EP2368677A1 - Method and device for cutting food products - Google Patents

Abstract

The method involves extracting a sliced product (21) by a product feed system (19) along a product feeding direction by a cutting plane. The position of the cutting blade (11) is automatically adjusted relative to the product for optimizing the cutter wear. The automatic adjustment of the position takes place during the slicing. An independent claim is also included for a device for slicing of food products, particularly by a high performance-slicer.

Description

The present invention relates to a method for slicing food products, in particular by means of a high-performance slicer, in which a product to be sliced is conveyed by a product feed along a product feed through a cutting plane in which at least one cutting blade, in particular rotating and / or rotating, moves , The invention further relates to a corresponding device for slicing food products.

The cutting blade may be, for example, a planetary rotating circular knife. Alternatively, a sickle or spiral knife may be provided which rotates about a rotation axis and has a spiral knife edge. Due to the blade edge moving in the cutting plane, slices are separated from a supplied food product, such as, for example, meat, sausage or cheese, with a high cutting sequence. The separated product slices fall on the side facing away from the supplied product from the cutting blade and can be fed to further processing.

Especially in the operation of high-performance slicers, the respective cutting blades are exposed to high mechanical loads, which cause progressive wear of the cutting blade. Due to this knife wear, the cutting blades must be in relatively short temporal Repeated intervals or even completely replaced, which is associated with high operating costs.

It is therefore an object of the invention to make the operation of cutting devices of the type mentioned more efficient and in particular to increase the service life of the cutting blade.

The object is achieved by a method having the features of claim 1. According to the invention, the position of the cutting blade relative to the product is automatically adjusted to optimize the blade wear. Such an automatic adjustment prevents the same point of the knife blade from always striking the product during cutting, which would be the case in particular with sickle blades. The load of the cutting blade can thus be distributed over a larger area of the knife edge, whereby the punctual wear - which is ultimately decisive in terms of maintenance - is reduced. In this way, the cutting blade can therefore be operated longer uninterrupted than at a constant relative position between the cutting blade and product. In particular, the invention takes into account the knowledge that the position of the cutting blade relative to the product - which is conventionally optimized in terms of cutting quality - can be varied within certain limits, without this leading to a significant deterioration of the cut quality. Overall, the invention can significantly increase the efficiency of a cutter as the intervals between required re-sharpening or replacement operations can be extended.

Possible developments of the invention are specified in the dependent claims, the drawings and the description.

Preferably, the automatic adjustment of the position takes place during the slicing. The slicing operation is thus not interrupted for adjusting, but can continue unhindered, which benefits the effectiveness of the cutting device.

According to one embodiment, the automatic adjustment of the position takes place continuously. In such an embodiment, the cutting blade executes a preferably slow continuous movement, for example, by continuously displacing it back and forth along a predetermined path. The knife wear is distributed in this way over the entire range of continuous adjustment. The speed of the adjustment can be relatively low.

Alternatively, the automatic adjustment of the position can also be done intermittently. An adjusting movement takes place in this case only at certain times, in between the relative position between the cutting blade and the product remains constant. The cutting blade can be adjusted in each case between individual predetermined positions.

In particular, the automatic adjustment of the position can in each case take place after a predetermined number of cuts made. This allows a reliable optimization of the knife wear, as this is directly related to the number of cuts performed. The cutting blade can be adjusted in each case with such a configuration, if due to the number of cuts made since the last adjustment an unacceptably high blade wear is to be feared.

The automatic adjustment of the position can also take place in predetermined, in particular regular, time intervals. Such an automatic adjustment can be implemented particularly easily.

According to a further embodiment, a degree of wear or wear of the cutting blade is determined during slicing and the automatic adjustment of the position takes place as a function of the determined degree of wear or wear condition. The blade wear is therefore not estimated in this embodiment based on the number of cuts or the elapsed time, but determined directly. For example, to determine the actual blade wear a sensor may be provided which detects the wear state of the cutting blade and transmitted to a control device.

Preferably, the degree of wear or wear of the cutting blade is determined by detecting a condition of the product slices cut by the cutting blade and / or a state of portions of product slices made during slicing. In fact, changes in the condition of the sliced products may indicate increased blade wear. For example, from a certain extent of blade wear, incorrect placement or folding of the separated product slices may occur. Such irregularities in the state of the separated product slices or portions are easily detectable, for example by means of optical sensors.

The automatic adjustment of the position can be done especially when reaching a predetermined degree of wear or wear condition. The adjustment process can thus be timely before the occurrence of a wear-related unacceptable deterioration of the cut quality. The automatic adjustment ensures that a section of the cutting blade that has hitherto been less stressed and therefore less affected by wear is impacted on the product. In this way, each point of the knife edge within the usable range is subjected to the maximum load until the knife wear reaches a critical level at that point.

For automatic adjustment of the position, the cutting blade can be moved by means of an adjusting device. The adjusting device may e.g. be electrically or hydraulically actuated and controlled by a control device of the cutting device.

For automatically adjusting the position, a cutter head or cutting head comprising the cutting blade as a whole can also be moved by means of an adjusting device, wherein in particular the cutting head comprises a cutter head, a rotary drive for the cutter head and a cutter head housing. This allows a particularly simple construction. Certain cutting devices have a cutter head or cutting head, which is designed to be adjustable from the outset, for example, to take into account different product sizes or product types. This adjustability can be used advantageously for optimizing the blade wear.

Alternatively or in addition to a movement of the cutting blade, at least one product-holding, supporting and / or leading component of the product feed, in particular a product support, a side stop and / or a cutting edge, can be moved by means of an adjusting device for the automatic adjustment of the position. Depending on the application, so the automatic adjustment of Relative position between the cutting blade and product either the cutting blade, the product or both the cutting blade and the product are moved.

According to one embodiment of the invention, the position of the cutting blade is adjusted relative to the product in a direction of adjustment or adjustment plane extending transversely to the product feed direction. The adjustment direction may, for example, extend at right angles to the product feed direction. It can be a height adjustment, a lateral adjustment or a superposition of both. However, the adjustment movement can basically also have an axial component with respect to the product feed direction.

Preferably, the position of the cutting blade relative to the product is adjusted within a tolerance range dictated by those positions at which an acceptable cutting result is achievable. This ensures that automatically adjusting the position does not affect the cut quality. The limits of the tolerance range can be determined empirically, for example.

According to another embodiment, the automatic adjustment of the position is repeatedly performed between predetermined positions and / or along a predetermined path. In this way, the knife load can be reliably distributed between the predetermined positions or over the entire range of the predetermined path.

The invention also relates to a device for slicing food products, in particular a high-performance slicer, with a product feed, the product to be sliced along a Feeding direction by a cutting plane promotes in which at least one cutting blade, in particular rotating and / or rotating, moves, wherein the position of the cutting blade is adjustable relative to the product by means of an adjusting device. According to the invention, a control device is provided, which is designed to automatically adjust the position of the cutting blade to optimize the knife wear.

The adjusting device may be designed to move the cutting blade or a knife head or cutting head comprising the cutting blade relative to the product.

Furthermore, at least one sensor connected to the control device can be provided in order to detect a degree of wear or a state of wear of the cutting blade.

Alternatively or additionally, at least one sensor connected to the control device may be provided to monitor a state of the product slices cut off by the cutting knife and / or a state of portions of sliced product slices during slicing.

For an operator of such a cutting device, there is the advantage that an exchange or re-sharpening of the cutting blade is required less frequently.

Fig. 1

zeigt eine vereinfachte Seitenansicht einer erfindungsgemäßen Vorrichtung zum Aufschneiden von Lebensmittelprodukten.

Fig. 2

zeigt eine Vorderansicht der Vorrichtung gemäß Fig. 1.

Fig. 3

zeigt eine Vorderansicht einer Vorrichtung zum Aufschneiden von Lebensmittelprodukten gemäß einer alternativen Ausführungsform der Erfindung.

The invention will be described below with reference to the drawings.

Fig. 1

shows a simplified side view of an apparatus according to the invention for slicing food products.

Fig. 2

shows a front view of the device according to Fig. 1 ,

Fig. 3

shows a front view of a device for slicing food products according to an alternative embodiment of the invention.

According to Fig. 1 and 2 For example, a high-speed slicer includes a cutting blade 11 that defines a cutting plane S. The cutting blade 11 is formed here as a disk-shaped sickle blade, which is attached to a cutter head 13. By means of a drive 15, the cutter head 13 is driven in rotation with the cutting blade 11 in the cutting plane S. The cutting blade 11 including the cutter head 13 and the drive 15 is in an in Fig. 1 only shown dashed lines cutting head 17 integrated. The cutting head 17 is covered for safety by a cutting head housing, which, however, is not shown in detail in the figures.

Furthermore, the high-speed slicer comprises a product feeder 19, on which there are three product bars 21 to be sliced next to one another. By means of a controlled drive, not shown, the product bars 21 are delivered to the rotating cutting blade 11 along a product feed direction P pointing at right angles to the cutting plane S. During product feeding, the array of product bars 21 is placed on an in Fig. 2 shown side stop 23 along. Depending on the requirement, further measures can be taken be provided for mounting, support and / or leadership of the product bars 21.

During rotation, the cutting blade 11 cuts through the product bars 21 with a knife edge 26 and separates from these product slices 25, cooperating with a cutting edge 27 forming the end of the product feed 19. The separated product slices 25 fall on the product rear side facing away from the rear of the product on a product support 29 and can be further promoted or further processed, in particular an automatic packaging system (not shown) are supplied. A sensor 31 ( Fig. 2 ) serves to monitor the quality of product slices 25 located on product support 29. The sensor 31 is in communication with a control device, not shown, of the high-performance slicer.

The cutting head 17 with the cutting blade 11, the cutter head 13 and the drive 15 can be adjusted as a whole relative to the product feed 19 with the product bars 21. This is an in Fig. 2 shown adjusting device 33 is provided, which is activated by the control device. By means of the controlled adjusting device 33, the cutting head 17 is moved with the cutting blade 11 within the cutting plane S in the vertical and / or horizontal direction, which in Fig. 2 indicated by crossed arrows.

During the slicing operation, the sensor 31 continuously monitors the cutting result, that is the state of the slices of product sliced 25, and the state of portions made from the product slices 25 during slicing. The control device checks on the basis of the sensor signals, whether the quality of the separated product slices 25 or the respective portions is sufficient and whether the filing takes place correctly.

As soon as irregularities with respect to the state of the product slices 25 or the portions are detected, that is, for example, folded product slices 25 are detected on the product support 29, the cutting head 17 is moved by means of the adjusting device 33 by a predetermined distance to the side or in height. Preferably, the predetermined distance is only a few millimeters. The change in the relative position between the cutting blade 11 and the product bars 21 causes a different location of the knife edge 26 to impact the product bars 21 than before. In this configuration, the slicing operation can be continued without interruption until an undue impairment of the cut quality or the storage is again determined based on the sensor signals. Re-sharpening or replacement of the cutting blade 11 is therefore required much later than at a concentration of the knife load and thus the blade wear on one and the same point of the knife edge 26. The control device ensures that the adjustment remains limited to a tolerance range within which an acceptable cutting result can be achieved. Maintenance is only required if the blade wear has become inadmissibly high within the entire tolerance range.

In order to save the sensor 31, the control device could also be programmed such that the automatic adjustment of the position takes place independently of the determined degree of wear or wear after a predetermined number of cuts or at predetermined time intervals.

Fig. 3 shows a high performance slicer according to an alternative embodiment of the invention. The cutting blade 11 'is here designed as a circular blade which rotates planetary on a circular path 35. Instead of a plurality of juxtaposed product bars 21 is only a single product bars 21 on the product feeder 19. The adjusting device 33 is otherwise equivalent to the in Fig. 2 shown embodiment.

In both described embodiments, the adjustment, the size of the tolerance range and the timing of the automatic adjustment can be adapted in many ways to the particular application. Overall, the invention allows time intervals between maintenance intervals and thus a more economical operation of the high-performance Slicers.

LIST OF REFERENCE NUMBERS

11, 11 '

cutting blade

13

cutter head

15

drive

17

cutting head

19

product feed

21, 21 '

product Riegel

23

side stop

25

product slice

26

knife edge

27

cutting edge

29

product support

31

sensor

33

adjustment

35

orbit

S

cutting plane

P

product feed

Claims (15)

Process for slicing food products, in particular by means of a high-performance slicer,
in which a product to be sliced (21, 21 ') is conveyed by a product feed (19) along a product feed direction (P) through a cutting plane (S), in which at least one cutting blade (11, 11'), in particular rotating and / or circulating, moving,
characterized in that
To optimize the knife wear, the position of the cutting blade (11, 11 ') relative to the product (21, 21') is automatically adjusted. Method according to claim 1,
characterized in that
the automatic adjustment of the position during the slicing takes place. Method according to claim 1 or 2,
characterized in that
the automatic adjustment of the position takes place continuously or that the automatic adjustment of the position takes place intermittently. Method according to claim 3,
characterized in that
the automatic adjustment of the position takes place in each case after a predetermined number of cuts carried out, and / or that the automatic adjustment of the position takes place in predetermined, in particular regular, time intervals. Method according to at least one of the preceding claims,
characterized in that
a degree of wear or a wear state of the cutting blade (11, 11 ') is determined during the slicing and the automatic adjustment of the position takes place as a function of the determined degree of wear or wear, in particular determining the degree of wear or wear of the cutting blade (11, 11'), by detecting a condition of the product slices (25) separated by means of the cutting blade (11, 11 ') and / or a state of portions of product slices (25) made during slicing. Method according to claim 5,
characterized in that
the automatic adjustment of the position upon reaching a predetermined degree of wear or wear occurs. Method according to at least one of the preceding claims,
characterized in that
for automatically adjusting the position the cutting blade (11, 11 ') by means of an adjusting device (33) is moved. Method according to at least one of the preceding claims,
characterized in that
for automatically adjusting the position, a cutter head (13) or cutting head (17) comprising the cutting blade (11, 11 ') as a whole is moved by means of an adjusting device (33), in particular the cutting head (17) comprising a cutter head (13), a rotary drive (15) for the cutterhead and a cutterhead housing. Method according to at least one of the preceding claims,
characterized in that
for automatically adjusting the position, at least one supporting and / or guiding component of the product feed (19) holding the product (21, 21 '), in particular a product support (29), a side stop (23) and / or a cutting edge (27), is moved by means of an adjusting device (33). Method according to at least one of the preceding claims,
characterized in that
the position of the cutting blade (11, 11 ') relative to the product (21, 21') is adjusted in a direction of adjustment or adjustment plane extending transversely to the product feed direction (P). Method according to at least one of the preceding claims,
characterized in that
the position of the cutting blade (11, 11 ') relative to the product (21, 21') is adjusted within a tolerance range dictated by those positions at which an acceptable cutting result is achievable. Method according to at least one of the preceding claims,
characterized in that
the automatic adjustment of the position is repeatedly performed between predetermined positions and / or along a predetermined path. Device for slicing food products, in particular high-performance slicers, which is designed in particular for carrying out the method according to one of the preceding claims,
with a product feed (19) which conveys a product (21, 21 ') to be cut along a product feed direction (P) through a cutting plane (S), in which at least one cutting blade (11, 11'), in particular rotating and / or rotating moved, wherein the position of the cutting blade (11, 11 ') relative to the product (21, 21') by means of an adjusting device (33) is adjustable,
characterized in that
a control device is provided, which is designed to automatically adjust the position of the cutting blade (11, 11 ') in order to optimize the blade wear. Device according to claim 13,
characterized in that
the adjusting device (33) is designed to move the cutting blade (11, 11 ') or a cutter head (13) or cutting head (17) comprising the cutting blade relative to the product (21, 21'). Apparatus according to claim 13 or 14,
characterized in that
at least one sensor (31) connected to the control device is provided for detecting a degree of wear or wear of the cutting blade (11, 11 ') and / or at least one sensor (31) connected to the control device is provided for determining a state of the device the slicing knife (11, 11 ') separated product slices (25) and / or to monitor a state of portions of separated product slices (25) during slicing.

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