KNIFE, IN PARTICULAR FOR SLICERS

Abstract

In order to prevent slices separated from a product caliber by a slicer from adhering temporarily to a cutting surface of a blade and not coming to rest on the desired position on a base when the slices are ejected, the arrangement of one or more recesses in the blade back facing away from the product caliber is suggested in a specific way.

Claims

1. A blade for machines for cutting elastic products into slices the blade comprising: a plate-shaped base body having a rear cutting surface, which forms a part on a blade rear side of the plate-shaped base body, and a front cutting surface, which forms a part of a blade front side, wherein the rear cutting surface and the front cutting surface meet in a cutting edge at a cutting angle, wherein the blade rear side is curved outwards from a cutting plane defined by the cutting edge in a perpendicular direction thereto, the rear cutting surface is positioned adjacent to a pressing surface on the blade rear side, and at least one recess is formed in the blade rear side, wherein size and/or shape of a cross-sectional surface of the at least one recess transverse to the cutting plane varies in a direction of the cutting edge, and/or position of the at least one recess relative to the cutting edge varies in the direction of the cutting edge.

2. The blade according to claim 1, wherein the at least one recess comprises a groove extending primarily in the direction of the cutting edge.

3. The blade according to claim 1, wherein the at least one recess is arranged in the pressing surface, and extends out of of the pressing surface in a direction away from the cutting edge and/or extends in the direction of the cutting edge at most to a beginning of the rear cutting surface.

4. The blade according to claim 1, wherein either the cutting edge is endless, or the cutting blade is a sickle blade and the cutting edge is a finite cutting edge deviating from a circular shape, wherein a distance of the finite cutting edge from a centre, which is also located in the cutting plane, increases continuously in a direction of extension of the finite cutting edge.

5. The blade according to claim 1, wherein the at least one recess extends only along a part of a length of the cutting edge, in the case of a finite cutting edge, the at least one recess ends at a distance before a beginning and/or before an end of the cutting edge.

6. The blade according to claim 1, wherein the size, shape and radial position of the cross-sectional surface of the at least one recess is constant along the direction of the cutting edge.

7. The blade according to claim 1, wherein a cross section of the at least one recess changes continuously in terms of size and/or shape and/or radial position along the direction of the cutting edge.

8. The blade according to claim 1, wherein the at least one recess comprises several recesses arranged one behind the other in the direction of the cutting edge.

9. The blade according to claim 1, wherein thickness of the body of the blade is a maximum of 15 mm, and/or maximum depth of the at least one recess is not more than 2 mm.

10. The blade according to claim 1, wherein depth of the at least one recess is at most 20% of a thickness of the blade at an end of the pressing surface facing away from the cutting edge.

11. The blade according to claim 1, wherein clearance angle between a flank of the at least one recess and the pressing surface changes along the direction of the cutting edge.

12. The blade according to claim 1, wherein the at least one recess reaches the rear cutting surface at least over a part of an extension of the at least one recess as viewed from above on the pressing surface.

13. The blade according to claim 1, wherein a width of the at least one recess in the pressing surface measured perpendicular to the cutting is at least 30% of a width of the pressing surface.

14. A cutting device for automatically cutting strand-shaped elastic products into slices, the cutting device comprising: a base frame, a product receipt attached to the base frame, and the blade according to claim 1 mounted so as to be rotatable about an axis of rotation, the blade being arranged with the rear side facing away from the product receipt.

15. The cutting device according to claim 14, wherein the cutting edge, which deviates from a circular shape, lies in the cutting plane which extends perpendicular to the axis of rotation, and a distance of the cutting edge from the axis of rotation in a circumferential direction.

16. A method of using the cutting blade according to claim 1 in a slicer, wherein speed of the cutting blade in use is at least 500 rpm, and/or is not more than 3000 rpm.

17. The blade according to claim 7, wherein radial width of the at least one recess continuously increases along the direction of the cutting edge.

18. The blade according to claim 8, wherein the recesses are either of identical design or are continuously varied in size and/or shape and/or radial position in the direction of the cutting edge.

19. The blade according to claim 11, wherein the clearance angle increases or decreases continuously in one direction.

20. The blade according to claim 13, wherein the width of the at least one recess is at least 50% of the width of the pressing surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0046] Types of embodiments according to the invention are described in more detail below as examples, with reference to the following drawings which show:

[0047] FIG. 1a: a known slicer in a side view,

[0048] FIG. 1b, c: the well-known plate-shaped blade of the slicer in top view and partial cut,

[0049] FIG. 2: the blade of the invention in an analogous partial cut according to FIG. 1c,

[0050] FIGS. 3a-c: the blade according to the invention in top view in several versions.

DETAILED DESCRIPTION

[0051] FIG. 1a shows a conventional slicer 20 as a cutting device for slicing a strand-shaped product P into slices S.

[0052] The strand-like product P, the so-called caliber P, rests on a product receipt 22, for example a sliding surface or a roller conveyor, which is usually inclined obliquely downwards towards the blade 1, and is pushed forwards, usually step by step, from the rear end by a pusher 24 contacting there, but is also prevented from sliding forward too quickly by means of holding claws 25.

[0053] At the front, lower end of the product receipt 22 there is a so-called cutting frame 23 with at least one product passage through which the front end of caliber P is pushed, whereby several calibers P and product passages in the cutting frame 23 can be located one behind the other in the direction of view of FIG. 1a.

[0054] The protrusion of caliber P protruding from the cutting frame 23 is cut off by a rotating, sickle-shaped blade 1 along a cutting plane 1 as a slice S with a thickness D, cut off immediately in front of the front face of the cutting frame 23 on the cutting side, which is turned away from the pusher 24, and usually falls onto a conveyor, which is not shown.

[0055] As can be seen more clearly in FIG. 1c, the body 1b of the plate-shaped blade 1 is tapered in cross-section along its outer circumference, the acute-angled cutting edge 1a being formed by the rear cutting surface 2 at the rear side of the blade 1.2 and the front cutting surface 3 at the front side of the blade 1.1.

[0056] It can be seen that in the otherwise flat front face of the blade 1.1 there may be a front recess 6, which can reach with its outer flank 6a to the cutting edge 1a, so that the cutting edge 1a can then be formed by the rear cutting face 2 and the outer flank 6a of the recess 6.

[0057] Only the rear side of the blade 1.2, which in use is bulged towards the slice S to be cut off as shown in FIG. 1a, thus bulges beyond the cutting plane 1, but not the blade front side 1.1.

[0058] The cutting edge 1a running around in one plane defines a cutting plane 1. The rear cutting surface 2 is inclined to the cutting plane 1 at a cutting angle . On the side of the rear cutting surface 2 facing away from the cutting edge 1a, the pressing surface 4, which is flatter than the cutting surface 2 to the cutting plane 1 at a pressing angle to the cutting plane 1, adjoins the rear cutting surface 2 and is intended to press the cut-off slice S away from the cutting plane 1.

[0059] FIG. 1b shows the shape of the blade 1 considered in the direction of the axis of rotation 1, whose cutting edge 1a is extending over approximately % of the circumference of the blade continuously increases in one of the two circumferential directions 9, the so-called cutting direction 9.1, in its distance from the axis of rotation 1, thereby causing the blade 1 to penetrate increasingly into the product during rotation about the axis of rotation 1 and to cut through the product completely at a corresponding distance of the axis of rotation 1 from the product passage in the cutting frames 23.

[0060] FIG. 2 shows in an analogous representation according to FIG. 1c the inventive design of blade 1:

[0061] In this case, a recess 5 is arranged in the pressing surface 4, the cross-sectional contour of whichin a section perpendicular to the direction of the cutting edge 1a, the viewing direction of FIG. 2represents a segment of a circle, i.e. the bottom of the recess 5 represents part of an arc of a circle with the centre 7, mainly because recess 5 can then be produced with a round, rotating grinding wheel 8 indicated by dotted lines, the axis of rotation of which preferably runs in the direction shown in FIG. 2, i.e. the direction 9 of the cutting edge 1a through the centre 7 of the arc of the recess 5 drawn in FIG. 2.

[0062] According to FIG. 2 and FIGS. 3a-c, the recess 5 extends to the transition between the pressing surface 4 and the rear cutting surface 2, but could also be located at a distance from it.

[0063] At the end facing away from the rear cutting surface 2, the recess 5 does not reach the end of the pressing surface 4, but its extension in this direction is about 60% of the width B of the pressing surface 4 measured in this direction, but is about 10-15 times the width b of the rear cutting surface 2 in this direction.

[0064] The clearance angle , with which the flanks of the recess 5, in particular the flank pointing towards the cutting edge 1a, ends into the surrounding pressing surface 4, has a maximum of 3, better a maximum of 2, and the transition can also be rounded. This prevents damage to the cutting surface on product P, especially on the slice S.

[0065] However, the design of the recess 5 when viewed from the back of the blade 1.2, especially along the circumferential direction 9 of blade 1, is different in FIGS. 3a-c:

[0066] In the design as shown in FIG. 3a, the width BV of the recess 5 measured along the pressing surface 4 and perpendicular to the cutting edge 1a is constant in the circumferential direction 9, and in particular increases only at the beginning and decreases again at the end, whereby even with increasing or decreasing width BV, the radially outer edge of the recess 5 always runs at the same distance 12 from the cutting edge 1a, and in particular reaches up to the transition, usually a kink, between the pressing surface 4 and the rear cutting surface 2 or maintains a distance 12 therefrom, as shown in the upper part of FIG. 3a.

[0067] The initial and final area of the pressing surface 4 in circumferential direction 9, i.e. about 15% maximum each, better 10% maximum of the extension in circumferential direction 9, preferably shows no recess 5.

[0068] In the design as shown in FIG. 3b, recess 5 in cutting direction 9.1, i.e. the circumferential direction with increasing distance of the cutting edge 1a from the axis of rotation 1, has an increasing width BV, in particular a continuously increasing width BV.

[0069] In this design, recess 5 also extends over the entire circumferential length parallel to the cutting edge 1a, which is not a requirement for a design with width BV increasing in the circumferential direction.

[0070] In the design according to FIG. 3c, several recesses 5 are arranged at a distance from each other in circumferential direction 9 one behind the other, which in this case are identically formed, but this is not a requirement for this design with several recesses 5 arranged one behind the other.

[0071] In particular, these recesses 5 have a constant width BV measured perpendicular to the cutting edge 1a along the pressing surface 4, at least in their central area in the circumferential direction 9, which becomes smaller and smaller at the beginning and end and runs out. With the radially outer edge of the recesses 5 extending continuously parallel to the cutting edge 1a, the distance of the radially inner edge of the depressions from the cutting edge 1a along the direction of extension of the cutting edge 5 preferably becomes smaller and smaller towards the beginning and end, down to zero.

REFERENCE SIGN LIST

[0072] 1 Cutting blade, sickle blade [0073] 1 Rotation axis, blade axis, centre [0074] 1 Cutting plane [0075] 1a Cutting edge, spiral [0076] 1.2 Blade rear side, rear side [0077] 2 Rear cutting surface [0078] 1.1 blade front side, front side [0079] 3 front cutting surface [0080] 4 pressing surface [0081] 5 recess, groove [0082] 5 Cross sectional surface [0083] 6 Front side recess [0084] 7 centre [0085] 8 grinding wheel [0086] 9 Circumferential direction, direction of cutting edge [0087] 9.1 Cutting direction, peripheral direction [0088] 10 axial direction [0089] 11.1, 11.2 Cross direction, radial direction [0090] 12 Distance [0091] 20 Cutting device, slicer [0092] 21 Base frame [0093] 22 Product receipt [0094] 23 Cutting frames [0095] 24 Pusher [0096] 25 Holding claw [0097] B Width rear cutting surface [0098] BB Width pressing surface [0099] BV Width recess [0100] D Thickness blade [0101] D Thickness slice [0102] P Product, string, caliber [0103] S Slice [0104] t depth of the recess [0105] cutting angle [0106] clearance angle [0107] pressing angle