KR101054885B1 - Magnetic chuck - Google Patents

Abstract

PURPOSE: A magnetic chuck is provided to be simultaneously attached on a workpiece and a table using magnetic force without a fixing unit. CONSTITUTION: A magnetic chuck(100) comprises a first jig unit(200), a second jig, and a steel plate. The first jig unit is attached on a magnetic body and comprises a first jig(202) with multiple coupling holes(206), a coupling member, and an insulator(204). The coupling member couples the first jig and the magnetic chuck. The second jig is formed in one side of the magnetic chuck. The steel plate prevents cracks from being generated on the outer surface of the first jig.

Description

Magnetic Chuck

The present invention relates to a magnetic chuck. More particularly, the present invention relates to a magnetic chuck which can be used in a machine tool and can process a workpiece by attaching various shapes of jigs to the magnetic chuck as necessary.

In general, a chuck of a machine tool is an accessory device installed on a table of a machine tool to fix a work, and includes a normal chuck, an air chuck, and a collet chuck, and is installed on a table using a magnet and attaches the work. There is a magnetic chuck that can be machined.

Here, the magnetic chuck has the advantage of being able to easily attach the workpiece without using a separate member by receiving power, but in the case of a workpiece made of a nonmagnetic material, there is a disadvantage that it can not be attached.

Accordingly, in recent years, magnetic chucks having a combination of alnico magnets and rare earth (neodymium and ferrite) magnets have been proposed, and these magnetic chucks generate a very large magnetic force, and thus have a very good function of fixing a workpiece by a magnetic field.

1A and 1B are cross-sectional views showing a conventional magnetic chuck made of alnico magnets and rare earth magnets.

Magnetic chuck 100 according to the prior art has a magnetic side and the alnico magnet 120 fitted to the receiving hole 112 of the side wall portion 110, the side wall portion 110 is formed through the receiving hole 112, Coil 130 surrounding the alnico magnet 120, the magnetic body 140 disposed adjacent to the upper portion of the alnico magnet 120, the rare earth magnet 150 and the alnico magnet disposed adjacent to the circumferential surface of the magnetic body 140 120, the coil 130, the magnetic material 140, and the rare earth magnet 150 are formed of a filler 160 that binds each other.

One side of the magnetic body 140 is exposed on the top surface of the magnetic chuck 100, and one side of the alnico magnet 120 is exposed on the bottom surface of the magnetic chuck 100.

The magnetic chuck 100 according to the prior art configured as described above is located on the table 190 having magnetic properties, and magnetizing the alnico magnet 120 by applying power to the coil 130, the alnico magnet 120 is formed. The upper side has the S pole, the lower side has the N pole, and the site of the rare earth magnet 150 in contact with the magnetic body 140 has the N pole.

At this time, in the magnetic chuck 100 is formed a magnetic force line flowing to the alnico magnet 120 → table 190 → side wall portion 110 → rare earth magnet 150 → magnetic material 140 → alnico magnet 120, The workpiece 300 is not attached to the magnetic chuck 100 even when the workpiece 300 is adjacent to or opposed to the upper side of the magnetic chuck 100.

Subsequently, when power is applied to the coil 130 in the reverse direction, the alnico magnet 120 is magnetized in the reverse direction so that the upper side of the alnico magnet 120 has the N pole and the lower side has the S pole.

Here, the magnetic force line formed in the magnetic chuck 100 flows in the direction of the alnico magnet 120 → the magnetic body 140 → the workpiece 300 → the side wall portion 110 → the table 190 → the alico magnet 120. In addition, a magnetic force line flowing from the rare earth magnet 150 to the magnetic material 140 to the workpiece 300 to the side wall part 110 to the rare earth magnet 150 is formed.

Therefore, when the workpiece 300 is adjacent to the upper surface of the magnetic chuck 100, the workpiece 300 is attached to the side wall portion 110 and the magnetic body 140 by the magnetic force lines formed on the magnetic, the workpiece 300 attached Can be processed.

In addition, since the workpiece 300 such as the round bar is attached to the magnetic chuck 100 in line contact, the adhesion force is remarkably dropped, so there is a lot of difficulty in working the round bar, and using a separate jig on the magnetic chuck 100. Since it used after attaching, there existed a problem that the work process increased and the precision fell.

And the workpiece which has the inclination of the Y-axis by the X-axis, the inclination of the X-axis by the Y-axis, or the composite inclination by the X-axis and the Y-axis cannot be attached to the conventional magnetic chuck 100 and can be processed, and this workpiece is processed. There was a problem in that a separate sine bar chuck to be used.

In order to solve this problem, the present invention is provided with a first jig on the magnetic chuck to attach two orthogonal sides of the workpiece to the table and the magnetic chuck, thereby increasing the adhesion force to the workpiece perpendicular to the side of the planar processing and the magnetic chuck The purpose is to facilitate the orthogonal machining of the workpiece to be processed by attaching.

In addition, the present invention is a second jig having a slope of the Y-axis by the X-axis, an inclination of the X-axis by the Y-axis or a compound inclination by the X-axis and the Y-axis when machining the round bar or when processing the workpiece to have a slope The purpose of this is to easily machine the workpiece.

In addition, the present invention, even if the magnetic chuck is not fixed to the table using the fixing means, the magnetic chuck can be attached to the workpiece and the table at the same time by the magnetic force is to reduce the time to prepare for work.

In order to achieve the above object, the present invention provides a magnetic sidewall portion through which a receiving hole is formed, an alnico magnet fitted into the accommodating hole of the sidewall portion, and a coil inserted into the accommodating hole of the sidewall portion to surround the alnico magnet; And a magnetic material inserted into the accommodating hole of the side wall portion and provided in the lower portion of the alnico magnet, a rare earth magnet inserted into the accommodating hole of the side wall portion and provided in the circumferential surface of the magnetic material, and an alnico magnet, coil and magnetic material inserted into the accommodating hole of the side wall portion. And a packing material for binding rare earth magnets to each other, wherein a lower portion of the magnetic body is exposed, and a magnetic attachment is attached to an upper portion of the alnico magnet to attach and process a workpiece. A first jig having a plurality of coupling holes formed therein, and inserted into the coupling holes to couple the first jig to the magnetic chuck. Member and the first fixture portion including an insulator which is provided so as to insulate between the first jig and the side wall; A second jig provided on one side of the magnetic chuck and formed of an inclination of the Y axis by the X axis, an inclination of the X axis by the Y axis, or a compound inclination of the X axis and the Y axis; And it provides a magnetic chuck comprising a steel plate provided to prevent scratches on the side wall portion, the attachment and the outer surface of the first jig.

According to the present invention, a workpiece having a first jig to attach two orthogonal surfaces of the workpiece to the table and the magnetic chuck, thereby increasing the adhesion force to the workpiece to be machined by attaching the workpiece perpendicular to the side of the planar processing and the magnetic chuck The orthogonal processing of the effect is easy to do.

Further, according to the present invention, when the round bar is processed or when the workpiece is processed to have an inclination, an agent having an inclination of the Y axis by the X axis, an inclination of the X axis by the Y axis, or a compound inclination by the X axis and the Y axis By using two jigs, there is an effect that the workpiece can be easily processed.

In addition, according to the present invention, even if the magnetic chuck is not fixed to the table by using the fixing means, the magnetic chuck can be attached to the workpiece and the table at the same time by magnetic force, thereby reducing the time to prepare for work.

1a and 1b is a cross-sectional view showing a magnetic chuck according to the prior art,
Figure 2 is an exploded perspective view showing a magnetic chuck in accordance with a preferred embodiment of the present invention,
3 to 6 is a cross-sectional view showing a magnetic chuck in accordance with a preferred embodiment of the present invention,
7 is a front view showing a magnetic chuck in accordance with a preferred embodiment of the present invention;
8 to 9b are perspective views showing an embodiment of a magnetic chuck according to a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of the drawings, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is an exploded perspective view showing a magnetic chuck according to a preferred embodiment of the present invention, Figures 3 to 6 are sectional views showing a magnetic chuck according to a preferred embodiment of the present invention. In addition, Figure 7 is a front view showing a magnetic chuck according to a preferred embodiment of the present invention, Figures 8 to 9b is a perspective view showing an embodiment of a magnetic chuck according to a preferred embodiment of the present invention.

As shown in FIGS. 2 and 3, the present invention is magnetic and has an alnico magnet fitted into the side wall portion 110 through which the accommodation hole 112 is formed and the accommodation hole 112 of the side wall portion 110. 120, the coil 130 inserted into the receiving hole 112 of the side wall part 110 and enclosing the alnico magnet 120, and the alnico magnet 120 inserted into the receiving hole 112 of the side wall part 110. ) And a receiving hole of the rare earth magnet 150 and the side wall portion 110 which are inserted into the magnetic body 140 and the receiving hole 112 of the side wall portion 110 provided on the circumferential surface of the magnetic body 140. 112 is inserted into the alnico magnet 120, the coil 130, the magnetic material 140 and the rare earth magnet 150 is made of a filler 160 to bind to each other, the lower portion of the magnetic material 140 and the alnico magnet 120 In the magnetic chuck 100 formed so as to expose the upper portion of each), is attached to the lower portion of the exposed magnetic body 140 and having a magnetic first jig portion 200, and the upper portion of the exposed alnico magnet 120 Attachment to be attached ( 180).

The first jig part 200 includes a magnetic first jig 202, a coupling hole 206 formed through a plurality of first jig 202 and inserted into the coupling hole 206, and a magnetic body 140. The first jig 202 is coupled to the coupling member 208 and the first jig 202 is provided to be attached to the lower portion of the magnetic body 140 without being attached to the side wall portion 110 of the magnetic chuck 100. It is configured to include an insulator 204 to be.

That is, when power is applied to the coil 130 of the magnetic chuck 100, magnetic lines of force are formed on the magnetic chuck 100 and the attachment 180 to attach the upper side of the alnico magnet 120 to which the attachment 180 is exposed. do.

In addition, the insulator 204 insulates the first jig 202 of the first jig part 200 from the side wall part 110 so that magnetic lines are not formed in the first jig 202 and the side wall part 110. When the workpiece 300 is attached to the side wall 110 and the first jig 202, a magnetic force line through the workpiece 300 is formed, and the first jig 202 is attached to the magnetic body 140. It is to increase the adhesion by widening the attachment area between the workpiece 300 or the table 180 to be.

As shown in FIG. 4A, the magnetic chuck 100 configured as described above has the first jig portion 200 facing downward, and the workpiece 300 is positioned below the first jig 202 so that the magnetic chuck ( When the side wall portion 110 of the magnet 100 is adjacent to the vertical table 192 having magnetic force and the power is applied to the coil 130 of the magnetic chuck 100 in the reverse direction to magnetize the alnico magnet 120, the alnico magnet 120 is magnetized. The polarity of the 120 is changed, and the alnico magnet 120 → the magnetic body 140 → the first jig 202 → the workpiece 300 → the vertical table 192 → the attachment 180 → the alnico magnet 120. A magnetic force line flowing through the magnetic force line and the rare earth magnet 150 → the magnetic body 140 → the first jig 202 → the workpiece 300 → the vertical table 192 → the side wall portion 110 → the rare earth magnet 150 are formed.

Meanwhile, referring to FIG. 4B, the first jig 202 of the magnetic chuck 100 is positioned on the upper side of the horizontal table 190, and the second jig 220 is further provided on the side wall part 110 to provide a second jig 220. The workpiece 300 may be attached to the upper side of the jig 220. In addition, an insulator 204 is provided between the magnetic chuck 100 and the second jig 220 to maintain a spaced distance between the magnetic chuck 100 and the second jig 220 and form a magnetic force line.

When the second jig 220 is attached to the side wall portion 110 of the magnetic chuck 100 and power is applied to the magnetic chuck 100, the alnico magnet 120 → the magnetic body 140 → the first jig 202. ) → horizontal table 190 → second jig 220 → workpiece 300 → attachment 180 → magnetic lines flowing through alnico magnet 120, rare earth magnet 150 → magnetic body 140 → first jig A magnetic force line flowing to the horizontal table 190, the second jig 220, the attachment 180, the sidewall part 110, and the rare earth magnet 150 is formed.

In this case, the steel plate 192 may be provided on the outer surface of the attachment 180, the horizontal table 190, the first jig 202 and the side wall portion 110, the steel plate 192 is a magnetic chuck 100 ) By changing the position and attachment of the workpiece 300 to prevent scratches on the attachment 180, the horizontal table 190, the first jig 202 and the side wall portion 110 to use the magnetic chuck 100 for a long time. Not only can the workpiece 300 be machined accurately.

In addition, the attachment 180 attached to one side of the workpiece 300 may be formed to be inclined to be in surface contact to increase the attachment force, but is not limited thereto, and may be variously formed.

In addition, by attaching the second workpiece 320 to the other side wall portion 110 of the magnetic chuck 100, it is possible to process the workpiece of the other shape or the same shape together.

In addition, as shown in FIG. 4C, the second jig 220 attached to the left sidewall portion 110 of the magnetic chuck 100 is formed to be lower than the height of the magnetic chuck 100 to attach the workpiece 300. The second jig 220 attached to the right sidewall 110 of the magnetic chuck 100 may be formed to have the same height as that of the magnetic chuck 100 to attach the workpiece 300 to the upper surface of the magnetic chuck 100. Can be.

In addition, referring to FIG. 4D, the magnetic block 260 is fixed to the horizontal table 190 using the coupling member 208, and the block 260 and the magnetic chuck 100 fixed to the horizontal table 190 are fixed. Positioning the workpiece 300 between), when the external block of the magnetic force is applied to the magnetic chuck 100 due to the fixed block 260, it is possible to prevent the workpiece 300 from falling off the magnetic chuck 100 , The clamp 400 to be described later is provided to more firmly attach and fix the workpiece 300.

Meanwhile, as shown in FIG. 5, the side wall 110 of the magnetic chuck 100 is positioned above the horizontal table 190, and the work 300 is adjacent to one side of the first jig 202. When power is applied to the coil 130 of the magnetic chuck 100, the rare earth magnet 150 → the magnetic body 140 → the first jig 202 → the workpiece 300 → the horizontal table 190 → the side wall part 110 → Magnetic lines and alnico magnets 120 flowing to the rare earth magnets 150 → magnetic bodies 140 → first jig 202 → workpiece 300 → horizontal table 190 → attachments 180 → alnico magnets 120 Magnetic force lines flowing to are formed.

In addition, as shown in Figure 6 and 7, the workpiece 300, such as a round bar is made of a line contact, or having a magnetic on the magnetic chuck 220 to adjust the attachment position is attached to the magnetic chuck 220 The second jig 220 may be further attached and processed.

That is, the second jig 220 is variously formed by the inclination of the Y-axis by the X-axis, the inclination of the X-axis by the Y-axis, or the compound inclination by the X-axis and the Y-axis, thereby forming the workpiece 300 of the second jig 220. It can be processed in various ways according to the inclination, the height of the second jig 220 is also formed in various ways to adjust the position of the workpiece 300 attached to the magnetic chuck 100 can be easily processed the workpiece 300 Can be.

In addition, as shown in FIG. 8, the attachment 180 of the magnetic chuck 100 is fixed so as not to move above the horizontal table 190, and the sidewall 110 of one side of the magnetic chuck 100 may be formed. The second jig 220 is attached, and the third jig 240 is further provided to be attached to the side wall portion 110 of the magnetic chuck 100 perpendicularly to the second jig 220. The second jig 220 and the third jig 240 are orthogonal to each other.

At this time, the second jig 220 and the third jig 240 is orthogonal and attached to the magnetic chuck 100 to form an orthogonal axis, and by attaching the workpiece 300 based on the formed orthogonal axis, a plurality of workpieces ( 300) can be processed identically at the same location.

Therefore, by providing the first jig portion 200 in the magnetic chuck 100, at least two surfaces of the workpiece 300 on the outer surface of the first jig 200 and the side wall portion 110 of the magnetic chuck 100. And the second jig 220 and the third jig 240 in the magnetic chuck 100, it is possible to attach a plurality of workpiece 300 in the same position, the workpiece 300 ) Can be easily processed by changing the processing height, inclination and attaching position.

In addition, the first jig unit 200, the second jig 220, and the third jig 240 may also be used in an 'E'-shaped electromagnet or a zero electromagnet.

Meanwhile, when the workpiece 300 is attached to the first jig 202 to be processed, when the external force is applied to the workpiece 300 larger than the magnetic force generated by the magnetic chuck 100, the workpiece 300 is the magnetic chuck 100. 9a and 9b, the clamp 400 is coupled to the engaging portion 182, which protrudes on one side of the attachment 180 and has a fitting hole 422 formed thereon. Attach and fix the workpiece 300 to the first jig 202.

The clamp 400 is provided with a body 420 and a fitting hole 422 on one side of the body 420, and the fitting hole 422 is positioned on the same center line as the fitting hole 422 of the coupling part 182. By inserting the coupling pin 440 is inserted into the fitting hole 422 so that the body 320 is rotatable and the adjustment hole 424 formed to be horizontally penetrated with the body 420 and the workpiece 300 to the first jig 202 It is configured to include a fixing rod 460 to be fixed to).

Since the clamp 400 is made of a plurality of more firmly attached to the workpiece 300, even if a strong force is applied to the workpiece 300, it is not easy to process the workpiece 300 because it does not fall off the magnetic chuck 100. The clamp 400 is rotatably coupled to the attachment 180 and can be easily used when replacing the workpiece 300.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the same scope should be construed as being included in the scope of the present invention.

100: magnetic chuck 110: side wall
112: receiving hole 114: side wall
120: Alnico magnet 130: coil
140: magnetic material 150: rare earth magnet
160: filler 180: attachment
182: coupling section 190: horizontal table
192: vertical table 200: first jig portion
202: first jig 204: insulator
206: coupling hole 208: coupling member
220: second jig 240: third jig
300: workpiece 320: second workpiece
400: clamp 420: body
422: fitting hole 424: adjusting hole
440: coupling pin 460: fixed rod

Claims (5)

A side wall portion having a magnetic through hole, an alnico magnet fitted into the accommodating hole of the side wall portion, a coil inserted into the accommodating hole of the side wall portion to surround the alnico magnet, and an alnico inserted into the accommodating hole of the side wall portion Magnetic material provided in the lower portion of the magnet, the rare earth magnet is inserted into the accommodating hole of the side wall portion and the filling material for binding the alnico magnet, coil, magnetic material and rare earth magnet inserted in the accommodating hole of the side wall portion mutually In the magnetic chuck to expose the lower portion of the magnetic material, the magnetic attachment is attached to the upper portion of the alnico magnet to attach and process the workpiece,
A first jig attached to the magnetic body by magnetism and having a plurality of coupling holes formed therein, a coupling member inserted into the coupling hole to couple the first jig to the magnetic chuck, and to insulate the first jig from the side wall portion; A first jig unit including an insulator;
A second jig provided on one side of the magnetic chuck and formed of an inclination of the Y axis by the X axis, an inclination of the X axis by the Y axis, or a compound inclination of the X axis and the Y axis; And
Steel sheet provided to prevent scratches on the side wall portion, the attachment and the outer surface of the first jig
Magnetic chuck comprising a. The method of claim 1,
The second jig is formed to be lower than the height of the magnetic chuck, or the same is formed so that it is easy to process the workpiece attached to the magnetic chuck. The method of claim 1,
The magnetic chuck further comprises a third jig orthogonal to the second jig and attached to the side wall of the magnetic chuck so as to attach and process a plurality of workpieces at the same position. The method of claim 1,
Magnetic chuck, characterized in that the attachment portion is formed protruding to the attachment to the clamp for fixing the workpiece on one side of the attachment. The method of claim 4, wherein
The clamp is
Magnetic chuck characterized in that it comprises a body through which the adjustment hole is formed horizontally, a coupling pin for coupling the coupling portion and the body and a fixing rod inserted into the adjustment hole to fix the workpiece to the first jig.

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