KR200479514Y1 - Packing member for blocking spaces between magnet chuck blocks - Google Patents

Abstract

The present invention proposes a simple structure for preventing the gap between the magnetic blocks constituting the electromagnet chuck by a clearance blocking member so as to prevent scrap or metal powder from flowing into the magnetic blocks, thereby simplifying the cleaning of the electromagnet chuck, There is an effect that the positional fixation of the position sensor can be accurately performed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a member for blocking an electromagnetic chuck block,

The present invention relates to a clearance blocking member for blocking an electromagnetic chuck block, and more particularly, to a clearance blocking member for preventing electromagnet chucks installed in horizontal and vertical spaces from entering scrap or metal powder into a space between magnetic blocks arranged in a matrix form, The present invention relates to a member for blocking a gap between blocks.

Generally, a chuck provided in a machine tool is an attached device of a machine tool which is installed on a table of a machine tool and serves to fix the workpiece.

Chucks for fastening workpieces are usually chucks, air chucks, collet chucks, electromagnetic chucks, and the like.

Unlike other chucks, the electromagnet chuck can easily fix the workpiece without using a separate member. Recently, an electromagnet chuck having a combination of an alnico magnet made of aluminum (Al), nickel (Ni), and a cobalt (Co) alloy and a rare earth magnet made of neodymium and ferrite has been proposed. Since the electromagnet chuck generates a considerably large magnetic force, the function of fixing the workpiece by the magnetic field is excellent.

An example of the above-described conventional electromagnet chuck is disclosed in Korean Patent Publication B1 (registered trademark) No. 10-1030431 entitled "Magnetic Chuck"

As shown in FIG. 1 of this patent publication (B1), a magnetic chuck (10) has a magnetic block (30) arranged in a matrix form on a loading station (20).

2, the magnetic block 30 of the magnetic chuck 10 is fixed to the loading station 20 by a fastening means 38 such as a bolt. Here, the upper magnetic induction portion 34, the lower second permanent magnet portion 35 and the first permanent magnet portion 32 located therebetween constituting the magnetic block 30 are fixed by the fastening means 38 And is fixed to the loading station 20.

The second permanent magnet portion 35 of the magnetic block 30 is wrapped around the bobbin 37 on the side surface and the magnetizing coil 36 connected to the electrical connector 29 is wound on the outer side of the bobbin 37 have.

When the magnetic blocks 30 constructed as described above are fixed to the loading station 20 by the fastening means 38 and arranged in the form of a matrix there is a space between the magnetic blocks 30 and the magnetic blocks 30, Respectively. That is, the magnetic blocks 30 are separated from each other by the clearance T.

Since the magnetic blocks 30 are separated from each other by the clearance T, scrap or metal powder, which is inevitably generated at the time of machining the workpiece, flows into the clearance T.

However, if the scrap or metal powder is not completely removed from the magnetic block 30 of the magnetic chuck 10, the workpiece can be removed from the magnetic chuck 10 by scrap or metal powder remaining in the magnetic block 30 or in the magnetic block 30. [ So that the workpiece can not be precisely machined.

KR 10-1030431 B1

It is an object of the present invention to provide a member for blocking a gap between electromagnet chuck blocks which can effectively prevent a gap between magnetic blocks.

In addition, the present invention aims to provide a member for blocking the gap between the electromagnet chuck blocks, which is easily cleaned by the magnetic chuck.

The present invention relates to an electromagnet chuck in which magnetic blocks are arranged in a matrix form so as to constitute an electromagnet chuck and a gap exists between the magnetic blocks,

The gap between the magnetic blocks is

A gap-blocking lateral member in which a concave groove is formed in a portion corresponding to a horizontal gap between magnets,

And the clearance is clogged by a gap-blocking longitudinal member having a concave groove formed in a portion corresponding to the longitudinal gap between the magnets.

The horizontal member and the vertical member are formed at the height of the gap, and at the portion where the magnetic block intersects the horizontal and vertical members, the concave groove of the crevice member is joined to the concave groove of the crevice member.

The present invention has the effect of preventing the scrap or metal powder from flowing into the gap by blocking the horizontal and vertical gaps between the magnetic blocks constituting the electromagnet chuck, thereby simplifying the cleaning and allowing the workpiece to be accurately supported.

1 is a perspective view showing a conventional electromagnet chuck (magnetic chuck);
Fig. 2 is a partially exploded perspective view partially showing a magnetic block constituting the electromagnet chuck of Fig. 1; Fig.
3 is a plan view showing a state in which a slit member is not engaged with the electromagnet chuck of the present invention;
Fig. 4 is a partially exploded perspective view showing that a clearance blocking member is coupled to a gap between magnetic blocks provided on the electromagnet chuck of the present invention; Fig.
5 is a cross-sectional view showing a concave groove portion of a crevice tool longitudinal member in another embodiment of the crevice member of the present invention.
Figure 6 is a cross-sectional view of another embodiment of Figure 5;
Figure 7 is a cross-sectional view of yet another embodiment of Figure 5;

1 to 5, a detailed description will be given of a member for blocking a gap between electromagnet chuck blocks according to the present invention.

The packing between the electromagnet chuck blocks of the present invention is configured to block the gap between the magnetic blocks 100 arranged in a matrix form.

As illustrated in FIG. 1, the magnetic blocks 100 and 200 arranged in a matrix form,

The clearance grooves 210 are formed to be spaced apart from each other in the gap blocking lateral member 200 having a length corresponding to the dimension of the lateral clearance T1 so as to cover the gap T1 formed in the transverse direction of the magnetic block 100. [

The concave grooves 210 are formed corresponding to the lateral spacing when the magnetic blocks 100 are arranged in the transverse direction.

 In the absence of the concave groove 210, the gap-blocking longitudinal member 300 can not be joined to a portion where the longitudinal gap T2 and the lateral gap T1 cross each other.

The concave grooves 310 are also formed in the crevices longitudinal members 300 corresponding to the concave grooves 210 of the crevice members 200 formed along the lateral direction of the magnetic block 100.

Of course, the slit-like longitudinal members 300 are also formed corresponding to the dimension of the longitudinal slit T2 formed in the longitudinal direction of the magnetic block 100, as in the case of the slit-

The recessed grooves 210 and 310 of the gap blocking lateral member 200 and the gap blocking longitudinal member 300 are formed so as to have a crossing gap T3 in which the lateral gap T1 overlaps the longitudinal gap T2, As shown in FIG.

Meanwhile, the slit member of the present invention may be configured in other forms as shown in the cross-sectional views in FIGS. 5 to 7.

For example, as shown in FIG. 5, the protrusion 410 may be formed on the upper side surface of the crevice sheet longitudinal member 400. Reference numeral 420 is a side wall portion of the concave groove when cut horizontally in the concave groove portion.

As shown in FIG. 6, the slit longitudinal member 500 may be formed with an obtuse-shaped shallow groove 510 adjacent to the upper side. Reference numeral 520 denotes a side wall portion of the concave groove when cut laterally in the concave groove portion.

As shown in FIG. 7, a plurality of protrusions 610 may be formed on the upper side surface of the slit longitudinal member 600 and adjacent thereto. Reference numeral 620 denotes a side wall portion of the concave groove when cut horizontally in the concave groove portion.

The protrusions 410, the grooves 520 and the plurality of protrusions 610 illustrated in the embodiments of FIGS. 5 to 7 are formed by combining the gap blocking lateral members 200 in the gap between the magnetic blocks arranged in a matrix form So that sealing of the gap is ensured when the slit members (300, 400, 500, 600) are joined to the slit members (300, 400, 500, 600).

The crevice members of the present invention can be appropriately configured to fit the clearance between the magnetic blocks arranged in a matrix form.

A crevice member blocking the clearance between the electromagnet chuck blocks of the present invention can be used to block conventional electromagnet chuck blocks.

100: electromagnet chuck
101: Magnetic block
200: Slit member
210: concave groove
300: slit-proof longitudinal member
310: concave groove
400, 500, 600: (other forms)
410: projection
510: shallow groove
610: (plural) projection

Claims (3)

delete In an electromagnet chuck in which magnetic blocks 101 are arranged in a matrix so as to constitute an electromagnet chuck and a gap exists between the magnetic blocks 101,
The gap between the magnetic blocks 101 arranged in a matrix form is
A gap blocking lateral member 200 in which a concave groove 210 is formed in a portion corresponding to a horizontal gap between the magnetic blocks 101 arranged in a matrix form,
(300) having a concave groove (310) formed in a portion corresponding to a longitudinal gap between the magnetic blocks (101) arranged in a matrix form,
The gap member 200 and the gap member 100 are formed to have a height of a horizontal gap T1 or a vertical gap T2 between the magnetic blocks 101 arranged in a matrix form, The concave groove 310 of the slit longitudinal member 300 is coupled to the concave groove 210 of the gap blocking lateral member 200 at the intersectional space T3 where the magnetic block 101 crosswise and longitudinally Characterized in that the gap between the electromagnet chuck blocks. The method of claim 2,
The slit longitudinal member 300 includes a slit longitudinal member 400 having a protrusion 410 formed on an upper side thereof, a slit longitudinal member 500 formed with an obtuse-shaped shallow groove 510 adjacent to the upper side, Is formed as one of the clearance blocking longitudinal members (600) formed with a plurality of protrusions (610) adjacent to the electromagnet chuck blocks.

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