Method for the manufacturing of a saw blade

Metal tools and implements – making – Blank or process – Saws

Reexamination Certificate

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Reexamination Certificate

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06470772

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention relates to the manufacturing of a saw blade, comprising a cutting blade, on which a cranked mounting part protruding with respect to said cutting blade is provided, in which a mounting opening for fastening on a motor shaft is provided.
The invention further relates to a saw blade, comprising a cutting blade on which a cranked mounting part protruding with respect to said cutting blade is provided, in which a mounting opening for fastening on a motor shaft is provided.
RELATED PRIOR ART
From DE 296 05 728 U1, such a saw blade and a method for the manufacturing of such are known. Such saw blades are particularly used in the connection with an oscillating drive, the motor shaft of which oscillates with high frequency around the longitudinal axis of the saw blade to accomplish special cutting tasks. As the mounting part is cranked, it is herewith ensured that no mounting elements protrude over the plane of the cutting blade.
With such saws, it is possible to saw particularly car body sheets and other sheets up to a sheet thickness of about 1 mm without problems, whereby a danger of injury is excluded due to the oscillating drive. Moreover, such saws are suitable to cut wood and plastic reinforced by glass fibers. The known saw blades consist of a plain, circle-shaped cutting blade, the center of which has a central mounting opening preferably with a polyhedral for positive fitting to the motor shaft.
According to DE 296 05 728 U1 mentioned at the outset, the saw blade is made of a plain circle-shaped cutting blade, which consists of hardened steel, e.g. of HSS steel, and of a centrally cranked mounting part, in which the receptacle opening is provided. The mounting part is welded onto the cutting blade with a circulating laser weld seam to reach a material-fit connection between cutting blade and mounting part.
It has turned out, however, that in spite of the laser welded connection between cutting blade and mounting part a sufficiently durable connection between both parts is not always guaranteed. For example, when the load is high, the mounting part may be detached from the cutting blade, so that the saw blade cannot be used any more.
SUMMARY OF THE INVENTION
It is therefore the object of the invention to avoid the disadvantages mentioned above and, in particular, to create a stable saw blade as mentioned at the outset which avoids the danger of detaching between cutting blade and mounting part.
Moreover, a suitable method for the manufacturing of such a saw blade shall be disclosed which allows a reliable and cost-effective manufacturing.
With reference to the method, the object of the invention is achieved, according to the invention, by a method comprising the following steps:
(a) cutting a blank out of hardenable steel sheet;
(b) forming said blank to produce the cranked mounting part;
(c) cutting out the mounting opening;
(d) stacking a plurality of blanks manufactured according to steps (a) to (c) and clamping in a fixture;
(e) heating said blanks f or austenization and subsequently quenching for hardening said blanks;
(f) annealing said blanks; and
(g) finish-machining, preferably polishing, said saw blades to produce saw teeth on its outer edges.
The object of the invention is further achieved by manufacturing the cutting blade and the mounting part in one piece from hardened steel, preferably of a rapid machining steel having the main alloy components tungsten, molybdenum, and cobalt.
The object of the invention is, in that way, completely achieved.
It has turned out, surprisingly, that it is possible to manufacture the cutting blade and the mounting part in one piece from hardened steel.
In the prior art, it had, generally, been assumed that such a saw blade had always to be manufactured from two parts, namely on the one hand from the plain cutting blade, which consists of hardened steel, and, on the other hand, from the cranked mounting part which h as been connected with the cut ting blade in a material-fit manner, e.g. by welding or bonding. The reason for this is that forming of such sheets, e.g. of HSS steel, which are difficult to form, has not been thought possible up to now.
According to the method according to the invention, it is now possible to manufacture the desired saw blade with a cranked mounting part in one piece from a hardenable steel sheet. By stacking a plurality of blanks after deep-drawing and cutting out the mounting openings and clamping the stack in a fixture, whereby e.g. blocks of approximately 100 to 200 blanks can be formed, a heat treatment can subsequently be performed leading to little warping of the blanks.
The saw blades manufactured in that way are distinguished by their distinctively improved mechanical stability in comparison to saw blades manufactured from two elements. In particular, the increased stiffness allows a better handling during cutting and sawing, particularly with free-hand creating of possibly straight cuts.
According to a preferred embodiment of the invention in step (d) adjacent blanks are separated from each other by inserting a washer therebetween.
Thus the blanks can be clamped together to form a solid block, thus yielding warp-free hardening thereafter.
Cutting out the blanks and cutting out the mounting openings is done preferably by stamping, so that a cost-effective working is reached.
Together with cutting out the mounting opening, in a preferred embodiment of the invention, also a rough-machining of the blanks on their outer edges, preferably by stamping, can be carried out.
This facilitates the later forming of the saw teeth on the outer edges.
Forming the blanks according to step (b) can be done by deep-drawing, pressing, bending, or hydraulic forming.
In this procedure, pressing, which is particularly suitable for forming of rotation symmetric parts, or deep-drawing are preferred.
Moreover, it is possible to heat the blanks for forming, so that strain-hardening during the forming process and an inclination to stress cracks connected therewith is prevented.
Deep-drawing blanks in cold state for forming of the cranked mounting parts is preferably done with a slow advance and with a high force of pressure to prevent cracks from being formed during and after the forming process.
In a preferred improvement of the method according to the invention, within 24 hours, preferably within 12 hours, even better, however, within 6 hours after forming the blanks, a recrystallization annealing of the blanks is started.
It has turned out that, in that manner, stress cracks can be avoided, which, otherwise, would occur already after one or two days due to aging processes after the previous forming.
In this procedure, cutting out of the mounting opening out of the mounting part which is preferably reached by stamping is also done, possibly directly after forming, to avoid stress cracks from being formed.
If hot forming is done, recrystallization annealing may be omitted.
The geometry of the cranking of the mounting part is preferably selected in such a way that the saw blades, for hardening and tempering, can be clamped together gap-free.
In that way, warping is kept very low during the hardening and tempering process.
According to a preferred improvement of the method according to the invention, the blanks, after the heat treatment, according to step (e) in a state still clamped together are finish-machined, preferably polished, in order to create the saw teeth in a cost-effective manner.
For the manufacturing of the saw blades, preferably a rapid machining steel is used, preferably having the main alloy components tungsten, molybdenum and cobalt, e.g. a HSS steel with the composition of 0.8 to 0.95 wt.-% C, 3.8 to 4.7 wt.-% Cr, 4.5 to 5.5 wt.-% Mo, 1.7 to 2.1 wt.-% V, 5.8 to 7 wt.-% W with rest Fe, whereby e.g. the alloy type 33 34.0 by BÖHLER STAHL Deutschland GmbH, Düsseldorf, can be used, which contains 0.87 wt.-% C, 4.3 wt.-% Cr, 5 wt.-% Mo, 1.9 wt.-% V, 6.4 wt.-% W with reminder Fe.
The blanks are preferably cut out of a sheet of a thickness of approximately 0.7 to 1.5 m

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