EP2793714A1

EP2793714A1 - Rotary reciprocating saw blade for a power tool

Info

Publication number: EP2793714A1
Application number: EP12783594.0A
Authority: EP
Inventors: Milan Bozic
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2011-12-20
Filing date: 2012-11-07
Publication date: 2014-10-29
Also published as: TW201334896A; WO2013091982A1; DE102011089106A1

Abstract

A rotary reciprocating saw blade (1) for a power tool comprises a blade body (2) having a cutting edge (4), at least one embossed structure (12) being introduced into the side face of the blade body (2), said embossed structure delimiting a recess (15) in the blade body (2).

Description

description

title

The invention relates to a rotary oscillating saw blade for a machine tool according to the preamble of claim 1.

PRIOR ART EP 1 263 333 B1 describes a submerged saw blade for a machine tool which performs an oscillating rotational movement during operation. The immersion saw blade has an approximately rectangular master blade which is provided at one end with a support portion for connection to the tool shaft and at the other end with a cutting edge with cutting teeth. In the side surface of the stem blade between the receptacle for the tool shaft and the cutting edge a plurality of small-scale impressions are introduced, which should help to reduce the Aufschwenkverhalten of the saw blade during operation and to increase the cutting precision. The indentations have a relatively low embossing depth and can be designed as rectangles, circles or triangles, the non-circular geometries having an angular orientation to the longitudinal axis of the immersion saw blade. Overall, a large number of imprints are introduced into the side surface.

Disclosure of the invention

The invention is based on the object with simple constructive measures a Drehoszillationssägeblatt for a dip saw in such a way that over a long period of operation, a precise workpiece machining is possible. This object is achieved with the features of claim 1. The dependent claims indicate expedient developments. The invention relates to a rotary oscillating saw blade in the form of a submerged saw blade, which can be used in machine tools, in particular in hand-held machine tools and performs a rotational oscillatory movement during operation. The submerged saw blade has an eg circular-segment-shaped or rectangular or at least approximately rectangular shaped master blade whose one side edge is designed as an at least approximately straight-line, possibly slightly curved cutting edge with cutting teeth.

In at least one side surface of the master blade at least one indentation is introduced, which is preferably formed linear or strip-shaped and extends for example in the direction of the cutting edge. The embossing changes the tension characteristics of the master blade, whereby both the natural frequency of the plunger blade and the propagation of vibration waves are positively influenced. An overlap of the natural frequencies of master blade and machine tool can be prevented, which leads to a reduced oscillation of the master blade in the region of the cutting edge with the cutting teeth. Overall, the vibration and noise development is reduced, so that in addition to an improvement in comfort and the processing quality is increased. Due to the lower loads that the dipper blade is subject to, the improved quality of work can be maintained over a longer period of use. In the master sheet at least one recess is introduced, which is limited by at least one impression. The recess, which can be produced for example by punching, reduces the moment of inertia of the master blade, which has a positive effect, in particular with regard to a lower vibration transmission, on the service life and ease of use. In addition, smaller sized drive motors can be used. The impression in the master blade counteracts a reduction in stability caused by the recess. Thus, the combination of recess and indentation can combine various advantages, namely a reduced mass or moment of inertia and improved stability with reduced vibration propagation. Advantageously, a plurality of recesses are introduced into the master blade, which are bounded in each case by at least one, preferably line-shaped or strip-shaped indentation. It may be appropriate to provide on at least two sides of a recess, optionally on all sides of the recess Einpragungen to counteract the reduction in stability through the recesses.

There are different cross-sectional geometries of the recesses in traditional, in particular angular, for example triangular or rectangular

Geometries.

The imprint can be generated by embossing; In this case, an indentation in the form of a depression is present on a side surface of the master blade, whereas embossing on the opposite side surface produces a corresponding elevation.

But it is also possible to produce the impression by rolling, in particular by simultaneous rolling on both side surfaces of the master blade, so that impressions in the form of depressions are arranged on both side surfaces and the material is compacted in the master blade in the region of the impression.

The indentations have an embossing depth of preferably at least 0.1 mm. The imprint leads to a solidification in the master sheet and, consequently, to a changed voltage property. On the other hand, if the indentations are produced by rolling, the embossing depth is preferably at most a maximum of 0.2 mm, for example 0.1 mm, and may optionally be in the hundredth millimeter range, for example 0.01 mm.

Advantageously, the strip-shaped or linear embossing extends in the longitudinal direction of the master blade, that is orthogonal to the cutting edge. The embossment can extend over at least a large part of the length of the master blade, which ensures that the embossing over a corresponding distance in the master blade leads to a material hardening. The embossing can be arranged immediately adjacent to the cutting edge, but optionally also with a greater distance from the cutting edge. Possible are also Einpragungen, possibly parallel to the cutting edge. Diagonal courses of the linear or strip-shaped embossing in the master sheet are also possible, in which the indentations between a corner edge of the

Extending cutting area and the diagonally opposite end of the stem blade. According to an advantageous embodiment, a plurality of linear or strip-shaped embossments are introduced into at least one side surface, which can run parallel to one another or are arranged at an angle and can optionally intersect. If the master blade has one or more linear or strip-shaped indentations on both opposite side surfaces, then these are preferably arranged mirror-symmetrically to one another on the left and right side surfaces of the master blade.

Basically, it is sufficient to form the impressions in line form with a small width. But there are also strip-shaped impressions with a width of, for example, a maximum of 3 mm in the case of introduced by rolling impression into consideration, in the case of indentations that are produced by embossing, widths are possible.

The linear or strip-shaped impressions can be straight or curved.

The master blade is preferably connected to a support member, which may be designed as a separate component and via which the connection with the tool shaft. The support member may be either flat or bent with a shaft receiving portion for connection to the tool shaft and a connecting portion for connection to the

Master blade, shaft receiving portion and connecting portion offset in parallel and lie at different heights to each other and are connected to each other via a sloping transition section.

Further advantages and expedient embodiments can be taken from the further claims, the description of the figures and the drawings. 1 shows a rotary oscillating saw blade in the form of a submerged saw blade with an approximately rectangular master blade whose front edge is designed as a cutting edge with cutting teeth, and with a retaining blade. tion part for attachment to a tool shaft, and with several indentations in the master sheet, which limit intermediate recesses,

2 shows a similar embodiment as FIG. 6, but with different geometry of the recesses and the limiting imprints,

Fig. 3, the master sheet of a diving saw blade in section.

In the figures, the same components are provided with the same reference numerals.

The illustrated in Fig. 1 plunger blade 1 for a hand tool with rotary oscillation drive comprises an at least approximately rechteckformiges or circular segmental master sheet 2 and connected to the master sheet 2, cranked support member 3. At the free, the support member 3 facing away from the end face sheet 2 with a cutting edge 4 provided with cutting teeth. The mounting part 3 comprises a shaft receiving portion 9 with a mounting receptacle 5 for receiving the tool shaft 6 of the machine tool, which performs a rotational oscillating movement about the axis of rotation 7. The fastening with the tool shaft 6 takes place by means of latching openings 8, which are introduced annularly around the central fastening recess 5 in the shaft receiving section 9.

The support member 3 further comprises a transition portion 10 and a connecting portion 1 1, via which the connection to the master sheet 2 takes place; Master sheet 2 and support part 3 are designed as separate components, but they are firmly connected. The shaft receiving portion 9 and the connecting portion 1 1 are offset parallel to each other, the height difference is bridged by the inclined transition portion 10. The shaft receiving portion 9, the transition portion 10 and the connecting portion 1 are integrally formed.

1, the master blade 2 of the immersion saw blade 1 has a plurality of recesses 15a to 15f, which completely pass through the master blade orthogonally to the master blade plane. in principle but are also possible recesses in the form of depressions in the master sheet 2, which does not fully enforce the master sheet; In this case, the recesses may be arranged either only on a side surface of the master blade 2 or on both side surfaces, in each case in a mirror-symmetrical or asymmetrical manner.

By introducing the recesses 15a to 15f, the mass and the moment of inertia of the master blade and the dipping saw blade are reduced. In order to at least partially compensate for the stiffness weakening associated with the recesses, indentations 12a to

Introduced 12d, which are preferably arranged only on a side surface of the master sheet. The embossments 12a to 12d are applied in particular to the side surface in such a way that the recesses 15a to 15f are delimited by the embossments at a plurality of, preferably on all sides. The indentations cause an increase in strength.

The impressions are preferably produced by embossing; In this case, indentations in the form of a depression of at least 0.1 mm are present only on one side surface of the master blade, whereas embossing on the opposite side surface produces a corresponding increase. However, the indentations can also be produced by rolling, so that mirror-symmetrically introduced indentations are present on both opposite side surfaces of the master blade, which results in a compaction of the master blade material. With the production of the impressions 12 no material is removed from the master sheet.

In the side surface of the master blade 2 two parallel indentations 12a, 12b are introduced, which are rectilinear and strip-shaped and in the longitudinal direction of the master blade 2 - at least approximately orthogonal to the cutting edge 4 - extend.

The two impressions 12a, 12b extend until shortly before the cutting edge 4, they have the cutting edge 4 at a small distance. In the opposite direction, the indentations 12a, 12b can extend up to the connecting portion 11 on the support part. According to FIG. 1, the master blade is at least approximately rectangular. A total of six recesses 15a to 15f are introduced into the master blade, which are each delimited on at least two sides by indentations 12a to 12d. There are two diagonally extending, curved embossments 12a, 12b provided, further a straight, in the middle of the cutting edge 4 extending indentation 12c and adjacent to the cutting edge 4 and parallel to this indentation 12d. The recesses 15a to 15f are each triangular in shape.

In the embodiment shown in FIG. 2, six recesses 15a to 15f are also introduced into the master blade 2, which has a constricted portion for weight saving in the transverse direction, whose width is less than in the region of the cutting edge 4 and in the region of the connection with the connecting portion 1 1 am There are a total of four indentations 12a to 12d provided with a longitudinally extending indentation 12a extends centrally and three orthogonal thereto extending, parallel to the cutting edge 4 arranged indentations 12b, 12c, 12d are provided. The recesses 15a to 15f are each approximately square-shaped and each bounded on two sides of indentations.

As can be seen from the sectional view according to FIG. 3 through the master sheet 2, each embossment 12a, 12b, 12c in the form of a depression on a side surface of the master blade causes a corresponding elevation 16a, 16b, 16c on the opposite side surface. The depressions or elevations limit intermediate recesses 15a, 15b.

Claims

claims

1 . Rotationally oscillating saw blade for a machine tool, in particular for a hand tool, comprising a master blade (2) having an at least approximately rectilinear cutting edge (4), wherein at least one embossment (12) is introduced into a side surface of the base blade (2), characterized in that at least one recess (15) in the master sheet (2) is introduced, which is bounded by at least one impression (12).

2. Saw blade according to claim 1, characterized in that a plurality of recesses (15) in the master sheet (2) are introduced, wherein at least two recesses (15) of one or more impressions (12) are separated.

3. Saw blade according to claim 1 or 2, characterized in that the recess (15) passes completely through the master blade (2) transversely to the sheet plane.

4. Saw blade according to one of claims 1 to 3, characterized in that the recess (15) on all sides of indentations (12) is limited.

5. Saw blade according to one of claims 1 to 4, characterized in that the indentation (12) is formed linear or strip-shaped.

6. Saw blade according to one of claims 1 to 5, characterized in that in both side surfaces of the stem sheet (2) linear or strip-shaped impressions (12) are introduced.

7. Saw blade according to claim 6, characterized in that the indentations (12) on the two side surfaces of the stem blade (2) are directly opposite.

8. Saw blade according to one of claims 1 to 7, characterized in that the at least one impression (12) is introduced by embossing in the side surface of the stem sheet (2).

9. Saw blade according to one of claims 1 to 8, characterized in that in a side surface at least two indentations (12) are introduced.

10. Saw blade according to one of claims 1 to 9, characterized in that the depth of the indentation (12) is at least 0.1 mm.

1 1. Saw blade according to one of claims 1 to 10, characterized in that the width of the indentation (12) is at most 3 mm.

12. Machine tool, in particular hand tool with a

Rotary oscillating saw blade (1) according to one of claims 1 to 11.