 56-88268). It is proposed.

The permanent magnet magnetic therapy device is equipped with a plurality of permanent magnets in the form of particles or blocks in a mattress, for example, at intervals of 10 to 30 cm, and secures the width of the magnetic field. If it is more than 10 cm, the magnetic flux drops to less than 1/10 of the maximum magnetic flux density. Therefore, the point-shaped magnetic field is substantially distributed on the mattress surface at a predetermined interval, and sufficient magnetic field is secured. Could not.

For this reason, a linear or planar magnetic member capable of forming a magnetic field widely in a plane shape has been desired.

Thus, the present inventor proposes a magnetic therapy device in which a linear flexible plastic composite magnet having barium ferrite and chlorinated polyethylene having a surface density of 800 gauss or more as a main component is incorporated into a fiber cloth or the like to form a magnetic field in a linear or planar face ( Seal No. 61-91241).

By the way, for example, as a linear magnet used in a magnetic therapy device, the surface magnet density is more than 1000 gauss, and the distribution of the magnetic field is preferably formed relatively uniformly, but the publication discloses the surface magnetic flux density of the linear flexible plastic composite magnet. It is only described with respect to the size of, and the distribution and direction of the magnetized magnetic poles, and also the magnetizing method and the magnetizing device is not clearly described.

This invention is made | formed in view of the said subject, and an object of this invention is to provide the magnetizing method and its magnetizing device which magnetize by inverting a magnetic pole alternately with respect to the axial direction of a linear magnetic body every predetermined interval.

In order to solve the above problems, the present invention provides a first step of generating a magnetic field on each magnetic pole piece in a state where a linear paramagnetic material is placed on a plurality of magnetic pole parts configured such that the polarity of the magnetic pole pieces alternates every predetermined dimension; In the second process of pulling the linear paramagnetic body in its axial direction by the length, the linear magnetic body is magnetized.

Further, a magnetic field is generated in each magnetic pole piece each time the linear paramagnetic material is drawn by the length of the magnetic pole portion while the linear paramagnetic body is drawn in the axial direction at a predetermined speed on the plurality of magnetic pole portions configured to alternately reverse the polarity of the magnetic pole pieces every predetermined dimension. It is to make a magnet.

In addition, as the magnetizing apparatus used in the magnetizing method, both ends connected to a base made of a magnetic body having a plurality of slots formed at predetermined intervals in one direction of the surface thereof, and to a power source buried in a wave shape while being folded back to its end portion in the slot It is made of a conductor wire having a.

In the magnetizing method of the linear magnetic material according to the present invention, after magnetizing with the linear paramagnetic material placed on the magnetic pole portion configured such that the polarity of the magnetic pole pieces is inverted at every predetermined dimension, the magnetized part is taken out and the subsequent magnetization is followed. Since the magnet is placed on the pole portion and magnetized, the linear paramagnetism is magnetized once for each pole length so that the polarity of the pole is reversed at every predetermined dimension in the axial direction.

Further, a linear paramagnetic body generates magnetic fields for each magnetic pole piece whenever the linear paramagnetic material is drawn by the length of the magnetic pole portion while the linear paramagnetic body is drawn at a predetermined speed on the magnetic pole portion configured such that the polarity of the magnetic pole pieces is reversed at every predetermined dimension. When the magnetic pole portion is drawn by the length of the magnetic pole portion at a predetermined speed, the non-magnetized portion following it is magnetized once for each magnetic pole portion length such that the polarity of the magnetic pole is reversed at every predetermined axial dimension.

In addition, the magnetizing apparatus according to the present invention forms a plurality of slots at a predetermined interval in one direction on the surface of the base made of a magnetic material, and at the same time, embeds the conductor wire in the wave shape while folding the conductor wire back at the end thereof. For this reason, when a direct current flows through the conductor line, an inverted magnetic field is generated alternately in the magnetic pole pieces formed between the slots.

1 is a diagram showing a manufacturing process of the linear permanent magnet according to the present invention.

Linear permanent magnets are manufactured as follows.

That is, in the extruder S ₁ , for example, the linear magnetic material extruded at a speed of 2 m per minute is solidified by the cooling device S _{2 while} being drawn into the take-off machine S ₃ , and the take-up machine ( It is wound up in S4 (S ₄ ).

Next, the wound linear magnetic material is magnetized by the magnetizing device S ₅ so that the polarity of the magnetic poles is reversed at every predetermined dimension in the axial direction, and then is taken up by the take-up machine S ₆ , and the winding machine S _7. ) Is wound up.

2 is a perspective view showing an example of the magnetizing device S ₅ . In addition, a is a plan view of a magnetizing device (S ₅₎ 3 degrees.

In FIG. 2, the magnetic pole part 2 of the magnetizing yoke A is comprised as follows. That is, the slot 1a of the groove width l ₂ (refer to FIG. 4) cut in the direction perpendicular to the longitudinal direction on the surface of the flat base 1 made of a magnetic material, preferably ferromagnetic material such as iron. An appropriate number is formed in the longitudinal direction at intervals l ₁ (see FIG. 4).

In the slot 1a, a conductor wire 3 made of copper or the like coated with an insulator having a diameter substantially equal to the groove width l ₂ is formed at the end of each slot 1a as shown in FIG. It is folded back and is buried in a wave shape, and both ends of this conductor wire 3 are supplied with an excitation current of DC from the capacitor type magnetizing power supply 5.

Moreover, the conductor wire 3 is not limited to one, You may bundle and embed a plurality.

The capacitor type magnetizing power supply 5 discharges the electric charge accumulated in the large capacity capacitor through the conductor line 3 to supply a large exciting current instantaneously.

In the above configuration, when the excitation current is supplied to the conductor wire 3, the magnetic poles of N and S are formed on each of the excitation pole pieces 1b as shown in FIG. 4, and the magnetic pole portion 2 has a constant dimension. A magnetic pole of inverted polarity is formed every (l) (= l ₁ + l ₂ ).

For example, when l ₂ = 1.5 mm and l ₂ = 2.5 mm, a maximum current and an excitation current of 10000 amps flow through the conductor wire 3, and the magnetic pole density of 10000 gauss is 4.0 mm in the magnetic pole piece 1b. It is formed to be inverted alternately in pitch.

The linear paramagnetic body 4 is magnetized as follows using the magnetizing device. In other words, the linear magnetic material 4 is placed on the magnetizing yoke A in its direction, and a current flows through the conductor wire 3.

When a current flows in the conductor line 3, as described above, the magnetic poles 2 and 2 of the N and S are alternately generated at a constant size l. The magnetic field generated in the magnetic pole part 2 is magnetized so that the magnetic pole portion of the linear magnetic body 4 placed on the magnetic pole part 2 is inverted by the predetermined dimension l in the axial direction.

As an example of said 10000 gauss, 1000 gauss or more are obtained as coercive force.

When the magnetization is completed, the magnetized portion of the linear magnetic material 4 is detected by a take-up detector or a magnetic detector (not shown) described below, and wound up by the winding machine S ₇ , and the portion of the non-magnetization that follows thereafter is detected. It mounts on the magnetic pole part 2, and magnetizes by operation similar to the above. Hereinafter, the linear magnetic body 4 is repeatedly magnetized for each length of the magnetic pole part 2.

5 is a diagram showing the distribution of magnetic poles and magnetic fields of linear permanent magnets in which a linear paramagnetic body of a circular cross section is magnetized by the above method.

In the same drawing, when the micromagnets of constant axial dimension (l) in which the uniaxial axis of the surface (in the figure, the upper side or the lower side) and the other side half surface S-pole are formed are arranged continuously in the axial direction, The magnetic poles of the shape permanent magnets are formed continuously so as to be inverted from each other with the polarities of the neighboring micro magnets.

Accordingly, the magnetic field H _T is formed at right angles to the axial direction from the upper N pole to the lower S pole, and the upper and lower portions are respectively formed between the micro magnets and the neighboring micro magnets. Magnetic field H _{E in the} direction is formed, and the magnetic field H _{T in the} perpendicular direction and the magnetic field H _{E in the} axial direction are continuous in which the direction of the magnetic field is inverted for every dimension L in the axial direction as a whole. Is formed.

The linear permanent magnet in which such a magnetic field is formed maintains a relatively uniform magnetic field formed near its outer surface even if it is slightly twisted and rotated. Thus, when used as a futon as a magnetic therapy device, for example, a good linear magnetic field can be formed. Increase the effectiveness of treatment.

The magnetizing method and the magnetizing device can be applied as a linear magnetic material in addition to the elliptical, spherical, and flat shape as well as a band shape.

In this embodiment, although the winding operation of the winding machine S ₇ is intermittent, it is also possible to magnetize continuously while winding.

In other words, when the linear magnetic material is magnetized at 6 m per minute, for example, when the condenser type magnetizing power supply 5 having a charging time of about 5 seconds and a discharge time of about 2 milliseconds is used, the linear paramagnetic material moves within the charging time. The distance is 50 cm, and the distance that the linear magnetic material moves within the discharge time is 0.2 mm.

Therefore, since there is little influence on the magnetic flux density of the magnetic poles magnetized by the movement within the discharge time, when one magnetization index is 50 cm or more, the magnetizer can be continuously magnetized while winding the linear magnetic body with the winder S ₇ . There is a number.

In this case, a take-out detector is installed in the take-off machine S ₆ and an excitation current from the magnetizing power source 5 to the conductor wire 3 each time the linear body is taken by a predetermined length (as long as the length of the magnet part 2). Is supplied, and a magnetic field is generated in each magnetic pole piece 1b of the magnetic pole part 2.

Alternatively, a magnetic detector is installed in the magnetizing yoke A to monitor the number of magnetic poles of the magnetized linear paramagnetic body, and when the predetermined number of magnetic poles is counted, an excitation current is supplied from the magnetizing power source 5 to the conductor wire 3. You may make it possible.

As described above, in the magnetization method of the linear magnetic material according to the present invention, the magnetization of the linear magnetic material is carried out at every predetermined length of the magnetic pole portion having an appropriate length, so that the magnetizing operation can be performed quickly. In addition, if the magnet is wound while winding with a winder, it contributes to cost reduction of the product, such as efficiency of the magnetizing work.

In addition, since the polarity of the magnetic poles is inverted and magnetized for each predetermined dimension in the axial direction, the magnetic flux density of each magnetic pole of the linear permanent magnet is formed uniformly.

In the magnetizing apparatus according to the present invention, a linear paramagnetic body is formed by forming a plurality of slots at predetermined intervals on a surface of a substrate made of a magnetic material, and embedding the conductor wires in the slots while folding the conductor wires at their ends. Can be magnetized so that the polarity of the magnetic poles is reversed at every predetermined dimension with respect to its axial direction. In addition, since the structure is simple, handling such as maintenance inspection is easy.

In addition, when the linear paramagnet is magnetized using a magnetizing device having a slot spacing corresponding to the pitch of the magnetic poles and the slot spacing corresponding to each other, it is possible to easily manufacture a linear permanent magnet having a different pitch of the magnetic poles.

Claims (3)

While forming a plurality of slots (1a) at a predetermined interval in the longitudinal direction on the surface of the base (1) made of a magnetic material, while the conductor wire (3) is folded in the slot (1a) at the end thereof, buried in a wave shape Each slot of the magnetic pole part 2 in a state where a flexible synthetic resin linear magnetic body 4 is placed on the magnetic pole part 2 having a predetermined length configured to connect both ends thereof to the DC power supply 5. The magnetizing step of generating a magnetic field in each of the magnetic pole pieces 1b between 1a) and the pulling process of pulling the soft synthetic resin linear magnetic body 4 in the axial direction by a predetermined length of the magnetic pole part 2 are repeated. And a plurality of magnet portions formed successively in the longitudinal direction, wherein the flexible synthetic resin linear magnet is in inverse relationship with the polarity of the magnetic pole of one magnet portion and the polarity of the magnetic portion adjacent thereto. While forming a plurality of slots (1a) at a predetermined interval in the longitudinal direction on the surface of the base (1) made of a magnetic material, while the conductor wire (3) is folded in the slot (1a) at the end thereof, buried in a wave shape The flexible synthetic resin linear magnetic material is drawn on the magnetic pole part 2 having a predetermined length configured to connect both ends thereof to the DC power supply 5 in the axial direction thereof at a predetermined speed. Each time (4) is drawn by a predetermined length of the magnetic pole portion 2, a plurality of magnetic fields are continuously formed in the longitudinal direction by generating a magnetic field in each magnetic pole piece 1b between the slots 1a of the magnetic pole portion 2; A method of manufacturing a linear magnet having a magnetic pole portion (1b) in an inverse relationship with the polarity of the magnetic pole of one magnet portion and the polarity of the magnetic pole adjacent to it. A plurality of slots 1a formed at a predetermined interval in the longitudinal direction on the surface of the base 1 made of a magnetic material and embedded in a wave shape while being folded at the terminal ends thereof are connected to the DC power source 5. The magnetic pole portion 2 having a predetermined length of the conductor wire 4 having both ends, and the flexible synthetic resin linear magnetic body 4 magnetized by the magnetic pole portion 2 in the direction crossing the slot 1a. It characterized in that it comprises a control unit for driving the magnetic pole part 2 each time the moving portion (S ₃ ) and the flexible synthetic resin linear magnetic material 4 moves by a predetermined length of the magnetic pole part (2) An apparatus for manufacturing a flexible synthetic resin linear magnet having a plurality of magnet portions continuously formed in the longitudinal direction and inversely related to the polarity of the magnetic pole of one magnet portion and the polarity of the magnetic portion adjacent to the magnetic portion.

Images