JP7088968B2 - Drill for magnetic material that fills through holes in the substrate - Google Patents

Description

The present invention relates to a drill for further forming a through hole in a magnetic material filled in a through hole of a substrate used for a core substrate or the like of a printed wiring board.

In general, the printed wiring board has a problem of warpage of the substrate due to the multi-layered structure, and in order to prevent this warpage, the core substrate may contain glass fiber as a reinforcing fiber in the insulating resin.

Conventionally, for example, Patent Document 1 has proposed a drill having increased rigidity in order to drill a through hole for providing a through-hole conductor in such a glass fiber reinforced substrate, and this drill has a chip discharge groove. The number is only one, and the flanks at the tip of the cutting edge are multi-stepped so that at least one of the intersecting ridges between the flanks comes into contact with the work material.

Japanese Unexamined Patent Publication No. 2004-0342113

By the way, a through hole is further formed in the magnetic material filled in the through hole of the substrate used for the core substrate of the printed wiring board, and a through hole conductor is provided in the through hole by plating by electromagnetic induction of the magnetic material. It may suppress the current loss.

However, in the above-mentioned conventional drill, when a through hole is drilled in a magnetic material, smear is generated due to contact between the inner wall surface of the hole drilled by the drill and the outer peripheral surface of the drill, and the magnetic material is a material that cannot be desmeared. Therefore, there is a problem that a drill shape capable of suppressing the generation of smear is required.

An object of the present invention is to provide a drill for further forming a through hole in a magnetic material filled in a through hole of a substrate used for a core substrate or the like of a printed wiring board, and a drill capable of suppressing the generation of smear. To do.

The drill for a magnetic material for filling a through hole in a substrate of the present invention is a drill for further forming a through hole in a magnetic material filled in the through hole of the substrate.
The cutting edge on the tip side of the drill and
A neck portion connected to the base end of the cutting edge portion and having a diameter smaller than that of the cutting edge portion,
A single main groove formed spirally from the tip of the cutting edge portion to the neck portion, and
A sub-groove formed only in the cutting edge portion along the main groove from the tip of the cutting edge portion to the portion connected to the neck portion is provided.
The cutting edge portion has a reduced diameter from the maximum diameter portion near the tip thereof toward the base end , and has a fillet shape at a portion where the cutting edge portion is connected to the neck portion .

It is a side view which shows one Embodiment of the drill for a magnetic material for filling a through hole of a substrate of this invention. It is a front view which shows the cutting edge part of the drill for the magnetic material for filling a through hole of the substrate of the said embodiment in an enlarged manner. It is explanatory drawing which shows the inclination of the peripheral surface of the cutting edge portion of the drill for a magnetic material for filling a through hole of a substrate of the said embodiment.

Hereinafter, an embodiment of a drill for a magnetic material for filling through holes in a substrate of the present invention will be described with reference to the drawings. FIG. 1 is a side view showing an embodiment of a drill for a magnetic material for filling a through hole in a substrate of the present invention. FIG. 2 is an enlarged front view showing a cutting edge portion of a drill for a magnetic material for filling a through hole in a substrate according to the above embodiment. FIG. 3 is an explanatory diagram showing the inclination of the outer peripheral surface of the cutting edge portion of the drill for a magnetic material for filling through holes in the substrate of the above embodiment.

The drill for a magnetic material for filling a through hole in a substrate of this embodiment, which is indicated by reference numeral 1 in the figure, further has a through hole in a magnetic material such as ferrite filled in the through hole of the substrate used for the core substrate of a printed wiring board or the like. A shank 2 gripped by a chuck or the like of a machine tool, and a drill body 3 arranged on the same axis as the shank 2 and integrally coupled to the shank 2. The drill body 3 has a cutting edge portion 4 on the tip side of the drill and a neck portion 5 having a diameter smaller than that of the cutting edge portion 4 connected to the base end of the cutting edge portion 4, and is an undercut type. ..

The outer diameter of the maximum diameter portion near the tip of the cutting edge portion 4 is, for example, 0.15 mm, and the cutting edge portion 4 is reduced in diameter from the maximum diameter portion toward the base end of the cutting edge portion 4, for example, at an angle θ = 1 to 20 °. The outer diameter of the neck portion 5 is set to, for example, 0.14 mm. Further, the cutting edge portion 4 has a cutting edge 6 facing forward in the drill rotation direction T, as in a normal drill.

The drill body 3 has only one main groove 7 formed spirally with a predetermined helix angle from the tip of the cutting edge portion 4 to the neck portion 5 for chip discharge, and the drill body 3 is formed along the main groove 7 from the tip of the cutting edge portion 4. It has a sub-groove 8 formed only in the cutting edge portion 4, and the sub-groove 8 ends at a portion 10 of the cutting edge portion 4 connected to the neck portion 5 and joins in the middle of the main groove 7. ..

The cutting edge portion 4 has a tip flank surface 9 as in a normal drill. The tip flank surface 9 has a single surface shape in the illustrated example, but may have a multi-step surface shape arranged in the circumferential direction with respect to the axis O. Further, the portion 10 of the cutting edge portion 4 connected to the neck portion 5 may have a fillet shape (R shape) in order to alleviate stress concentration during drilling.

According to the drill for a magnetic material for filling a through hole of a substrate of this embodiment, the main groove 7 is provided only in one groove, and the sub-groove 8 is provided only in the cutting edge portion 4 so as to join in the middle of the main groove 7. Since it has higher rigidity than a drill, it can be used for drilling to further form through holes in a magnetic material such as ferrite filled in the through holes of a substrate used for a core substrate of a printed wiring board. A long life and high hole position accuracy can be achieved.

Moreover, the cutting edge portion 4 has a reduced diameter from the maximum diameter portion near the tip thereof toward the base end of the cutting edge portion 4 , and the so-called margin portion from the maximum diameter portion to the base end of the cutting edge portion 4 faces the axis O. Since it escapes in a back taper shape, the inner wall surface of the hole drilled by the drill and the outer peripheral surface of the drill are as in the conventional case when drilling the through hole in the magnetic material filled in the through hole of the substrate. Since it does not make surface contact with the surface but makes line contact at its maximum diameter, it is possible to suppress the generation of smear on a magnetic material that cannot be desmeared.

1 Drill for magnetic material that fills through holes in the board 2 Shank 3 Drill body 4 Cutting edge 5 Neck 6 Cutting edge 7 Main groove 8 Sub-groove 9 Tip flank 10 Part connected to neck O-axis

Claims (2)

A drill for a magnetic material filled with a through hole in a substrate for further forming a through hole in the magnetic material filled in the through hole of the substrate.
The cutting edge on the tip side of the drill and
A neck portion connected to the base end of the cutting edge portion and having a diameter smaller than that of the cutting edge portion,
A single main groove formed spirally from the tip of the cutting edge portion to the neck portion, and
A sub-groove formed only in the cutting edge portion along the main groove from the tip of the cutting edge portion to the portion connected to the neck portion is provided.
The cutting edge portion has a reduced diameter from the maximum diameter portion near the tip thereof toward the base end , and has a fillet shape at a portion where the cutting edge portion is connected to the neck portion . The drill for a magnetic material for filling a through hole in a substrate according to claim 1.
The angle at which the diameter is reduced from the maximum diameter portion of the cutting edge portion toward the base end is 1 ° to 20 °.

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