FOOD PROCESSING EQUIPMENT WITH PLASTMA ACTIVATED WATER CLEANING

Abstract

A method for cleaning, sanitizing, disinfecting and/or sterilizing a filter and/or one or more needles of a food injector device with a cleaning device, the method includes: supplying water and electric current to the cleaning device; treating the filter and/or the one or more needles of the food injector device with the plasma activated water; the cleaning device includes either: i) an atmospheric-pressure plasma device to produce the plasma activated water or ii) a device coupled to the cleaning device for preparing the plasma activated water; and before the treating step, the method includes a pre-treatment step, where the filter and/or the one or more needles of the food injector device are cleaned and/or rinsed with a fluid other than the plasma activated water.

Claims

1.-8. (canceled)

9. A method for cleaning, sanitizing, disinfecting and/or sterilizing a filter and/or one or more needles of a food injector device with a cleaning device, the method comprising: supplying water and electric current to the cleaning device; treating the filter and/or the one or more needles of the food injector device with the plasma activated water; wherein the cleaning device comprises either: i) an atmospheric-pressure plasma device to produce the plasma activated water or ii) a device coupled to the cleaning device for preparing the plasma activated water; wherein before the treating step, the method comprises a pre-treatment step, where the filter and/or the one or more needles of the food injector device are cleaned and/or rinsed with a fluid other than the plasma activated water.

10. The method according to claim 9, wherein the cleaning step comprises rinsing, bathing, showering, submerging, and/or spraying the filter and/or the one or more needles of the food injector device with the plasma activated water.

11. The method according to claim 9, wherein the method is a clean-in-place and/or sanitize-in-place method.

12-15. (canceled)

16. The method according to claim 9, wherein the method comprises a step of collecting the plasma activated water and then filtering, and/or recycling the plasma activated water.

17. The method according to claim 9, wherein the plasma activated water is prepared by the atmospheric-pressure plasma device or the device coupled to the cleaning device in-line.

18. The method according to claim 9, wherein after the treating step, the method comprises a drying step that includes applying a mixture having a lower viscosity than the plasma activated water to the filter and/or the one or more needles of the food injector device.

19. The method according to claim 18, wherein the mixture comprises air and/or plasma activated water.

20. A food processing system comprising the filter and/or the one or more needles of the food injector device, wherein the food processing system is cleaned with the cleaning device and the method according to claim 9.

21. The food processing system according to claim 20, wherein the food processing system is a food injector where a food product is injected with brine from the one or more needles.

22. The food processing system according to claim 21, wherein excess brine is filtered by the filter.

Description

[0032] The inventions are now explained according to the figures. These explanations do not limit the scope of protection and apply to all embodiments of the present invention likewise.

[0033] FIG. 1 shows a food processing system according to a preferred embodiment of the present invention.

[0034] FIG. 2 shows a part of a food and/or feed processing device comprising a surface to be cleaned according to a preferred embodiment of the present invention.

[0035] FIG. 3 shows a cleaning device with a part removed from a food and/or feed processing device according to a preferred embodiment of the present invention.

[0036] FIG. 4 shows a part of a food and/or feed processing device comprising a surface to be cleaned according to a preferred embodiment of the present invention.

[0037] FIG. 5 shows the part of a food and/or feed processing device of FIG. 4 according to a preferred embodiment of the present invention.

[0038] In FIG. 1, a food processing system 1 according to a preferred embodiment of the present invention is shown. While the present invention relates generally to food and/or feed processing devices 2 and in particular to meat processing machines, the aspects of the invention will be explained by referring exemplarily to a former. Such a former is designed to form food patties from a mass of a food product. For example, hamburgers or chicken nuggets may be produced by such a former.

[0039] The former comprises a hopper in which the food product mass, e.g. minced meat, is entered. The mass is then forwarded through a pipe towards a rotating moulding drum 4. Such a moulding drum 4 comprises substantially a cylindrical form and is rotated around its longitudinal axis A. It comprises a plurality of cavities 7, which may be arranged in rows. The food product mass is pressed into the cavities 7. When the drum 4 has rotated to a transfer position, here arranged below the drum 4 and comprising an endless transfer belt, the formed food product, e.g. the patty, is expelled from the cavity. As due to the adhesiveness of most formed food products gravity alone may not be sufficient to reliably expel all food products. Therefore, the drum 4 comprises an at least partially porous surface 5 and the underlying structure is designed to be partially porous as well, meaning that the surface and/or the underlying structure comprise openings in the cavities 7 through which selectively a stream of fluid, e.g. pressurized air, may be forced. For this purpose, the openings are part of flow distribution means 8, which comprise channels, which likewise are preferably arranged in rows. The channels are connected to a fluid supply, here a pressurized air supply.

[0040] After prolonged use, food product residuals may remain in the cavities 7 or on the surface 5 of the drum. Additionally, a biofilm may have built up on the surface 5. For hygienic reasons and in order to avoid any (cross) contamination, the drum 4 needs to be cleaned regularly. This may be effectuated in a cleaning device 3. The food and/or feed processing device 2, here the former, may be configured according to clean-in-place procedures/methods, such as indicated by the dashed lines which symbolize cleaning fluid distribution means 6.

[0041] For instance, the cleaning device 3 may provide a cleaning fluid which is then transferred via the cleaning fluid distribution means 6 to the food and/or feed processing device 2, where, according to a predetermined protocol, the relevant parts 4 and surfaces 5, which came in contact with the food product, are cleaned. The position of the cleaning fluid distribution means 6 is purely here purely symbolic. The person skilled in the art understands that in order to clean the drum 4, the cleaning fluid distribution means 6 may have to be arranged differently. Additionally, usually further distribution means will be provided to collect and discharge the used cleaning fluid. It is e.g. transferred back to the cleaning device 3 where it will be filtered, cleaned and recycled.

[0042] Alternatively, the drum 4, and/or other parts 4 of the food and/or feed processing device 2, may be removed from the processing device and transferred to the cleaning device 3. In such a case, cleaning fluid distribution means 6 are not necessary. Instead, the drum 4 will be introduced into the cleaning device 3 and cleaned.

[0043] As mentioned before, the present invention applies to other food and/or feed processing devices such as freezers, tumblers, mixers, grinders, bowl choppers, food injectors, brine preparing and/or injecting devices, coaters, fryers, cookers or other devices which require regular cleaning with regard to hygiene regulations as well. Even with formers, such as explained above, the invention shall not be restricted to rotating drum formers. Another possible application are formers using moulding plates.

[0044] According to the present invention, the cleaning fluid is at least partially plasma activated water (PAW). PAW is produced by contacting watertap water or any kind of purified water such as distilled, double-distilled or deionized waterwith a plasma. A plasma is a state of matter similar to an ionized gas. It may be produced by subjecting a (dielectric) gas or fluid to high currents. Hence, a plasma producing device requires substantially a fluid and electricity as resources.

[0045] By contacting water with the plasma, the water will obtain nitrogen oxide and hydrogen peroxide and become more acidic, corresponding to a lower pH value. Details on plasma activated water are disclosed in the patent application WO 2016/096751 A1, whose content is fully incorporated herewith, in particular with regard to PAW and devices for producing PAW. The thus produced PAW comprises antibacterial and anti-biofilm properties and can thus be used as a detergent, a disinfectant and/or sanitizer, which is generally comprised as a cleaning fluid in the following.

[0046] Preferably, the cleaning device 3 comprises a device for producing PAW and/or a reservoir for storing PAW and/or has a Atmospheric-pressure plasma device to produce PAW on the surface.

[0047] Usually, cleaning of food producing devices' 2 parts 4 comprise multiple and/or repeated steps or pre-cleaning, applying a cleaning fluid, rinsing and drying.

[0048] By using PAW as a cleaning fluid, many of those steps may be omitted, as PAW may be used for cleaning as well as for rinsing. Due to the good cleaning properties, repeated steps may be unnecessary and as water is basically non-toxic with regard to food products, extensive rinsing steps in order to reliably remove all traces of a detergent are unnecessary as well.

[0049] Thus, whether a CIP method is used or the drum 4 is transferred to the cleaning device 3, the cleaning process will be more effective. Additionally, in a very advantageous manner, no additional and/or limited cleaning fluids are required. Storing and applying detergents comprising serious health hazards is thereby advantageously avoided.

[0050] In FIG. 2, a part 4 of a food and/or feed processing device 2 comprising a surface 5 to be cleaned according to a preferred embodiment of the present invention is shown. As explained with regard to FIG. 1, here the part 4 is a rotating moulding drum 4 of a former. The drum 4 comprises a cylindrical form with a longitudinal axis A around which it is rotatable. The drum 4 comprises multiple rows of, e.g. differently formed, cavities 7. In order to securely push out the formed food product, the drum 4 comprises flow distribution means 8, in this case channels for distributing pressurized air. Each cavity preferably comprises a, in particular independently controllable, nozzle. The former comprises an air supply which is connectable to the flow distribution means 8 of the drum 4. At the right position, the pressurized air is expelled through the nozzles of a row and the food products are pushed out of the cavities 7.

[0051] In order to ensure good cleaning, in particular when the former is adapted for CIP, the drum 4 further comprises cleaning fluid distribution means 9. In this case, these cleaning fluid distribution means 9 comprise circumferentially distributed openings through which the PAW may enter into the flow distribution means 8 for cleaning the drum 4 from the inside as well. Thus, potentially channel blocking food residuals may be removed. Any other form of cleaning fluid distribution means 9 may be suitable as well, e.g. a dedicated connection for PAW may be provided in the drum 4 and/or the former.

[0052] Alternatively or additionally, a premixed fluid flow is applied at one point during the cleaning process, wherein the premixed fluid flow comprises PAW. For example, PAW may be introduced into an air stream in order to ensure a better flow distribution and/or in order to provide a drying air stream with antibacterial and anti-biofilm properties.

[0053] In FIG. 3, a cleaning device 3 with a part 4 removed from a food and/or feed processing device 2 according to a preferred embodiment of the present invention is shown. In this case, the drum 4 is removed from the former and transferred via a transfer device, which is visible on the left of the drawing into the cleaning device 3. The transfer device may be omitted, but is helpful for securely transferring the usually heavy drum 4. As shown in FIG. 3, the drum 4 is fixed in a bearing and enclosed by a casing, in order to prevent any substance from exiting the cleaning device 3. The cleaning inside the cleaning device 3 may comprise bathing, showering, spraying, rinsing and/or drying steps. According to the present invention, in at least some of the above-mentioned steps, preferably in all steps, PAW is used alone or in combination with other substances. Preferably, at the bottom of the cleaning device, a sink is provided for collection the used cleaning fluid. More preferably, the used cleaning fluid is recycled by filtering it.

[0054] Even though not shown in FIG. 3, the cleaning device 3 may be connected to or comprise a PAW production device. Thus, the PAW required for cleaning is produced in-line.

[0055] In FIG. 4, a part 4 of a food and/or feed processing device 2 comprising a surface 5 to be cleaned according to a preferred embodiment of the present invention is shown. In the case moulding plates are used in lieu of a moulding drum, knock-out units 10 as shown in FIG. 4 may be used for pushing the food products out of the cavities. Here, the knock-out unit 10 comprises a row of four knock-out cups 11 as well as flow and/or cleaning fluid distribution means 8, 9. In particular, the knock-out unit 10 may comprise dedicated flow distribution means 8 and cleaning fluid distribution means 9 or the flow distribution means 8 may be used for cleaning as cleaning fluid distribution means 9.

[0056] Alternatively or additionally, one of the shown connection tubes serves as a pneumatic, hydraulical and/or electrical connection line.

[0057] In FIG. 5, the part 4 of a food and/or feed processing device 2 of FIG. 4 according to a preferred embodiment of the present invention is shown from a different perspective. In FIG. 5, a gap surrounding the knock-out cups 11 is identifiable. In use, air may be expelled through this gap to help pushing out the food products. Thus, the gap is part of the flow distribution means 8. Preferably, in cleaning, a premixed PAW and air flow will be forced through the gaps to remove blocking objects and for removing biofilms and cleaning the knock-out unit 10. For this purpose, the gap functions, depending on the situation, as cleaning fluid distribution means 9.

LIST OF REFERENCE SIGNS

[0058] 1 food processing system [0059] 2 food and/or feed processing device [0060] 3 cleaning device [0061] 4 part [0062] 5 (porous) surface [0063] 6 fluid transmitting means [0064] 7 cavities [0065] 8 flow distribution means [0066] 9 cleaning fluid distribution means [0067] 10 knock-out unit [0068] 11 knock-out cups [0069] A axis