Mult- purpose end-mill
A multi-purpose end-mill to be used for different machining purposes, in particularly useful for closed or open contours machining. The end-mill comprises a cylindrical shank portion connected to a first cutting portion provided with a plurality of spaced-apart cutting teeth and a second portion provided with a plurality of different spaced-apart cutting teeth.
The present invention relates to the machining of slots by use of a rotational cutting tool. More particularly, the invention provides an end mill, which can be used for different machining purposes by changing the distance between a thin workpiece and the end mill shank. This change is accomplished either by moving the workpiece or the cutter.
A common requirement is to machine a slot, straight or contoured, in a thin workpiece. “Thin” means that the machined item is usually no thicker than the tool diameter.
If the required slot reaches an outer edge of the workpiece, or the operation to be carried out comprises machining the outer edge, then the first operation is rough machining, leaving a little material for finishing, and the following operation is finish machining to the required size.
End-mills configured for rough machining are generally unsuitable for finish machining. During rough machining much material is removed, and the removal of chips from the cutting area requires adequate space between cutting teeth. Such space can only be provided when the number of teeth is low, typically 2-4 teeth depending on cutter diameter, and the core diameter of the tool is small, although still large enough to prevent tool breakage. The smaller core diameter may lead to minor loss of accuracy due to tool bending under pressure, but this is of little moment for roughing operations.
Conditions for finish machining are quite different. A larger number of teeth will produce a smoother finish, and as only small quantities of material are removed, little space is needed between teeth for chip clearance. Accuracy of cut is essential for finishing operations, and therefor a large core diameter is desirable to provide the necessary tool rigidity to produce smooth and accurate surfaces. In choosing an appropriate core diameter, there is always a need to balance the requirements of chip clearance and coolant access on the one hand, which call for a small core diameter, and the demand for tool rigidity and break resistance which require a large core diameter.
According to the recommendation of The Cincinnati Milling Machine Co., no more than two teeth at a time should be engaged in a cut. This rule corresponds well with our previous remarks. During roughing fewer teeth are preferred as the cut is deep; during finishing more teeth are desirable as the cut is shallow.
There are further differences between roughing and finishing tools. The ideal tooth helix angle of an end-mill is partly dependent on the number of teeth. A roughing cutter having few teeth (2-3) requires a large helix angle (about 25°) to reduce vibration. However a finishing cutter having more closely spaced teeth will produce a better finish with a more moderate helix angle; 10° is usual.
For these reasons the tool should be changed after completing the roughing cut and before starting the finishing operation and changed again for the roughing operation on the next workpiece. This is tiresome when done by hand, and still time consuming even when carried out by an automatic machine. The alternative is to complete all roughing cuts on all the workpieces, and then carry out the finish machining on the whole batch. This method however involves clamping and unclamping each workpiece, and aside from the time needed for this, there is greater risk of inaccuracy as a result of the workpieces not being clamped with the same force each time, or as a result of a chip lodged between the workpiece and a locating surface of the fixture or machine vice or table.
If the required slot does not reach an outer edge, then the first operation is drilling a hole to allow entry for the end-mill. Many end-mills are provided with cutting teeth at the end face of the tool, and it is possible to use such an end-mill for drilling. However such operation requires high pressure, machining time is extended and the hole produced could be oversize or even off its intended position. A drill can be used to produce the hole, but of course this involves more changeover time. After the hole is drilled, the slot is rough machined and then finish machined as described above.
In U.S. Pat. No. 4,411,563 Moon discloses an end mill provided more than one set of cutting teeth for the purpose of forming a plurality of steps at the closed extremity of a bored hole. Although the proposed cutting tool will carry out several machining tasks, there is no separate provision for rough and finish machining.
The same remark applies to the double diameter boring tool disclosed by Ashbaugh et al. in U.S. Pat. No. 4,793,745. The tool produces a bore with a stepped diameter at its closed end.
OBJECTS OF THE INVENTIONIt is therefore one of the objects of the present invention to obviate the disadvantages of prior art cutting tools and to provide an end mill which can be used for several needed different machining operations in a workpiece that is thin relative to the cutter tool diameter.
It is a further object of the present invention to save most of the time needed for cutter changing by use of a multi-purpose tool which executes different tasks in response to movement of the work table or the cutter spindle.
SUMMARY OF THE INVENTIONThe present invention achieves the above objects by providing a multi-purpose end-mill particularly useful for closed contour machining and usable for at least rough machining and finish machining, comprising a cylindrical shank portion to be gripped in a machine tool, said shank portion being connected to a first cutting portion comprising a core supporting a plurality of spaced-apart cutting teeth for a first type of machining, said first cutting portion being connected to a second cutting portion provided with a plurality of spaced-apart cutting teeth for a second type of machining.
In a preferred embodiment of the present invention there is provided a multi-purpose end-mill wherein said first type of machining is finishing, and said second type of machining is roughing.
In a most preferred embodiment of the present invention there is provided a multi-purpose end-mill further provided with a drill-like pointed cutting tip.
Yet further embodiments of the invention will be described hereinafter.
The cutter of the present invention can used for machining most metals, including stainless steel and high temperature alloys such as Inconel 718 and Rene 41. As with prior-art milling cutters, tooth clearance angle is about 4 degrees for hard materials, 6 degrees for softer metals and about 11 degrees for easy-to-machine materials. Rake angles (for a high speed steel cutter) are about 10 degrees for machining hard materials and up to 25 degrees for magnesium, aluminium and plastics.
It will be understood that, as with prior art cutters, the present tool, typically made of high speed steel, can be made partly of tungsten carbide where production quantities justify the cost. Also, coolant passages can be provided in the tool, as is sometimes found on prior art cutters.
SHORT DESCRIPTION OF THE DRAWINGSThe invention will now be described further with reference to the accompanying drawings, which represent by example preferred embodiments of the invention. Structural details are shown only as far as necessary for a fundamental understanding thereof. The described examples, together with the drawings, will make apparent to those skilled in the art how further forms of the invention may be realized.
In the drawings:
There is seen in
A cylindrical shank portion 12 is arranged to be gripped in a machine tool (not shown), such as a router or a milling machine, and in some types of work even a lathe or drilling machine.
The shank portion 12 is connected to a first cutting portion 14 comprising a core 16 supporting a plurality of spaced-apart cutting teeth 18 for a first type of machining.
The first cutting portion 14 is connected to a second cutting portion 20 provided with a plurality of spaced-apart cutting teeth 22 for a second type of machining.
Advantageously from considerations of core support diameter, the first type of machining is finishing, and the second type of machining is roughing. This is the arrangement in the shown embodiment. However, if special considerations so warrant, this order can be reversed.
Preferably the first cutting portion 14, which is the finishing portion has a larger number of teeth than the second cutting portion 20 which is the roughing portion. Conveniently the finishing portion 14 has double the number of teeth, for example 4 in the present embodiment, than the roughing portion 20 which has 2 teeth 22.
If a vertical axis milling machine is being used, movement in the Z axis to change between roughing and finishing can be accomplished by raising/lowering the work table, or it may be more convenient to raise/lower the cutter spindle.
If a horizontal axis milling machine is being used, the machine table is moved in the Y axis to change between roughing and finishing.
With reference to the rest of the figures, similar reference numerals have been used to identify similar parts.
Seen in
Referring now to
In the shown embodiment, the number (2) of cutting teeth 42 at the pointed cutting tip 38 corresponds to the number (2) of teeth 44 in the second cutting portion 46. The advantage therein is that the tip cutting edges 42 are well supported and that there are unobstructed paths for chip clearance between the teeth 44.
The scope of the described invention is intended to include all embodiments coming within the meaning of the following claims. The foregoing examples illustrate useful forms of the invention, but are not to be considered as limiting its scope, as those skilled in the art will readily be aware that additional variants and modifications of the invention can be formulated without departing from the meaning of the following claims.
Claims
1. A multi-purpose end-mill particularly useful for closed contour machining and usable for at least rough machining and finish machining, comprising a cylindrical shank portion to be gripped in a machine tool, said shank portion being connected to a first cutting portion comprising a core supporting a plurality of spaced-apart cutting teeth for a first type of machining, said first cutting portion being connected to a second cutting portion provided with a plurality of spaced-apart cutting teeth for a second type of machining.
2. The multi-purpose end-mill as claimed in claim 1, wherein said first type of machining is finishing, and said second type of machining is roughing.
3. The multi-purpose end-mill as claimed in claim 2, wherein said finishing portion has a larger number of teeth than said roughing portion.
4. The multi-purpose end-mill as claimed in claim 2, wherein said finishing portion has double the number of teeth than said roughing portion.
5. The multi-purpose end-mill as claimed in claim 2, wherein said finishing portion has a smaller helix angle than said roughing portion.
6. The multi-purpose end-mill as claimed in claim 1, wherein the core diameter of said end-mill varies along the axial length parabolically, the larger diameter being located near the shank and the smaller diameter being located near the tool tip.
7. The multi-purpose end-mill as claimed in claim 1, further provided with a drill-like pointed cutting tip.
8. The multi-purpose end-mill as claimed in claim 7, wherein the number of cutting teeth at said pointed cutting tip corresponds to the number of teeth in said second cutting portion.
Type: Application
Filed: Mar 3, 2002
Publication Date: Jun 2, 2005
Inventors: Avi Dov (Ma'alot), Vladimir Volokh (Ma'alot)
Application Number: 10/469,768