The invention concerns a tool for material-removing machining of high-strength workpieces according to the claims. The designation “high-strength materials” will be used below not only in reference to materials that by nature have a high degree of strength but rather also those which have a high degree of strength or hardness as a result of special treatment methods, in particular hardened workpieces such as hardened steels.
Tools of the type referred to here are known. They serve to machine workpiece surfaces, in particular drilled surfaces in workpieces to be machined which consist of high-strength materials. In order to remove the chips, the workpiece or the surface to be machined is brought past a blade plate of the tool so that the blade plate removes chips from the surface of the workpiece. In the machining of drilled surfaces, the workpiece is set in rotation and the stationary, also designated as tool is introduced into the drilled hole. It has been found that in the machining of high-strength materials, vibrations often occur which result in chatter. As a result, the machined surface of the workpieces does not have particularly good surface quality. That is, grooves and riffles can be detected which in many cases are not acceptable.
The task of the invention therefore is to create a tool of the type mentioned which does not have these drawbacks. To solve this task, a tool of the type mentioned above is proposed which has the features mentioned in the claims. It is distinguished in that the blade plate is fastened to the tool with the aid of a clamping lug which engages in a groove on the blade breast. The clamping lug presses the blade plate tightly against the tool or its base body. Because the blade plate is provided with a groove, it is ensured that it can be fixed to the tool in a specified position which makes possible vibration-free machining of the workpiece.
An exemplary embodiment of the tool is preferred which is distinguished in that its base body has a projection which serves as a support. This projection is configured so that it supports the blade plate practically over its entire back side, i.e., on the side turned away from the clamping lug. This results in the blade plate being held especially reliably to the tool and vibrations being avoided.
Especially preferred is an exemplary embodiment of the tool that is distinguished in that it is configured as one piece. This leads to a special stability of the tool and thus to a vibration-free application. In particular as a result of this, chattering can be reliably avoided during material-removing machining of workpieces. Additional embodiments are found in the other subclaims.
The invention will be explained in greater detail below with the aid of the drawings.
Tool 1 depicted in
On the side opposite the shaft, an area 9 of the base body is provided, the outside diameter of which is less than the portion lying between area 9 and shaft 5 of tool 1. In area 9, a blade plate 22, shown here in top view and triangular in form, is provided which, with the help of a clamping lug 13, is tightly fastened to base body 3 of tool 1. It is suggested through an x, at 15, that clamping lug 13 is fastened to base body 3 by means of a clamping screw. Around one third of blade plate 11 projects over the circumferential surface 17 of area 9 of tool 1 and in the area which projects the farthest has a cutter 19. It is suggested here by crosshatching that in the area of cutter 19, an insert 21 is provided which is distinguished through a special hardness and resistance to wear. It can be of ceramic material, diamond, or CBN.
Blade plate 11 is rounded in the area of cutter 19. Here there is a radius of curvature of 2.2 mm to 2.7 mm. A radius of curvature of approximately 2.5 mm has proven especially effective, being distinguished in that the blade plate is very stable and has little susceptibility to breakage and in particular induces little vibration when a workpiece of high-strength material is machined. In addition, as a result of the rounding in the area of cutter 19, it is ensured that in the machining of interrupted drilled surfaces, the cutter is not damaged.
The area of clamping lug 13 facing away from cross mark 15, which area is also designated clamping lip 23, rests on the front side of blade plate 11 which faces the observer and which in the contact area with clamping lip 23 is provided with a preferably continuous groove 25. Groove 25 serves to hold blade plate 11 by means of positive fit. It can be fabricated in blade plate 11 in a simple manner through a grinding process.
Groove 25—viewed from above—runs essentially parallel to the middle axis 27 of tool 1 and is arranged as close as possible to cutter 19 in order to minimize the chance of vibrations. As a result of the interplay between groove 25 and clamping lip 23 it is ensured that blade plate 11 is held secure against twisting on base body 3 of tool 1. As a result, cut properties which have once been specified are reliably retained and chattering or vibrations are avoided.
Area 9 of base body 3 is provided on the side opposite blade plate 11 with a sloping area 29 which facilitates introduction of tool 1 into a drilled hole to be machined.
In
It is clear from the depiction according to
It can be seen in the top view in accordance with
The top view according to
Above middle axis 27, in the area of blade plate 11 and adjoining to the left, a recess is provided in base body 3 of too 11 which serves as chip space 47. Chips which are removed from the workpiece run into this area. Preferably clamping lug 13 is arranged sunk in base body 3 of tool 1 such that it does not project into chip space 47 and does not negatively impair the flow of chips.
It can be seen from
In the top view according to
In
It can be seen from
It is suggested with dashed lines in
In the scaled-down depiction according to
It is clear from the enlarged depiction of blade plate 11 that for practical purposes it is not weakened through groove 25. Since blade plate 11 in addition is not penetrated by a clamping screw which otherwise is usual, it is very stable, which likewise leads to low-oscillation machining of workpieces and significantly increases tool life.
Let it be expressly pointed out here that base body 3 of tool 1 is configured as one piece. Thus this means that shaft 5 transitions over the middle section of tool 1, which is distinguished by a relatively large outside diameter, into the area 9 with a smaller diameter in which blade plate 11 is mounted. As a result of the one-piece configuration of tool 1 it is ensured that during machining of a workpiece of blade plate 11 can be introduced with particular low oscillations into the holder of tool 1 so that chattering and oscillations can be avoided with high reliability during machining of the tool 1. Blade plate 11 therefore is very stable and is very low in oscillations in the machining of workpieces because it is held by means of a clamping lug and not by means of a screw penetrating through the blade plate.
Tool 1, which was explained with the aid of
Number | Date | Country | Kind |
---|---|---|---|
101 13 707 | Mar 2001 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
1396180 | Fors | Nov 1921 | A |
3027786 | Severson | Apr 1962 | A |
3354526 | Erkfritz | Nov 1967 | A |
3574911 | Penoyar | Apr 1971 | A |
3597104 | Salcumbe | Aug 1971 | A |
3754309 | Jones et al. | Aug 1973 | A |
3868752 | Hopkins | Mar 1975 | A |
3887974 | Sorice | Jun 1975 | A |
3896532 | Brooks | Jul 1975 | A |
3934320 | McCreery | Jan 1976 | A |
4697963 | Luck | Oct 1987 | A |
5031492 | Zinner | Jul 1991 | A |
5079979 | Pano | Jan 1992 | A |
5100269 | Lyon et al. | Mar 1992 | A |
5211516 | Kress et al. | May 1993 | A |
5810518 | Wiman et al. | Sep 1998 | A |
5988952 | Antoun | Nov 1999 | A |
6000885 | Erickson | Dec 1999 | A |
6196774 | Minshall | Mar 2001 | B1 |
6332385 | Kautto et al. | Dec 2001 | B1 |
6379087 | Alexander, IV | Apr 2002 | B1 |
6503030 | Kress et al. | Jan 2003 | B1 |
Number | Date | Country |
---|---|---|
195 21 599 | Dec 1996 | DE |
19521599 | Dec 1996 | DE |
198 54 873 | May 2000 | DE |
76 21211 | Feb 1978 | FR |
55065004 | May 1980 | JP |
59224203 | Dec 1984 | JP |
WO 91.14528 | Oct 1991 | WO |
Number | Date | Country | |
---|---|---|---|
20020141834 A1 | Oct 2002 | US |