DD217753A1 - CUTTING TOOL, ESPECIALLY KNIVES WITH WAVELENGTH - Google Patents

Abstract

The invention relates to a cutting tool, in particular knife with serrated edge whose cutting edge is preferably made of steel, which allows the continuous as well as the discontinuous cutting of the material to be cut. The object of the invention is to replace the selective view of the properties of a cutting edge by a complex approach. The invention shows a solution, as by the combination of part properties, which are used simultaneously or partially, high cutting properties, such as cutting ability and cutting edge, without reworking the cutting over a maximum time to be ensured. The use of the inventive cutting tool is mainly in the household and tool industry for the production u. a. of household appliances, cutlery and cutlery possible. Fig. 1

Description

Title of the J invention

Cutting tool, especially knife with serrated edge

AnwendungsgebI ₁ et _mii the invention _niti "·.

The invention relates to a cutting tool, in particular knife with serrated edge whose cutting edge is preferably made of steel, which allows the continuous as well as the discontinuous cutting of the material to be cut, and that, by setting specific parameters of the cutting edge, high cutting properties, such as cutting ability and Cutting capacity, without reworking the cutting edge < guaranteed over a maximum time »The use of the cutting tool according to the invention is mainly in the household and tool industry for the production u. a «of household appliances, cutlery 'and cutlery possible.

Characteristics of the known technical solutions

Known ability depends on a number of factors, but above all of the geometric design of a cutting edge, the chemical and microscopic fine structure of the material, for example, the structure of metals, metal-like materials or non-metals · a non-subordinate Importance is attached · · <,.; , ';

There are already various cutting tools have been developed or proposed, with which Teilverbes «.

For example, according to Müchler (cf. Research Reports of the Ministry of Economics and Transport lordrhein-Westfalen 1936, Kr / 277), investigations have been carried out into the numerical determination of the cutting properties of knives and thereby the minimum cutting blade thickness specified in a thicker range between 0.7 mm xxnü 0.9 mm ». ,

It is also state of the art that, starting from the investigations according to Stüdemanri and Esselborn (see research reports of the Ministry of Economics and Transport Nordrhe.in-Westfalen 1964, No * 1352), as a result of cutting property tests on knives, taking into account the influence of the geometric shape , Statements on cutting angle between 30 and 90, cutting blade angle with ca »5 and the minimum cutting blade thickness between 0.040 mm and O, 163 mm are present. According to the latest findings, the demands on a good cutting edge can not be met. ,

The physical processes in cutting - in cutting tools in the household - are examined according to Pichert (see Hauswirtschaft - Science / 26, 1978, Issue 6, page 268 - 273) and the result is generally valid specifications. Thus, the cutting edge of a knife disc, analogous to the kitchen knife, in the minimum cutting blade thickness as small as possible and keep as acute as possible in the cutting blade angle, this preferred areas are not specified.

In DE-OS 30 26 118 an electric motor operated knife with two knife blades with serrated edge for cutting soft and hard food is described by the fact that the gaps between the cutter

Teeth with their longitudinal centers inclined to the cutting edge perpendicular en and oblique cutting teeth forms - det,. Wherein the cutting teeth of the knife blades arranged opposite. As an essential feature for improving the cutting ability, "the angle at the bottom of the cutting teeth to the tip of the cutting teeth connected cutting line between 5 and 25 and the underside bevel of each cutting tooth is indicated at an angle of 15 to the cutting line only a few elements that are not decisive for the cutting ability and cutting edge stability «,

Koch unsuitable appears in the DE - OS 31 01 set forth embodiment of a knife, especially household knife, where the cut of the cutting edge is inclined at an angle of 15. to 60 ° against the cutting edge. Thus, only a short-term effect is achieved because the cut of the cutting edge is subject to rapid wear, which adversely affects the life of the cutting edge ~ the cutting edge.

The well-known state of development for cutting ability and cutting strength always comprises only a few elements of the cutting process and does not lead to a comprehensive knowledge of all the cutting influencing parameters.

Section 1 of the invention. , '. , ·. "".

The aim of the invention is to replace the selective view of the properties of a cutting edge by a complex approach, thus finding all, the factors affecting the cutting ability and cutting edge factors, based on a, compared to the prior art much improved design of a cutting tool ₉ in particular knives with serrated edge, for which continuous as well as discontinuous cutting of the material to be cut is possible, taking into account «

Explanation , the% sens of 'invention'.

The technical problem to be solved by the invention is above all 'for cutting tools, especially knives with serrated edge, all dae cutting influence »to prove the parameter that allows the continuous as well as the discontinuous cutting of the material to be cut, which cause the cutting ability and cutting resistance and improve on the known state.

The task has been solved by extracting the parameters of the cutting properties that are of complex magnitude by a qualified test carried out under customary conditions. "Experimentally produced cutting edges are examined by physical, chemical and technological methods and analyzed by multivariate sta-15. tistic method analyzes relationships with the results of the user test *

The features of the invention are that in addition to the known sizes u * a «. such as hardness, cutting edge angle and serrated form for precisely defined applications: all criteria are taken into account which, when applied simultaneously or in part, allow a significantly improved cutting ability and cutting edge stability for cutting tools, in particular serrated knives.

In this case, the function-influencing length of the serration on the cutting edge to the total usable length of the cutting tool and the radius of the cutting edge is selected _? that the basic geometry of the cutting tool is defined with a precisely defined number of wave crests or wave troughs over a certain length.

Other influencing factors for a good cutting geometry lie in the significantly improved design of the

Cutting area by the right choice of cutting blade angle, relief angle, cutting angle and the minimum cutting blade thickness »

For the execution of the serrated edge in the cutting area, the clear depth of the profiled section must be adapted to the total depth of the "profile grinding in a favorable ratio, corresponding to the proportion of the clear depth of the profile grinding, to the depth of the undercut Wellenberg is given a further size, whereby the clear depth of the profile section is characterized proportionally.The size of the envelope angle results between the wave mountains and the light wave trough, with the length of the wave mountain, which is still provided by a lateral bevel, whereby a Wellenbergspitze receive remains, is defined another size, which has a well-defined share at the distance wave mountain to wave mountain,.

embodiment

The invention will be explained below using an exemplary embodiment:

Fig. 1-knife with 'file cut .. ·.'.

Fig. 2 is a section A - A of Fig. 1

Fig. 3 Part of the knife edge - grazing on a larger scale Fig. 4 Partial view off. Fig. 3

Bin Messer Fig, .1 consisting of a knife handle 1 and the knife blade 2, which has a serrated edge 3. The proportion of the function-influencing length of the serration L located on the cutting edge for the length of the cutting tool that can be used for the cutting process

Lj. From 95 to 101 mm is between 44 and 56 % » With &. ' is the radius of the cutting edge, which is at least 50% larger than the usable length for the cutting process

of the cutting tool L, "is at a length L _vo between '44 mm and 53 mm sind.ca" η 31 to η 33 wave crests 4 respectively, the troughs 5 are provided "The hardness H in the cutting area is known to be 600 HV to 65Ο HV. _;

FIG. 2 shows the section A - A from FIG. 1 through a wave trough 5 of the serrated edge 3 with the cutting blade angle £ between 3.2 and 3.6, the relief angle 6 between 15 and 50, the cutting angle Ta between 11 and 14 and the minimum blade thickness d between 0.10 mm and 0.35 mm.

Fig. 3 shows the scalloped edge 3 on an enlarged scale. the knife blade 2, wherein the total depth of the 'profile section a (between Wellenberg 4 and 5 wave trough) a ^ s the clear depth of the rough finishing b between 0.30 mm and 0.50 mm and the depth of the relief c between 0.50 mm and 0.65 mm, thereby defining the proportion b to a and b to c » '

The distance wave crest to crest t is set between 1.00 mm and 1.75 mm, whereby the preferred proportion of the clear depth of the profile grind b is marked at t "The size of the envelope angle?" 3 between: the wave crests 4 and clear wave trough is between 110 and 125

In Fig. 4 - partial view of Fig. 3 - the length of the wave mountain b- ^ between 0.02 mm and 0.40 mm is fixed, so that the preferred proportion of b- ^ at the distance wave mountain to wave mountain t and at the clear depth of the profile section b defined * The length of the wave mountain is now 15 due to a lateral bevel ^; and 60, whereby a wave peak 6 remains recovered. · -

Overall, the invention for cutting tools, especially knife serrated, by setting special parameters of the cutting edge high cutting properties, such as. Cutting ability and cutting edge stability, thus the continuous »as well as the discontinuous cutting of a cutting material without laughter improvement ^{1 of} the cutting edge over a maximum time is possible.

Claims (7)

Claim of invention. T. cutting tool, in particular knives with serrated edge, the cutting edge is preferably made of steel, characterized for the continuous as well as the discontinuous cutting of the material to be cut, that a significantly improved cutting ability and cutting edge 'without Kachbesserung the cutting edge over a maximum time thereby arises. that the following criteria simultaneously or, in part, how.         . '. '.' , '. '. i - "length of cutting tool (L.) usable for the cutting process - function - influencing length (L) of the     ·,. WQ ' Cutting edge serrated edge - Radius of the cutting edge. (& ) .15 τ Number (s) of the wave crests or wave troughs on the: .functioning! Narrow, serrated edge of the cutting edge - Hardness in the cutting area (H) - Tendon angle '(£).' '' - Cutting angle ( Vi) - relief angle ( Z) - minimum cutting blade thickness (d) - Total depth of profile grinding (a) -light depth of profile grinding (b). ' Depth of relief (c) - distance from wave mountain to wave mountain (t) -Veloping angle (^ J), which forms between the Vellenellen and the light wave trough - length of the wave mountain (br) - lateral Anschlagung (Tt) of the Wellenbergspitze to be considered in the design of the cutting area. 12. The cutting tool according to item 1, characterized in ^x that a good cutting geometry results when the _f proportion of funkticnsbeeinflüaaenden length of Wellensehliffes located on the blade (L) is preferably in the usable for the cutting operation length of the cutting tool (L ^) between 44 and 56 % is designed. «>' 3 »cutting tool according to item 1 and 2, characterized in that the radius of the cutting edge (£ L) at least 50 % greater than the usable for the cutting length of the cutting tool (L,) is designed, 4. Cutting tool according to point T to 3, characterized in that on a function-influencing length of the blade located at the edge serration (L) between 44 mm and 53 mm ca «(η) 31 to 38 peaks (4) or troughs (5) are arranged. 5. Cutting tool according to item 1 to 4, characterized in that the cutting blade angle '( 'd> ) between 3.2 ° and 3.6 °, the bevel angle (£) between 15 and 50 is designed and thus the preferred proportion · ( cC ) is defined at (£) "   '' '. ' 6. cutting tool according to item 1 to 5> characterized in that the cutting angle ( Vi) is between 11 and 14 and the proportion of win-win. .. (6) is between 22 and 93 % · 7. Cutting tool according to item 1 to 6, characterized in that the proportion of the clear depth of the profile grinding, (b) between 26 and 63 % of the total depth of the profile grinding (a) and preferably the ratio of the clear depth of the profile grinding (b) the depth of the relief (c) corresponds to «, 3. Cutting tool according to item 1 to 7, characterized in that the thickness of the minimum cutting blade thickness (d) is between 20 and 117% of the dense depth of the profile grinding (b). 9 »Cutting tool according to point 1 to 8, characterized in that the proportion of the clear depth of the profile grinding (b) from the distance wave mountain to wave mountain (t) is between 17 and 50 % « 10 »cutting tool according to point 1 to 9», characterized in that the envelope angle (Vi) ₉ which is between the wave crests and the ".. Well trough is designed between 110 and · 125» Cutting tool according to items 1 to 10, characterized in that "the length of the wave crest (b ^) to the distance from crest to crest (t) is chosen to be between 1 and 40 % , and the crest peak (6 ), which is provided with a lateral bevel {f. ** ·) between 15 and 60 » \ 12, cutting tool according to item 1 to 11, characterized in that the length of the wave crest (b- ^) is preferably 10 % of the clear depth of the profile grinding (b). U ao aeiien /.esrnnnnnAn.