KR101374269B1 - Ultrasonic cleaner with demagnetization function - Google Patents

Abstract

The present invention relates to a ultrasonic cleaner with a demagnetization function that supplies driving power to a three-axis demagnetization coil formed in all directions on an outer surface of a container and gradually decreasing a magnetic field formed in an object to be cleaned (for example, cutting tool) accommodated in the container at a magnetization point or more for a preset time for demagnetization to completely remove magnetic substances, such as metallic powders, adhered to a surface of the object to be cleaned. Therefore, it is possible to completely remove the magnetic substances, such as metallic powder, by demagnetization, as well as non-magnetic alien substances (for example, cutting oil) adhered to the surface of the object to be cleaned (for example, cutting tool).

Description

Ultrasonic cleaner with demagnetization function {Ultrasonic cleaner with demagnetization function}

The present invention relates to an ultrasonic cleaner, and more particularly, to an ultrasonic cleaner having a demagnetizing function.

In general, machine tools that are manufactured by cutting, such as precision machine tools (eg, carbide drills, carbide end mills, high-speed drills, etc.) adhere to various foreign substances (eg, cutting oil, metal powder, etc.) on the surface. Ultrasonic cleaner is widely used as a device to remove the.

For reference, as the ultrasonic cleaner drives the ultrasonic generator oscillator, when the vibrator generates ultrasonic waves, the ultrasonic waves in the container vibrate to remove foreign substances attached to the surface of the object to be contained in the solvent. Device.

On the other hand, the machine tool manufactured by cutting as described above is magnetized by friction between the metals during the cutting process to generate a magnetic force, as a result of the magnetic material, such as metal powder is stuck to the surface, such a machine tool Magnetic material, such as metal powder, stuck to the surface of the surface, even if the machine tool is cleaned with the ultrasonic cleaner, there is a problem that all or part of the surface remains without being completely removed from the surface.

In addition, as described above, when manufacturing a precision machine using a machine tool in which magnetic material remains on its surface, there is a problem that the quality of the precision machine is degraded or defective occurs.

The present invention is to solve the conventional problems as described above, the object of the present invention is to supply the driving power to the three-axis demagnetizing coil formed in the vertical, front, rear, left and right directions on the outer surface of the container and the object to be cleaned ( Ultrasonic waves with a demagnetizing function that completely removes magnetic materials such as metal powder stuck to the surface of the object by demagnetizing by demagnetizing the magnetic field formed in a cutting tool, for example, a machine tool manufactured by cutting, etc. for a predetermined time. To provide a washer.

In order to achieve the object of the present invention as described above, the ultrasonic cleaner having a demagnetizing function according to the present invention, the ultrasonic generator vibration; A high frequency oscillator which oscillates when a driving power is applied to apply ultrasonic vibration to the vibrator; A container filled with a solvent in which ultrasonic waves generated by the vibrator are delivered and containing a cleaned object; An upper coil winding part formed in a frame shape on an outer surface of the container and having a concave groove in which a demagnetizing coil is wound along the frame; A lower coil winding part formed in a rim shape on the lower side of the outer surface of the container and having a concave groove for winding the demagnetizing coil along the edge thereof, the lower coil winding part facing and parallel to the upper coil winding part; A front coil winding unit formed in a protrusion shape in which a demagnetizing coil is wound around the outer surface of the container, and disposed orthogonally to the upper coil winding unit or the lower coil winding unit; The rear coil winding is formed in the form of a projection in which a demagnetizing coil is wound on the rear of the outer surface of the container, and is disposed to be perpendicular to the upper coil winding portion or the lower coil winding portion, and disposed to face and parallel to the front coil winding portion. Mounting; A left coil winding part formed in a protrusion shape in which a demagnetizing coil is wound around a left side of the outer surface of the container and disposed perpendicularly to the upper coil winding part or the lower coil winding part; The right coil winding is formed in the form of a projection in which a demagnetizing coil is wound on the right side of the outer surface of the container, and is disposed orthogonally to the upper coil winding portion or the lower coil winding portion, and disposed to face and parallel to the left coil winding portion. Mounting; A frequency converter for converting the driving power into a frequency for demagnetization; The upper coil winding unit, the lower coil winding unit, the front coil winding unit, the rear coil winding unit, the left coil winding unit, and the right side of the driving power converted to the demagnetizing frequency through the frequency converter in a predetermined order. A demagnetizer which is supplied to each demagnetization coil of the coil winding unit, and demagnetizes by gradually attenuating the magnetic field formed in the object to be housed in the container at or above the magnetization point for a predetermined time; And a driving power supply unit supplying driving power to the high frequency oscillator when the ultrasonic cleaning switch is turned on, and supplying driving power to the frequency converter when the demagnetizing switch is turned on.

In the ultrasonic washing machine having a demagnetizing function according to the present invention, the demagnetizer is supplied to the demagnetizing coil of the upper coil winding and the lower coil winding of the drive power converted into frequency for demagnetization through the frequency converter at the same time A second shaft demagnetizing process, and a second shaft demagnetizing process of simultaneously supplying driving power converted into a demagnetizing frequency through the frequency converter to each demagnetizing coil of the front coil winding unit and the rear coil winding unit, and the frequency The frequency converter may be changed in a predetermined order by changing the front and rear of the third axis demagnetizing process of simultaneously supplying driving power converted into a demagnetizing frequency through a converter to each demagnetizing coil of the left coil winding part and the right coil winding part. It is characterized in that for supplying the drive power converted to the frequency for the demagnetization through the demagnetizing coil.

In the ultrasonic washing machine having a demagnetizing function according to the present invention, the outer surface of the container is characterized in that the upper coil winding portion and the lower coil winding portion is formed on the top and bottom.

In the ultrasonic washing machine having a demagnetizing function according to the present invention, the front coil winding portion and the rear coil winding portion are formed on the front and rear of the outer surface of the container.

In the ultrasonic washing machine having a demagnetizing function according to the present invention, the left side and the right side coil winding portion and the right coil winding portion are formed on the outer surface of the container.

According to the present invention, it is possible to demagnetize and completely remove magnetic materials such as metal powder, as well as non-magnetic foreign matter (eg, cutting oil, etc.) stuck to the surface of the object to be cleaned (eg, a machine tool manufactured by cutting).

When demagnetizing a machine tool manufactured by cutting according to the present invention, as described in the prior art, when manufacturing a precision machine using a machine tool in which magnetic materials remain on its surface, the quality of the precision machine may be deteriorated. The problem that a defect occurs can be solved.

1 is a perspective view of an ultrasonic cleaner with a demagnetizing function according to the present invention.
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
Figure 3 is a block diagram showing the configuration of the ultrasonic cleaner with a demagnetizing function according to the present invention.

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

1 to 3, the vibrator 110 generates ultrasonic waves.

The high frequency oscillator 120 oscillates when a driving power is applied, thereby applying ultrasonic vibration to the vibrator 110.

The container 130 is filled with a solvent through which the ultrasonic wave generated by the vibrator 110 is transmitted, and accommodates the object to be cleaned (eg, a machine tool manufactured by cutting).

The upper coil winding unit 140 is formed in a frame shape on the outer surface of the container 130, and a concave groove 141 is formed around the edge of the demagnetizing coil is wound.

The lower coil winding 140 'is formed in the shape of a rim at the bottom of the outer surface of the container 130, and a concave groove 141' is formed in which the demagnetizing coil is wound along the rim, and the upper coil winding 140 is formed. ) And are arranged parallel to each other.

The front coil winding 150 is formed in a protrusion shape in which a demagnetizing coil is wound in front of the outer surface of the container 130, and is perpendicular to the upper coil winding 140 or the lower coil winding 140 ′. Is placed.

The rear coil winding 150 'is formed in the form of a protrusion in which a demagnetizing coil is wound around the outer surface rear of the container 130, and is orthogonal to the upper coil winding 140 or the lower coil winding 140'. It is disposed so as to face, parallel to the front coil winding 150 is disposed.

The left coil winding unit 160 is formed in a protrusion shape in which a demagnetizing coil is wound on the left side of the outer surface of the container 130, and is perpendicular to the upper coil winding unit 140 or the lower coil winding unit 140 ′. Is placed.

The right coil winding part 160 ′ is formed in a protrusion shape in which a demagnetizing coil is wound on the right side of the outer surface of the container 130, and is orthogonal to the upper coil winding part 140 or the lower coil winding part 140 ′. It is disposed so as to face, parallel to the left coil winding 160 is disposed.

The frequency converter 170 converts the driving power source to the demagnetizing frequency.

The demagnetizer 180 includes the upper coil winding 140, the lower coil winding 140 ′, and the front coil winding in a predetermined order of driving power converted into a demagnetizing frequency through the frequency converter 170. Blood supplied to each of the mounting coil 150, the rear coil winding unit 150 ', the left coil winding unit 160, and the right coil winding unit 160', and received in the container 130 Demagnetization is performed by slowly attenuating the magnetic field formed in the wash water above the magnetization point for a predetermined time.

The demagnetizer 180 simultaneously supplies driving power converted into a demagnetizing frequency through the frequency converter 170 to demagnetizing coils of the upper coil winding 140 and the lower coil winding 140 '. The first shaft demagnetization process and the driving power converted into the frequency for demagnetization through the frequency converter 170 are simultaneously demagnetized coils of the front coil winding 150 and the rear coil winding 150 '. A second shaft demagnetization process for supplying and driving power converted into a demagnetization frequency through the frequency converter 170 to demagnetization coils of the left coil winding unit 160 and the right coil winding unit 160 ' By changing the front and rear of the third axis demagnetization process to be supplied at the same time, the drive power converted to the demagnetizing frequency is supplied to the demagnetizing coil through the frequency converter 170 in a predetermined order.

For example, the demagnetizer 180 may convert the driving power converted into the frequency for demagnetization through the frequency converter 170 in the order of the first shaft demagnetization process, the second shaft demagnetization process, and the third shaft demagnetization process. Supply with one demagnetizing coil.

For example, the demagnetizer 180 converts the driving power converted into the frequency for demagnetization through the frequency converter 170 in the order of the second shaft demagnetization process, the third shaft demagnetization process, and the first shaft demagnetization process. Supply with one demagnetizing coil.

For example, the demagnetizer 180 converts the driving power converted into the frequency for demagnetization through the frequency converter 170 in the order of the second shaft demagnetization process, the first shaft demagnetization process, and the third shaft demagnetization process. Supply with one demagnetizing coil.

For example, the demagnetizer 180 converts the driving power converted into the frequency for demagnetization through the frequency converter 170 in the order of the third axis demagnetization process, the second axis demagnetization process, and the first axis demagnetization process. Supply with one demagnetizing coil.

For example, the demagnetizer 180 converts the driving power converted into the frequency for demagnetization through the frequency converter 170 in the order of the third axis demagnetization process, the first axis demagnetization process, and the second axis demagnetization process. Supply with one demagnetizing coil.

The driving power supply unit 190 supplies driving power to the high frequency oscillator 120 when the ultrasonic cleaning switch 191 is turned on, and supplies driving power to the frequency converter 170 when the demagnetizing switch 192 is turned on.

Ultrasonic cleaner 100 having a demagnetizing function according to the present invention configured as described above operates as follows.

A user fills a solvent in the container 130 and then turns on the ultrasonic cleaning switch 191 in a state where a cleaning object (for example, a cutting tool is manufactured by using a cutting tool) is turned on, and the nonmagnetic foreign material adhered to the cleaning object. (Eg, cutting oil, etc.) may be removed by ultrasonic cleaning or demagnetizing switch 192 may be demagnetized to completely remove magnetic material such as metal powder stuck to the object to be cleaned.

Ultrasonic cleaning work and demagnetization work for the object to be cleaned are determined by the user's choice.

The ultrasonic cleaning operation for the object to be cleaned is carried out as follows.

When the ultrasonic cleaning switch 191 is turned on, the high frequency oscillator 120 oscillates to apply ultrasonic vibration to the vibrator 110. Accordingly, when the vibrator 110 generates ultrasonic waves, the container ( 130) The non-magnetic foreign matter (eg, cutting oil, etc.) adhering to the surface of the object to be cleaned in the solvent vibrates to remove the solvent. At this time, a magnetic material such as metal powder stuck to the object to be cleaned may be partially removed by ultrasonic vibration.

The demagnetization work on the object to be cleaned is carried out as follows.

When the demagnetizing switch 192 is turned on, driving power converted into a demagnetizing frequency through the frequency converter 170 is supplied to the demagnetizer 180.

Accordingly, the demagnetizer 180 includes the upper coil winding 140 and the lower coil winding 140 ', the front coil winding 150, and the rear coil winding 150' in a predetermined order. ), The left coil winding unit 160 and the right coil winding unit 160 'are supplied to each demagnetizing coil, and the magnetic field formed in the object to be housed in the container 130 is above the magnetization point for a predetermined time. By attenuating slowly, demagnetization completely removes magnetic substances such as metal powder from the object to be cleaned.

At this time, the demagnetizer 180 is a sequence of the first shaft degassing process, the second shaft degassing process and the third shaft degassing process, or the second shaft degassing process and the third shaft degassing process as described above. A process and a sequence of the first shaft degassing process, or the second shaft degassing process, the first shaft degassing process and the third shaft degassing process, or the third shaft degassing process and the second shaft degassing process, and In order to demagnetize the frequency through the frequency converter 170 in the order of the first axis demagnetization process, or the order of the third axis demagnetization process, the first axis demagnetization process and the second axis demagnetization process. The converted driving power is supplied to the demagnetizing coil described above.

The ultrasonic cleaner having a demagnetizing function according to the present invention described above is not limited to the above-described embodiment, and does not depart from the gist of the present invention as claimed in the following claims. Anyone who has it has the technical spirit to the extent that various changes can be made.

100: ultrasonic cleaner with demagnetization function 110: vibrator
120: high frequency oscillator 130: container
140: upper coil winding 141: concave groove
140 ': lower coil winding 141': concave groove
150: front coil winding 150 ': rear coil winding
160: left coil winding 160 ': right coil winding
170: frequency converter 180: demagnetizer
190: driving power supply 191: ultrasonic cleaning switch
192: demagnetizing switch

Claims (10)

An ultrasonic generator vibrator 110;
A high frequency oscillator 120 which oscillates when a driving power is applied to apply ultrasonic vibration to the vibrator 110;
A container 130 filled with a solvent for transmitting ultrasonic waves generated by the vibrator 110 and containing a cleaned object;
An upper coil winding unit 140 formed on an outer surface of the container 130 and having a concave groove 141 for winding a demagnetizing coil along the edge thereof;
Concave groove 141 'is formed in the lower portion of the outer surface of the container 130 and the demagnetizing coil is wound around the edge, and is disposed in parallel with and parallel to the upper coil winding 140. Coil winding 140 ';
The front coil winding part 150 is formed in the form of a protrusion in which a demagnetizing coil is wound in front of the outer surface of the container 130 and is orthogonal to the upper coil winding 140 or the lower coil winding 140 '. );
The demagnetizing coil is formed in the form of a protrusion wound around the outer surface rear of the container 130, and is disposed to be perpendicular to the upper coil winding unit 140 or the lower coil winding unit 140 ′, and the front coil winding unit. A rear coil winding 150 ′ disposed in parallel with and facing 150;
The left coil winding part 160 is formed in the form of a protrusion in which a demagnetizing coil is wound on the left side of the outer surface of the container 130 and is orthogonal to the upper coil winding 140 or the lower coil winding 140 '. );
The demagnetizing coil is formed on the right side of the outer surface of the container 130 and is formed in a protrusion shape, and is disposed orthogonally to the upper coil winding 140 or the lower coil winding 140 'and the left coil winding. A right coil winding 160 ′ disposed in parallel with and facing 160;
A frequency converter 170 for converting the driving power into the frequency for demagnetization;
The upper coil winding unit 140, the lower coil winding unit 140 ′, the front coil winding unit 150, and the driving power converted to the demagnetizing frequency by the frequency converter 170 in a predetermined order. The magnetic field formed in the object to be cleaned of the rear coil winding unit 150 ', the left coil winding unit 160, and the right coil winding unit 160' is supplied to the container 130. Demagnetizer 180 to demagnetize by slowly attenuating above the magnetization point for a predetermined time; And
A driving power supply unit 190 supplying driving power to the high frequency oscillator 120 when the ultrasonic cleaning switch 191 is turned on, and supplying driving power to the frequency converter 170 when the demagnetizing switch 192 is turned on;
Ultrasonic cleaner with a demagnetizing function, characterized in that consisting of. The method of claim 1, wherein the demagnetizer 180
A first shaft demagnetizing process of simultaneously supplying driving power converted into a demagnetizing frequency through the frequency converter 170 to demagnetizing coils of the upper coil winding 140 and the lower coil winding 140 '; And a second shaft demagnetizing process of simultaneously supplying driving power converted into a demagnetizing frequency through the frequency converter 170 to demagnetizing coils of the front coil winding 150 and the rear coil winding 150 '. And a third shaft demagnetizer for simultaneously supplying driving power converted into a demagnetizing frequency through the frequency converter 170 to demagnetizing coils of the left coil winding unit 160 and the right coil winding unit 160 '. Ultrasonic cleaner with a demagnetizing function characterized in that for changing the front and rear of the process to supply the drive power converted to the demagnetizing frequency through the frequency converter 170 to the demagnetizing coil in a predetermined order. The method of claim 2, wherein the demagnetizer 180
Characterized in that in order of the first shaft demagnetization process, the second shaft demagnetization process and the third shaft demagnetization process through the frequency converter 170 is supplied to the demagnetizing coil the drive power converted to the frequency for demagnetization Ultrasonic cleaner with a demagnetizing function. The method of claim 2, wherein the demagnetizer 180
Characterized in that the driving power is converted to the frequency for the demagnetizing frequency through the frequency converter 170 in the order of the second axis demagnetization process, the third axis demagnetization process and the first axis demagnetization process, characterized in that for supplying to the demagnetizing coil Ultrasonic cleaner with a demagnetizing function. The method of claim 2, wherein the demagnetizer 180
Characterized in that the driving power is converted to the frequency for the demagnetizing frequency through the frequency converter 170 to the demagnetizing coil in the order of the second axis demagnetization process, the first axis demagnetization process and the third axis demagnetization process. Ultrasonic cleaner with a demagnetizing function. The method of claim 2, wherein the demagnetizer 180
Characterized in that the driving power is converted to the frequency for the demagnetizing frequency through the frequency converter 170 in the order of the third axis demagnetization process, the second axis demagnetization process and the first axis demagnetization process, characterized in that for supplying to the demagnetizing coil Ultrasonic cleaner with a demagnetizing function. The method of claim 2, wherein the demagnetizer 180
Characterized in that the third axis demagnetization process, the first axis demagnetization process and the second axis demagnetization process in order to supply the drive power converted to the demagnetizing frequency through the frequency converter 170 to the demagnetizing coil Ultrasonic cleaner with a demagnetizing function. An ultrasonic generator vibrator 110;
A high frequency oscillator 120 which oscillates when a driving power is applied to apply ultrasonic vibration to the vibrator 110;
A container 130 filled with a solvent for transmitting ultrasonic waves generated by the vibrator 110 and containing a cleaned object;
An upper coil winding unit 140 formed on an outer surface of the container 130 and having a concave groove 141 for winding a demagnetizing coil along the edge thereof;
Concave groove 141 'is formed in the lower portion of the outer surface of the container 130 and the demagnetizing coil is wound around the edge, and is disposed in parallel with and parallel to the upper coil winding 140. Coil winding 140 ';
A frequency converter 170 for converting the driving power into the frequency for demagnetization;
The driving power converted to the demagnetizing frequency through the frequency converter 170 is supplied to the demagnetizing coils of the upper coil winding 140 and the lower coil winding 140 'and supplied to the container 130. A demagnetizer 180 for demagnetizing by slowly attenuating the magnetic field formed in the received cleansing object above a magnetization point for a predetermined time; And
A driving power supply unit 190 supplying driving power to the high frequency oscillator 120 when the ultrasonic cleaning switch 191 is turned on, and supplying driving power to the frequency converter 170 when the demagnetizing switch 192 is turned on;
Ultrasonic cleaner with a demagnetizing function, characterized in that consisting of. An ultrasonic generator vibrator 110;
A high frequency oscillator 120 which oscillates when a driving power is applied to apply ultrasonic vibration to the vibrator 110;
A container 130 filled with a solvent for transmitting ultrasonic waves generated by the vibrator 110 and containing a cleaned object;
A front coil winding unit 150 formed in a protrusion shape in which a demagnetizing coil is wound in front of the outer surface of the container 130;
A rear coil winding unit 150 ′ formed in a protrusion shape wound around the outer surface of the container 130 and disposed to face the front coil winding unit 150 in parallel with the front coil winding unit 150;
A frequency converter 170 for converting the driving power into the frequency for demagnetization;
The driving power converted to the demagnetizing frequency through the frequency converter 170 is supplied to the demagnetizing coils of the front coil winding 150 and the rear coil winding 150 ′ and supplied to the container 130. A demagnetizer 180 for demagnetizing by slowly attenuating the magnetic field formed in the received cleansing object above a magnetization point for a predetermined time; And
A driving power supply unit 190 supplying driving power to the high frequency oscillator 120 when the ultrasonic cleaning switch 191 is turned on, and supplying driving power to the frequency converter 170 when the demagnetizing switch 192 is turned on;
Ultrasonic cleaner with a demagnetizing function, characterized in that consisting of. An ultrasonic generator vibrator 110;
A high frequency oscillator 120 which oscillates when a driving power is applied to apply ultrasonic vibration to the vibrator 110;
A container 130 filled with a solvent for transmitting ultrasonic waves generated by the vibrator 110 and containing a cleaned object;
A left coil winding unit 160 formed in a protrusion shape in which a demagnetizing coil is wound around a left side of the outer surface of the container 130;
A right coil winding unit 160 ′ which is formed in a protrusion shape around which the demagnetizing coil is wound on the right side of the outer surface of the container 130 and is disposed to face the parallel side of the left coil winding unit 160;
A frequency converter 170 for converting the driving power into the frequency for demagnetization;
The driving power converted to the demagnetizing frequency through the frequency converter 170 is supplied to the demagnetizing coils of the left coil winding 160 and the right coil winding 160 'and supplied to the container 130. A demagnetizer 180 for demagnetizing by slowly attenuating the magnetic field formed in the received cleansing object above a magnetization point for a predetermined time; And
A driving power supply unit 190 supplying driving power to the high frequency oscillator 120 when the ultrasonic cleaning switch 191 is turned on, and supplying driving power to the frequency converter 170 when the demagnetizing switch 192 is turned on;
Ultrasonic cleaner with a demagnetizing function, characterized in that consisting of.

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