KR200275705Y1 - Magnetic polishing machine - Google Patents

Abstract

The present invention relates to a polishing apparatus using a magnetic field, and more particularly, polishing efficiency or abrasives and abrasives move more violently and prevents the abrasives and abrasives from being gathered in one place. A polishing apparatus using a magnetic field to be improved.

The polishing device of the present invention

A magnetic field generating means provided with a permanent magnet for generating an N pole magnetic field and a permanent magnet for generating an S pole magnetic field, the side of the permanent magnet being exposed;

Magnetic field position switching means for rotating the magnetic field generating means so as to repeatedly switch the position of the N pole magnetic field and the S pole magnetic field generated by the magnetic field generating means for a short time;

An abrasive vessel into which the abrasive and the abrasive having magnetic properties are introduced and a magnetic field generated by the magnetic field generating means passes to the inside thereof;

It is configured to include; the container seating portion which is positioned on the magnetic field rotating means is seated on the polishing vessel.

Description

Magnetic polishing machine {Magnetic polishing machine}

The present invention relates to a polishing device for quickly changing the position of the magnetic field of different polarity to make the abrasive or abrasive and the abrasive move violently to smoothly process the surface and corners of the abrasive, more specifically the abrasive Or it relates to a polishing apparatus using a magnetic field to move the abrasive and the abrasive more violently.

In general, articles produced by casting or machining press machining, etc., the surface is not smooth and the edges are generated. Therefore, if necessary, the grinding work is performed to smooth the surface and to remove the edges of the edges. However, the advancement of the technology has necessitated the polishing of small items, and in the case of such small items, smoother and more precise polishing is required than large items. Thus, a magnetic polishing machine (Domestic Utility Model Application No. 20-1998-0016096) for polishing using a magnetic field has been developed. In general, the magnetic polishing machine repeatedly switches the positions of the N pole magnetic field and the S pole magnetic field generated by the magnetic field generating means for a short time, and the abrasives or abrasives and the abrasives injected into the polishing vessel violently move to wear while polishing each other. Is a structure to be made.

However, the conventional magnetic polishing machine has a problem in that the magnetic field is generated only above the permanent magnet, and thus the magnetic field is weak, thereby lowering the polishing efficiency. In particular, when the abrasive is a magnetic material, since the abrasive is also a magnetic material, there is a problem in that the polishing efficiency is very low due to the phenomenon in which the abrasive and the abrasive adhere to each other.

In addition, the method of rotating the magnetic field generating means is used to quickly change the position of the magnetic field having different polarity. The abrasive or abrasive put into the polishing container is concentrated at the center of the polishing container with the weak magnetic field and the small change of the magnetic field. There was also a problem of being lowered.

The present invention is to solve the above problems, more specifically, the abrasive or the abrasive and the abrasive to move more violently, even when the abrasive is a magnetic material to prevent the phenomenon of the abrasive and the abrasive sticking to improve the polishing efficiency The purpose is to increase.

In addition, there is also an object to increase the polishing efficiency by preventing the abrasive or abrasive from being driven to the center of the polishing vessel having a weak magnetic field and little magnetic field change during the polishing operation.

1 is a schematic view for explaining the polishing apparatus of the present invention

2 is a schematic diagram of the magnetic field generating device of the present invention in which a permanent magnet generating an N pole magnetic field is formed at one side of the center and a permanent magnet generating an S pole magnetic field at the other side thereof;

A: top view

B: section

3 is a schematic diagram of the magnetic field generating device of the present invention in which the permanent magnets are arranged in the order of N pole-S pole-N pole-S pole with respect to the center.

A: top view

B: section

<Explanation of symbols for main parts of drawing>

10. Means for generating magnetic fields 11, 12. Permanent magnets

20. Magnetic field position switching means 21. Motor

30. Abrasives 40. Abrasives

50. Polishing container 51. Protrusion

In the present invention for achieving the above object in the polishing apparatus using a magnetic field,

A magnetic field generating means provided with a permanent magnet for generating an N pole magnetic field and a permanent magnet for generating an S pole magnetic field, the side of the permanent magnet being exposed;

Magnetic field position switching means for rotating the magnetic field generating means so as to repeatedly change the position of the N pole magnetic field and the S pole magnetic field generated by the magnetic field generating means for a short time;

An abrasive vessel into which an abrasive and an abrasive having magnetic properties are introduced and a magnetic field generated by the magnetic field generating means passes to the inside;

And a container seating part positioned on the magnetic field position switching means and seated on the polishing container.

According to the above configuration, since the magnetic field generated from the side of the permanent magnet affects the inside of the polishing vessel and affects the polishing, the range of the magnetic field is widened. As such, when the range of the magnetic field is wider, the abrasive and the abrasive move more. Therefore, even when the abrasive is a non-magnetic material and the magnetic material, the abrasive and the abrasive are less likely to stick to each other, thereby increasing the polishing efficiency.

Referring to the present invention by the drawings as follows.

However, the accompanying drawings are only examples to illustrate the technical idea of the present invention, and thus the technical idea of the present invention is not limited to the accompanying drawings.

The magnetic field generating means 10 of the present invention has a fixed shape so that the permanent magnets 11 and 12 do not move to the circular plate as shown in FIGS. 1 and 2, and the permanent magnets 11 and 12 are polished. It may be installed below to pass the magnetic field to the polishing container 50. At this time, as described above, the magnetic fields generated from the sides of the permanent magnets 11 and 12 are also installed so that the sides of the permanent magnets 11 and 12 are exposed to affect polishing. In the structure as shown in Fig. 2, it is preferable that the plate on which the permanent magnets 11 and 12 are installed is made of a nonmagnetic material through which no magnetic field passes.

Another example of the magnetic field generating means 10 may be a method using an electromagnet.

The magnetic field position converting means 20 of the present invention may include a motor 21 for rotating the plate on which the permanent magnets 11 and 12 of the magnetic field generating means 10 described above are installed as shown in FIG. 1. . According to this configuration, when the motor 21 is rotated forward or reverse to rotate the plate provided with the permanent magnets 11 and 12, the plate provided with the permanent magnets 11 and 12 rotates about the rotation axis of the motor 21. At this time, as the magnetic field of different polarity is rotated about the rotational axis of the motor 21 along the permanent magnets 11 and 12 which are sources of generation, the position of the magnetic field is repeatedly converted in a short time. Such a rapid change in the magnetic field causes a change in the magnetic field in the polishing vessel 50, which is to move the abrasive 40, which is a magnetic material, violently. Of course, if the abrasive 30 is a magnetic material, the abrasive is also moved. The magnetic field generated from the sides of the permanent magnets 11 and 12 also affects the polishing. As the range of the magnetic field is increased, the magnetic field is changed to increase the abrasive and the abrasive. The phenomenon is prevented.

If the magnetic field generating means is a method using an electromagnet, the magnetic field position converting means will be a control box for controlling the current.

As another magnetic field position converting means, there is also a method of rotating the polishing vessel 10 instead of rotating the magnetic field generating means 10.

On the other hand, when the strength of the magnetic field generated by the magnetic field generating means 10 is increased, the abrasive 40 moves more violently, resulting in higher polishing efficiency. However, in the case of the permanent magnets (11, 12) can not control the strength of the magnetic field, the magnetic polishing machine using a conventional permanent magnet was relatively weak magnetic field strength.

However, in the present invention, the magnetic field generating means 10 is divided into two parts to the left and right as shown in FIG. 2 as a method of increasing the strength of the magnetic field while using the same permanent magnet through various experiments. 11) Only the permanent magnet 12 having S-pole magnetism is installed on the other side, and when the magnetic field generating means 10 is rotated at a high speed to change the magnetic field, the movement of the abrasive 10 becomes more intense. I found out. This is equivalent to increasing the strength of the magnetic field.

Although the most preferable example is to divide the magnetic field generating means 10 into left and right as described above, the magnetic field generating means 10 divided into two is divided into two again, that is, the center of the magnetic field generating means 10 is divided into two. Even when the permanent magnets 11 and 12 are arranged in the order of N-pole-S-pole-N-pole-S, respectively, the effect of violating the movement of the abrasive 40 can be obtained.

When the magnetic field generating means 10 is rotated at a high speed in the same manner as described above, the magnetic field is also converted inside the polishing container 50. At this time, since the magnetic field generating means 10 is rotated around the motor 21, the magnetic field change is small in the portion close to the rotation axis of the motor 21, the magnetic field change is far from the rotation axis of the motor. Therefore, the abrasive 40 moves violently and is driven in the direction of the rotation axis of the motor 21 with little change in the magnetic field, thereby reducing the polishing effect. Of course, if the abrasive 30 is a magnetic material, the abrasive 30 is also driven in the direction of the rotation axis of the motor 21.

In order to solve such a problem, in the present invention, the protrusions 51 are formed at the center of the polishing container 50 so that the abrasives 40 or the abrasives 30 are concentrated when the change in the magnetic field is weak. ) Or the abrasive 30 hits the protrusion 51 and can no longer be driven in the direction of the rotation axis of the motor 21, and some of the abrasive 30 hits the protrusion and protrudes.

As described above, the abrasive 40 and the abrasive 30 are formed by increasing the range of the magnetic field and preventing the abrasive 40 or the abrasive 40 and the abrasive 30 from being driven to a place where the change of the magnetic field is small. It moves violently, which leads to an improvement in polishing efficiency. In addition, when the abrasive 40 and the abrasive 30 move violently, the phenomenon that the abrasive 40 and the abrasive 30 adhere to each other is prevented, and the polishing efficiency is further increased.

According to the present invention, the abrasive or the movement of the abrasive and the abrasive is more intense and the polishing efficiency is improved.

In addition, even when the abrasive is a magnetic material, the phenomenon that the abrasive and the abrasive adhere to is less, and the polishing efficiency is improved.

In addition, during the polishing operation, the abrasive or the abrasive is prevented from being driven to the rotation center of the magnetic field generating means, and the polishing efficiency is further improved.

Claims (4)

In a polishing apparatus using a magnetic field, A magnetic field generating means provided with a permanent magnet for generating an N pole magnetic field and a permanent magnet for generating an S pole magnetic field, the side of the permanent magnet being exposed; Magnetic field position switching means for rotating the magnetic field generating means so as to repeatedly change the position of the N pole magnetic field and the S pole magnetic field generated by the magnetic field generating means for a short time; An abrasive vessel into which an abrasive and an abrasive having magnetic properties are introduced and a magnetic field generated by the magnetic field generating means passes to the inside; Polishing apparatus using a magnetic field comprising a; a container seating portion which is positioned on the magnetic field position switching means is seated on the polishing vessel. The method of claim 1, The magnetic field generating means is divided into two parts, left and right, and only one permanent magnet having N pole magnetism is installed at one side, and only the permanent magnet having S pole magnetism is installed at the other side. And said magnetic field position switching means rotates said magnetic field generating means at a high speed to produce a change of magnetic field. The method of claim 1, The magnetic field generating means is divided into four quarters with respect to the center thereof, the polishing device using a magnetic field, characterized in that the permanent magnet is arranged in the order of N pole-S pole-N pole-S pole. The method according to any one of claims 1 to 4, The polishing container has a protrusion formed at the center thereof, and the abrasive or abrasive material which violently moves when the magnetic field is changed by the magnetic field position switching means collides with the protrusion.