Gear cutting – milling – or planing – Milling – With means to remove chip
Reexamination Certificate
1999-05-24
2001-03-06
Bray, W. Donald (Department: 3725)
Gear cutting, milling, or planing
Milling
With means to remove chip
C015S339000, C015S415100, C083S098000, C083S100000, C144S135200, C144S252100
Reexamination Certificate
active
06196775
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to the machining of substrate materials such as plywood or other materials, and is more specifically directed to extracting chips from narrow slots during the machining thereof.
BACKGROUND OF THE INVENTION
The present invention finds utility in several different machining processes such as drilling or sawing wood or other substrates, and finds particular utility in the manufacture of die boards. Accordingly, and for convenience, the present invention will be described herein as being directed to such use.
Die boards are generally used to cut and/or crease one or more layers of sheet-type work material, such as cardboard, for use in the manufacture of various different articles. One such use, given here by way of example and not to be construed as limiting the present invention, is the fabrication of box and package blanks which after having been cut and creased by the die board, can be folded into finished boxes or product packages.
Usually, the die board consists of a base made from a thick piece of material such as plywood, that has a series of slots cut into it. These slots are arranged in a pattern corresponding, for example, to the outer periphery of a box or package blank, and the lines along which the blank must be folded to create the finished box or package. Rules, which generally consist of pieces of steel cut to lengths and/or bent to correspond to the slot length and configurations in the base, are then inserted into and protrude from the slots. The amount by which a particular rule extends from the slot depends on whether the rule will be employed to cut or crease the sheet material. Generally, during a cutting and creasing operation, the sheet material is positioned under the die board and pressure is applied to the board via a press, causing the rules to engage the sheet material, thereby cutting and creasing the sheet material.
In known methods of fabricating die boards, difficulties are often associated with the formation of the slots that must be cut into the die board base to accommodate the rules. Typically these slots are cut into the base in one of two ways; (1) using lasers, or (2) using a jig or band saw. The capital cost of a laser is generally very high, in addition, the use of lasers tends to be expensive and complex. A large amount of power is required to operate the laser, and the beam must typically be shielded using an inert gas. Another difficulty associated with using lasers is that the slots produced tend to have scalloped edges. When the rules are inserted into these slots, rather than having line contact between the slot edges and the rules; the rules engage the slot edges at discreet points corresponding to the “peaks” of the scalloped edge. This reduces the stability of the rule in the die-board, increasing the potential for inaccurate cutting and creasing when the die board is used. This problem is further exacerbated due to the fact that the heat associated with the laser tends to dry out the board resulting in dimensional distortion of the slots being cut and warping of the board. A further problem also attributable to the heat of the laser is that smoke is generated from the material being cut. The smoke causes environmental problems which must be addressed, resulting in further increases in operating expense.
When a jig or band saw is employed, a starting hole must be drilled at one end of the slot to facilitate insertion of the blade associated with the saw. This requires an additional operation, thereby adding to the cost associated with fabricating the die board. Furthermore, these slots are often cut by hand with the inaccuracies resulting from human error making it difficult to insert the die board rules into the slots. The potential human error can also result in inaccurate die cutting.
To address the above-described problems and difficulties, it has been proposed to employ rotary-type cutting tools such as router bits to cut the slots referred to by those skilled in the art as kerfs, into the die board. However, a potential problem associated with the use of rotary cutting tools is that the cutting process tends to generate a large amount of chips which must be removed from the kerfs. Since the kerfs are often 0.030 inches wide or less, the chips tend to lodge therein and are difficult to remove.
Based on the foregoing, it is the general object of the present invention to provide an apparatus that removes chips generated from a machining process from the slots or kerfs cut into the die board.
SUMMARY OF THE INVENTION
The present invention is directed to an apparatus for extracting chips from slots cut into a substrate including, a cutter having a cutting implement mounted therein for cutting slots into the substrate. Injection means are also provided and are positioned proximate to the cutting implement to selectively direct a current of gas, preferably pressurized air, into the slots, while the cutter is operating. During a cutting operation, the injection means causes the chips generated by the cutting implement to be loosened from the slots. Vacuum means are also provided and positioned proximate to the cutting implement, to capture the chips loosened by the injection means. Pressurizing means supply the current of gas to the injection means so that the removal of the chips generated during a cutting operation can be facilitated.
In the preferred embodiment of the present invention, the injection means includes a body member coupled to the cutter and having at least one nozzle in gaseous communication with the pressurizing means. The nozzle is movable between an extended position where the nozzle tip is adjacent and directed at the slot being cut, and a retracted position wherein the nozzle is spaced away from the cutting implement. The nozzle is retractable to allow for the use of larger diameter cutting tools and to protect the nozzle from damage.
Preferably, the body member includes a first upper surface, and a second lower surface approximately parallel to the first upper surface. The second lower surface having at least one channel formed therein and extending at least part way across the second lower surface. A piston is slidably positioned in the channel and includes a mounting surface to which the nozzle is coupled, and an opposing pressure surface approximately perpendicular to the body member and having a bore extending therefrom and in communication with the nozzle. During operation, when gas is supplied to the channel, the gas impinges on the pressure surface causing the nozzle to move from the retracted to the extended position. The pressurized gas also flows through the bore and out of the nozzle, into the slot being cut.
Preferably, a first cover is mounted to, and coacts with the body member to define at least one vacuum plenum. A vacuum source draws the chips loosened by the nozzle through the vacuum plenum and away from the slot being cut. It is also preferable that the body member define a plurality of channels, each having a piston and nozzle located therein. In addition, the body member includes a groove formed in the first upper surface and a plurality apertures, each extending from the groove, into one of the channels. A second cover overlies the groove, such that the groove and the second cover coact to define a flow path for the gas, from the pressurizing means to each of the channels.
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Aubin Paul D.
Strobel Wolfgang M.
Bray W. Donald
Gerber Scientific Products, Inc.
McCormick Paulding & Huber LLP
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