PACK FOR CERAMIC BLADES

Abstract

Disclosed herein are packagings for cutting blades, multiple packagings connected to each other, methods for using and producing such packagings, and a method for packaging cutting blades in such packagings. One such packaging comprises a substantially flat base and cover layer made of a first and a second packaging material respectively, a blade receptacle between the two layers, and a cover of the blade receptacle formed in the cover layer. The first and second packaging material are made primarily of cardboard. The packaging materials each have a first and a second rigidity in corresponding primary directions, wherein a cutting edge of a blade is disposed in the packaging parallel to at least one of the primary directions. A multiple packaging made of such individual packagings with a separation region between two individual packagings comprises a planned parting line in a layer and a hinge line in the other layer.

Claims

1. A packaging for cutting blades, comprising: a substantially flat base layer made of a first packaging material; a substantially flat cover layer made of a second packaging material; the cover layer being disposed on a top side of the base layer and connected to the base layer at least in segments; and the base layer comprising a blade receptacle designed for receiving a single cutting blade; a segment of the cover layer, preferably a partial segment of the cover layer, forming a cover of the blade receptacle, the cover being releasable in order to expose a single cutting blade received by the blade receptacle; wherein the first and second packaging material are made primarily of cardboard.

2. The packaging according to claim 1, wherein the blade receptacle is designed for limiting, at least in a plane parallel to the base layer, a motion of a single cutting blade received by the blade receptacle.

3. The packaging according to claim 1, wherein: the blade receptacle is designed for receiving a cutting blade such that a cutting edge of a received cutting blade comprises a blade orientation specified by the blade receptacle; the first packaging material comprises at least one first rigidity along a first primary material direction and a second rigidity along a second primary material direction; and the base layer and/or the cover layer are disposed so that the first primary material direction is aligned parallel to the blade orientation; and/or the second packaging material comprises at least one third rigidity along a third primary material direction and a fourth rigidity along a fourth primary material direction; and the base layer and/or the cover layer are disposed so that the third primary material direction is aligned parallel to the blade orientation.

4. The packaging according to claim 3, wherein the first and/or the second packaging material is corrugated cardboard and a corrugation direction of the corrugated cardboard corresponds to the first primary material direction and/or to the third primary material direction.

5. The packaging according to claim 1, wherein the blade receptacle is implemented by a recess in the base layer.

6. The packaging according to claim 5, wherein an inner contour of the recess corresponds at least in segments to an outer contour of the individual cutting blade.

7. The packaging according to claim 1, further comprising a substantially flat substrate made of a third packaging material applied to the back side of the base layer.

8. The packaging according to claim 7, wherein: a pass-through opening extending from the top side of the base layer to a back side of the base layer forms a part of the blade receptacle; and the substrate forms a back wall of the blade receptacle.

9. The packaging according to claim 7, wherein the third packaging material is made primarily of cardboard.

10. The packaging according to claim 1, further comprising: a tear-off region disposed in the base layer and/or in the cover layer and/or in the substrate for tearing off from the rest of the packaging along a perforation; a profiled cutout disposed in the tear-off region and designed for hanging the packaging on a corresponding counterpart of a storage facility.

11. The packaging according to claim 7, wherein the substrate and the base layer are integral in design and connected to each other by means of an intermediate segment.

12. The packaging according to claim 1, wherein the substrate and the cover layer are integral in design and connected to each other by means of an intermediate segment.

13. The packaging according to claim 1, further comprising a tear line bounding the segment of the cover layer forming the cover at least in segments.

14. The packaging according to claim 1, wherein a back side of the cover layer and the top side of the base layer are connected to each other at least at a connecting segment, wherein the at least one connecting segment is disposed in a region of the cover layer outside of the cover.

15. A multiple packaging made of a plurality of packagings according to claim 1 that are connected to each other, the multiple packaging comprising: a continuous, substantially flat base layer made of a first packaging material; a continuous, substantially flat cover layer made of a second packaging material; the cover layer being disposed on a top side of the base layer and connected to the base layer at least in segments; and the base layer and the cover layer implementing a plurality of packagings disposed in a row along at least one first row direction; wherein a separation region is implemented between two each of the packagings adjacent to each other in the first row direction for dividing the first from the second packaging; wherein each separation region comprises a first planned parting line either in the base layer or in the cover layer, wherein the separation region comprises a hinge line in the other layer of the multiple packaging.

16. The multiple packaging according to claim 15, comprising: a continuous, substantially flat substrate made of a third packaging material disposed on the back side of the base layer; a second planned parting line in the substrate disposed in the parting region and defining a separation and/or break point.

17. The multiple packaging according to claim 15, wherein the base layer comprises a blade receptacle for each packaging designed for receiving a single cutting blade; wherein the cover layer comprises a segment for each packaging forming a cover of the blade receptacle; and wherein the cover of each packaging is releasable in order to expose a cutting blade received by the blade receptacle of the corresponding packaging.

18. The multiple packaging according to claim 15, wherein the cover layer for each packaging comprises a second tear line bounding, at least in segments, the segment forming the cover, so that the corresponding covers of the packagings can be released from the cover layer in an arbitrary sequence along a corresponding second tear line.

19. The packaging according to claim 1, further comprising a cutting blade disposed in the blade receptacle in a captive manner.

20. A use of a packaging according to claim 1 for packaging ceramic blades.

21. A method for packaging a cutting blade, comprising: providing a substantially flat base layer made of a first packaging material; providing a blade receptacle on or in the base layer; providing a single cutting blade in the blade receptacle; providing a substantially flat cover layer made of a second packaging material on a top side of the base layer; connecting the cover layer to the base layer at least in segments; a segment of the cover layer forming a cover of the blade receptacle, wherein the first and second packaging material are made primarily of cardboard.

22. The method according to claim 21, further comprising: providing a substantially flat substrate; applying the substantially flat base layer to the substrate; folding a segment of the substrate along a connecting segment, wherein the folded segment of the substrate forms the cover layer; attaching the folded segment of the substrate at least in segments to a top side of the base layer.

23. A method for producing a multiple packaging according to claim 15, the method comprising: providing a continuous, substantially flat base layer made of a first packaging material; providing a plurality of blade receptacles on or in the base layer and disposed in a row along at least one first row direction; providing a continuous, substantially flat cover layer made of a second packaging material on a top side of the base layer; connecting the cover layer to the base layer at least in segments; providing or producing a separation region between two each of the blade receptacles adjacent to each other in the first row direction for dividing the first from the second packaging; each separation region running transverse to the row direction at least in segments; wherein the providing or producing of each separation region takes place by introducing a first tear line either in the base layer or in the cover layer.

24. The method according to claim 21, further comprising: applying a substantially flat substrate made of a third packaging material to the back side of the base layer.

25. The method according to claim 22, further comprising: folding a segment of the substrate along a connecting segment, wherein the folded segment of the substrate forms the base layer.

26. The method according to claim 21, further comprising: folding a segment of the base layer along a connecting segment, wherein the folded segment of the base layer forms the cover layer.

27. The method according to claim 21, further comprising: introducing a second tear line in the cover layer, wherein the second tear line bounds, at least in segments, a region of the cover layer forming a cover of the blade receptacle.

28. The method according to claim 23 further comprising: providing a cover for each blade receptacle of each packaging by introducing a second tear line in each cover layer of each packaging, wherein the second tear line is spaced apart from the first tear line and bounds, at least in segments, a region of the cover layer forming the cover of the blade receptacle.

29. The method according to claim 21, wherein a segment of an inner contour of the blade receptacle implements a handling region adapted to a fingertip in shape and size in order to facilitate removing a cutting blade.

Description

[0056] Further features and advantages of all considerations of the invention arise from the attached claims and the figure description below, wherein particularly preferred embodiment examples of the packaging according to the invention for cutting blades and the multiple packaging according to the invention are explained in detail using the drawings.

[0057] FIG. 1A shows a plan view of an embodiment example of a multiple packaging according to the invention comprising two individual packagings according to a further consideration of the invention disposed adjacent to each other in a row direction, and a section view along the line A-A.

[0058] FIG. 1B shows a plan view of a further embodiment example of a multiple packaging according to the invention comprising two individual packagings according to a further consideration of the invention disposed adjacent to each other in a row direction, and a section view along the line A-A.

[0059] FIG. 2 shows a further plan view of the embodiment example from FIG. 1A and a further section view along the line B-B.

[0060] FIG. 3 shows a plan view of an embodiment example of a multiple packaging according to the invention according to FIGS. 1A and 1B, wherein a cover layer of the multiple packaging has been folded over in order to expose a base layer of the multiple packaging.

[0061] FIG. 4 shows a plan view of an embodiment example of the multiple packaging according to the invention according to FIGS. 1A, 1B, and 3, wherein the two individual packagings are separated from each other along a planned parting line of a separation region, and further a tear-off region is removed from the rest of the packaging.

[0062] FIG. 5 shows a further plan view of the embodiment example from FIG. 4, wherein a cover of a blade receptacle of a first individual packaging is shown removed from the packaging and thus exposing the view of a cutting blade disposed in a blade receptacle.

[0063] FIG. 6 shows a further plan view of the embodiment example from FIG. 4, wherein, as in FIG. 5, the cover of a blade receptacle of a first individual packaging is shown removed from the packaging, and further the cover of a blade receptacle of a second individual packaging is shown removed from the packaging, wherein the second blade receptacle is free of a cutting blade.

[0064] According to the view in FIG. 1A, a multiple packaging M comprises a first individual packaging E1 and a second individual packaging E2 disposed in a row along a first row direction R1. The two individual packagings E1, E2 are adjacent to each other along a separation region 1 running perpendicular to the row direction R1 in the embodiment example shown. A tear-off region 2 is adjacent to the first individual packaging E1 opposite the row direction R1 and can be tom off from the individual packaging E1 along a perforation 3, and thus the entire rest of the multiple packaging M. A profiled cutout 4 is disposed in the tear-off region 2 and designed for hanging the entire multiple packaging M on a corresponding counterpart of a storage device (not shown). In the embodiment example shown, the profiled cutout 4 is implemented in the shape of a Euro perforation.

[0065] It should be understood that the multiple packaging M can comprise a second row direction R2 in further embodiments, not shown in the figures, along which individual packagings are also disposed in a row in addition to the first row direction R1. One such embodiment implements a multiple packaging M, for example, having a plurality of rows in a second row direction R1 of individual packagings disposed in a row in the first row direction R1. A pattern of rows and columns of individual packagings can thereby arise.

[0066] As shown in the section view A-A in FIG. 1A, the multiple packaging M is constructed of a plurality of layers. The section line A-A thereby runs at a short distance from an edge 7 of the multiple packaging M extend parallel to the row direction R1.

[0067] A substrate 10 forms the bottom layer of the multiple packaging M in the embodiment example shown, wherein a base layer 20 is disposed on the top side 12 of the substrate 10, and a cover layer 30 is disposed on the top side 13 of the base layer 20. In the embodiment example shown, the substrate 10 and the base layer 20 are congruent, so that the base layer 20 completely covers the substrate 10. The cover layer 30 further comprises a smaller extent in the direction of the first row direction R1. In the embodiment example shown, the substrate 10 and the base layer 20 form the tear-off region 2 in the region of the base layer 20 not covered by the cover layer 30. This means that the tear-off region 2 is formed exclusively by the substrate 10 and the base layer 20. The perforation 3 extends through the substrate 10 and the base layer 20, along an edge 31 of the cover layer 30 marking the beginning of the cover layer 30, transverse to the course of the first row direction R1. As can further be seen from the section view (FIG. 1A), the separation region 1 comprises a planned parting line 21 in the base layer 20, a planned parting line 32 in the cover layer 30, and a hinge line 11 in the substrate 10. The planned parting lines 21, 32 are implemented as the perforation 14 in the base layer and perforation 15 in the cover layer 30, while the hinge line 11 comprises a fold line 16 in the substrate 10.

[0068] In general, the base layer 20 is made of a first flat packaging material 17, the cover layer is made of a second flat packaging material 18, and the substrate 10 is made of a third flat packaging material 19. In the embodiment example shown in FIG. 1A, the first, the second, and the third packaging material 17, 18, 19 are each a corrugated cardboard, the corrugation direction W thereof running parallel to the first row direction R1. As can be seen in the section view (FIG. 1A), the corresponding first, second, and third thicknesses D1, D2, D3 of the substrate 10, the base layer 20, and the cover layer 30 are substantially smaller than the extents thereof in the plane shown by the plan view in which the flat layers also extend. All three layers 10, 20, 30 together have an overall thickness D in the assembled state (FIG. 1A), substantially corresponding to the sum of the first, second, and third thicknesses D1, D2, D3.

[0069] In the embodiment example shown in FIG. 1A, the first individual packaging E1 and the second individual packaging E2 are each implemented as rectangles of equal size, wherein the separation region 1 forms a common edge of a long side of each of the two rectangles. The format of each of the rectangles corresponds to that of a credit card.

[0070] The embodiment example shown in FIG. 1B corresponds substantially to the embodiment example from FIG. 1A, wherein identical and similar elements are labeled with the same reference numerals as in FIG. 1A. In this respect, reference is made in full to the above description, and particularly the differences from the first embodiment example (FIG. 1A) are explained below. As is shown in the section view A-A of FIG. 1B, the multiple packaging M shown comprises only a base layer 20 and a cover layer 30. The perforation 3 therefore extends only through the base layer 20. The separation region 1 comprises a hinge line 25 in the base layer 20 and a tear line 32 in the cover layer 30.

[0071] FIG. 2 shows a further plan view of the embodiment example from FIG. 1A and a section view along the line B-B substantially showing a centerline of the multiple packaging M. The base layer 20 comprises a first blade receptacle 22 in the region of the first packaging E1, and a second blade receptacle 23 in the region of the second packaging E2. In the embodiment example shown, the first blade receptacle 22 and the second blade receptacle 23 are each implemented as first and second hollow spaces 26, 27. The first and second hollow spaces 26, 27 are each formed by a pass-through opening extending from the top side 13 of the base layer 20 to the back side 28 thereof. A back wall 29a. 29b of each of the blade receptacles 22, 23 is formed by the substrate 10 in the present embodiment example. As shown in the section view in FIG. 2, the profiled cutout 4 extends as a pass-through opening through the base layer 20 and the substrate 10.

[0072] The blade receptacles 22, 23 are each covered by a segment of the cover layer 30 bounded from the cover layer 30 in the present embodiment examples (FIG. 1A through 6) by a first and second tear line 35, 36. The first and second tear lines 35, 36 are approximately U-shaped and run out of the cover layer 30 so that each cover 33, 34 also comprises an exposed edge 37, 38.

[0073] The first tear line 35 has a first tear line segment 35a here running perpendicular to the first row direction R1, and running on the side of the first cover 33 facing toward the tear-off segment 2, a second tear line segment 35b running parallel to the first row direction R1 on the side of the first cover 33 opposite the exposed edge 37, and a third tear line segment 35c, in turn running perpendicular to the first row direction R1, but running on the side of the first cover 33 facing away from the tear-off segment 2. The first tear line segment 35a and the third tear line segment 35c are implemented as perforations. The second tear line segment 35b is preferably implemented having a folding line, but can also be untreated. In a similar manner, the second tear line 36 has a fourth tear line segment 36a here running perpendicular to the first row direction R1, and running on the side of the second cover 34 facing toward the tear-off segment 2 or the separation region 1, a fifth tear line segment 36b running parallel to the first row direction R1 on the side of the second cover 34 opposite the exposed edge 38, and a sixth tear line segment 36c, in turn running perpendicular to the first row direction R1, but running on the side of the second cover 34 facing away from the tear-off segment 2 or the separation region 1. The fourth tear line segment 36a and the sixth tear line segment 36c are implemented as perforations. The fifth tear line segment 36b is preferably implemented having a folding line, but can also be untreated.

[0074] The tear line segments 35a, 35c, 36a, 36c, each perforated, extend through the entire thickness D3 of the cover layer 30. By separating along the perforated tear line segments 35a, 35c, 36a, 36c, the corresponding cover 33, 34 can be removed from the cover layer and the corresponding blade receptacle 22, 23 can thus be exposed. The corresponding cover 33, 34 is thereby preferably pivoted about the second or fifth tear line segment 35b, 36b. In the present embodiment example, the covers 33, 34 are disposed so that the exposed edge 37, 38 is disposed on a corresponding edge of a short side of the corresponding individual packaging E1, E2.

[0075] Alternatively, the second and fifth tear line segments 35b, 36b can also be implemented as perforations. By cutting off the corresponding tear line 35, 36, the corresponding cover 33, 34 in such an alternative embodiment example can thus be fully removed from the rest of the packaging.

[0076] One advantage arising from the fact that the covers 33, 34 each comprise an exposed edge 37, 38 disposed at an edge of the individual packagings E1, E2, can be that the covers 33, 34 can be removed independently of each other in an arbitrary sequence. The exposed edge 37, 38 in the present embodiment example has a curvature 40, 41 for facilitating a user grasping and removing the cover 33, 34.

[0077] If the multiple packaging M, as shown in FIG. 1B, comprises only a base layer 20 and a substrate 30, the blade receptacle 22, 23 of a single packaging E1, E2, is implemented as a groove-shaped recess or indentation (not shown) in the base layer 20, extending over only part of the thickness D2 of the base layer 20.

[0078] FIG. 3 shows a plan view of a multiple packaging M according to the preceding FIGS. 1A, 1B, and 2, wherein the cover layer 30 and the substrate 10 are made of a contiguous piece 43 of flat packaging material, that is, are implemented integrally. A connecting segment 24 subdivides, the contiguous piece 43 of flat packaging material into two segments forming the cover layer 30 and the substrate 10 of the multiple packaging M. In the depiction of FIG. 3, the cover layer 30 is shown folded away from the base layer 20 along the connecting segment 24, so that a view of the blade receptacle 22, 23 is exposed. For a multiple packaging M of the present embodiment, a substrate 10 and a cover layer 30 can thus be formed and layered one over the other by means of processing, that is, by cutting out a desired contour from a contiguous piece 43 of flat packaging material and subsequently folding along the connecting segment 24, wherein the base layer 20 is enclosed between the cover layer 30 and substrate 10 connected by means of a connecting segment 24.

[0079] In a further preferred embodiment of the present invention, a base layer 20 is further made of the same contiguous piece 43 of flat packaging material together with the cover layer 30 and the substrate 10. Such an embodiment comprises the first connecting segment 24 and a second connecting segment 44 in the flat piece of packaging material, together dividing the flat piece 43 of packaging material into three segment, correspondingly implementing the substrate 10, the cover layer 30, and the base layer 20 by folding along the corresponding connecting segments 24, 44. The first and second connecting segment 24, 44 are disposed at opposite ends of the substrate 10 and parallel to the first row direction R1. The segment forming the base layer 20 is first pivoted about the second connecting segment 44 for forming the multiple packaging M, so that the base layer 20 is disposed flat on the substrate 10, and then—after filling the blade receptacles 22, 23—the segment forming the cover layer 30 is pivoted about the first connecting segment 24, so that the cover layer 30 is disposed flat on the base layer 20 as described above. In an alternative embodiment, the cover layer 30 and the base layer 20 are integrally made of the same contiguous piece 43 of flat packaging material and connected by means of the connecting segment 24, while the substrate 10 is made of a separate, third packaging material 19.

[0080] For the case that the multiple packaging M has only two layers, namely the base layer 20 and the cover layer 30, said layers are preferably made of a flat piece 43 of packaging material, so that a connecting segment (not shown) is implemented between said layers.

[0081] FIG. 3 further shows how a connection between the base layer 20 and the cover layer can be produced for the embodiment shown and for all further embodiments of a packaging E1, E2. To this end, first through fourth connecting segments 39a, 39b, 39c, 39d (together referred to as 39) can be provided on the back side 45 of the cover layer 30 as shown. In the embodiment shown, said segments are preferably implemented as tape strips 46a, 46b, 46c, 46d. The connecting segments 39 in the embodiment shown are particularly disposed in a region of the cover layer 30 lying outside of a region of the covers 33, 34. It can thereby be prevented, for example, that the connection between the cover layer 30 and base layer 20 is unintentionally removed when removing one of the covers 33, 34. Alternatively or in addition, fifth through eighth connecting segments 39e, 39f, 39g, 39h are implemented on the top side 13 of the base layer 20 and are in turn implemented as tape strips 46e, 46f, 46g, 46h. The cover layer 30 can be adhered to the base layer 20 in this manner.

[0082] FIG. 3 further shows that the blade receptacles 22, 23 in the present embodiment are implemented as first and second hollow spaces 26, 27 in the base layer 20 comprising an inner contour 47, 48 corresponding at least in segments to an outer contour (cf. FIG. 5) of a cutting blade K to be placed therein. An example of a trapezoidal cutting blade K received in a blade receptacle 22 implemented thusly is shown in FIG. 5. A segment 22A, 23A of the inner contour 47,48 of the blade receptacle 22, 23 can thereby be further spaced apart from the outer contour 49 of the cutting blade K in order to implement a clear handling region 50, 51. Said clear handling region 50, 51 can be adapted to a fingertip in shape and size in order to facilitate removing the cutting blade K It must be understood that the trapezoidal contour of the cutting blade K shown can be replaced by any arbitrary blade contour, such as rectangular, sickle-shaped, triangular, partially circular, etc., whereby the inner contour of an associated blade receptacle 22, 23 must also be adapted correspondingly. The pairing of the inner contour 47, 48, of the blade receptacle 22, 23 and the outer contour 49 of the cutting blade K can enable positively receiving the cutting blade K, whereby motion of the cutting blade K in the blade receptacle 22, 23 can be limited.

[0083] The first and second hollow spaces 26, 27 forming the blade receptacles 22, 23 as shown in FIG. 3, are preferably produced by punching out from the base layer 20.

[0084] The view of FIG. 3 further shows a preferred embodiment of the covers 33, 34, preferably each comprising a folding line 33A, 34A. The fold lines 33A, 34A are opposite the corresponding exposed edge 37, 38 of the cover 33, 34 and spaced apart so as to facilitate a user reaching a finger under the flap segment 52, 53 bounded by the exposed edge 36, 37 and the fold line 33A, 34A in order to lift and remove the cover 33, 34. The fold line 33A, 34A can thereby substantially serve as a hinge, so that the flap segment 52, 53 can be folded open about the fold line 33A, 34A relative to the rest of the cover 33, 34. In a preferred embodiment, a flap depth L1, L2 between the corresponding fold line 33A, 34A and the corresponding exposed edge 37, 38 is approximately 5 mm or greater, in a further preferred embodiment 7.5 mm or greater, and in a particularly preferred embodiment 10 mm or greater, each measured between the points of the fold line 33A, 34A and associated exposed edge 37, 38 spaced furthest apart and opposite each other.

[0085] FIG. 4 shows a plan view of an embodiment of a packaging E1, E2 according to FIGS. 1A, 1B, 2, and 3. For the embodiment shown, the separation region 1 is designed for separating between the two adjacent individual packagings E1, E2, so that one individual packaging E1, E2 can be removed from the multiple packaging M. It must be understood that in the present embodiment example, and in all other embodiments of a packaging E1, E2 according to the present invention, an arbitrary quantity of further individual packagings can be connected to the second individual packaging E2 in the first row direction R1.

[0086] The embodiment shown in FIG. 4 further shows how the tear-off region 2 is separated from the individual packaging E1 along the perforation 3. It must be understood that a packaging E1, E2 and a multiple packaging M according to the present invention can also be implemented without a tear-off region 2. It must further be understood that an individual packaging E1, E2 according to any one of the embodiments shown can also be produced separately and as such can be used for packaging a cutting blade K.

[0087] FIG. 5 shows the embodiment shown in FIG. 4, wherein the cover 33 of the individual packaging E1 has been removed from the cover layer 30, whereby the view of a cutting blade K received in the blade receptacle 22 is exposed.

[0088] FIG. 6 shows the embodiment shown in FIG. 4 and FIG. 5, wherein the cover 34 of the second individual packaging E2 is further shown removed from the blade receptacle 23, wherein the blade receptacle 23 is shown free of a cutting blade K. FIG. 6 further shows potential locations for applying markings 6A-H, particularly imprints. Such markings 6A-H are applied in the embodiment shown on the tear-off region 2, a back side of the covers 33, 34, a top side 55 of the cover layer 30, a back wall 29a, 29b of the blade receptacle 23, and in a region of the top side 13 of the base layer 20 exposed by removing the covers 33, 34. It must be understood that each of the markings 6A-H can be applied in isolation or in any arbitrary combination with the other markings 6A-H. The markings 6A-H can particularly be present in every embodiment of a packaging E1, E2 according to the present invention. The markings 6A-H particularly are warning notices, information about the product present in the packaging E1, E2, particularly the dimensions thereof, and/or instructions for handling the packaging.

[0089] As is shown in FIG. 5 and FIG. 6, for example, a segment 30A, 30B of the cover layer remains on the base layer 20 after removing the cover 33, 34. In the embodiments shown, the segment 30A, 30B is substantially C-shaped in design. In a preferred embodiment, the width B1, B2 of such a segment 30A, 30B along the first row direction R1 is approximately 5 mm or greater, 7.5 mm or greater, and in a particularly preferred embodiment 10 mm and greater. The same applies for a width B3, B4 perpendicular to the first row direction R1. It can thereby be achieved, for example, that a spacing between a tear line 35, 36 and the separation region 10 is sufficient for preventing a removal along one of the tear lines 35, 36 from resulting in an unintended removal along the other tear line 35, 36. It can thereby also be made possible that removing the covers 33, 34 can be done independently of whether the packagings E1, E2 are connected or separated along the separation region 1. It can also be thereby achieved, for example, that the remaining segment 30A, 30B further contributes to the flexural rigidity of the packaging E1, E2. Such flexural rigidity can be further desired after removing the cover 33, 34, for example, in order to be able to replace a cutting blade K back in the blade receptacle 22, 23 after removing.

[0090] FIG. 6 further shows how the contour 47 of the blade receptacle 22 receives the cutting blade K so that a cutting edge SK of the cutting blade K is disposed substantially parallel to a blade orientation S specified by the blade receptacle 22. In preferred embodiments, the blade receptacle 22 is oriented so that the blade orientation S is oriented at a desired angle to the corrugation direction W of the corrugated cardboard used as packaging material 17, 18, 19. Because the corrugated cardboard has a lower flexural rigidity along the corrugation direction W than transverse to the corrugation direction W, the bending behavior of the individual packaging E1, E2 and of the entire multiple packaging M can be adapted to the requirements for handling, transport, and storage of the cutting blade K. It must thereby be understood that a directional flexural rigidity of the package E1, E2 can be achieved in any desired manner, particularly also by using other anisotropic packaging materials instead of corrugated cardboard.

[0091] It must further be understood that the embodiments shown in the figures can be combined arbitrarily with the similar or identical features and refinements of the considerations 1-7 of the invention described above. Reference is made in full the considerations 1-7 with respect to the same and to further alternatives and embodiments, and to the advantages thereof.