Sealing supported by pressurized air

What is claimed is: 1. A method of closing a packaging tray, the method comprising: arranging a packaging tray, which is filled with a product to be packed, between a lower tool and an upper tool of a sealing station; positioning a cover film above the packaging tray between the lower tool and the upper tool of the sealing station; and pressing together the cover film and the packaging tray by a lower sealing surface of the lower tool and an upper sealing surface of the upper tool cooperating with the lower sealing surface, a connection between the cover film and the packaging tray being established along a sealing seam during the pressing together; wherein an overpressure is locally generated by supplying pressurized gas from a pressurized-gas source while the cover film and the packaging tray are being pressed together, the overpressure cooperating as a counterpressure with the lower sealing surface or with the upper sealing surface so as to press the cover film and the packaging tray together, and wherein the overpressure is generated in an area in which the packaging tray locally has a reduced thickness. 2. The method according to claim 1 , wherein the packaging tray comprises at least two superimposed material layers, wherein the overpressure is generated in an area in which at least one material layer of the packaging tray is omitted. 3. The method according to claim 1 , wherein the overpressure is generated at at least one corner of the packaging tray. 4. The method according to claim 1 , wherein the lower sealing surface or the upper sealing surface has provided therein a pressurized-gas aperture and the overpressure is provided via the pressurized-gas aperture. 5. The method according to claim 1 , wherein generation of the overpressure by supplying the pressurized gas only takes place after the cover film and the packaging tray have been pressed together by the lower sealing surface and the upper sealing surface at least for a first period of time. 6. The method according to claim 1 , wherein the overpressure is reduced before the pressing together of the cover film and the packaging tray by the lower sealing surface and the upper sealing surface is terminated. 7. The method according to claim 1 , wherein the overpressure is a pressure of at least 4 bar. 8. The method according to claim 1 , wherein the overpressure is a pressure of at least 5 bar. 9. The method according to claim 1 , wherein the overpressure is a pressure of at least 6 bar. 10. The method according to claim 1 , wherein the pressurized gas is actively heated before it is supplied. 11. A sealing station comprising: a lower tool provided with a lower sealing surface; an upper tool provided with an upper sealing surface and arranged above the lower tool; a drive unit configured to move the lower tool and the upper tool towards each other, or to move one of the lower and upper tools toward the other, so that a packaging tray and a cover film for closing the packaging tray may be pressed together between the lower sealing surface and the upper sealing surface when the packaging tray and the cover film are positioned between the lower tool and the upper tool; a pressurized-gas source; a valve; and a control unit; wherein the lower sealing surface or the upper sealing surface has provided therein a pressurized-gas aperture, which is configured to allow an escape of pressurized gas provided by the pressurized-gas source, the valve is configured to selectively prevent or allow a flow of the pressurized gas from the pressurized-gas source to the pressurized-gas aperture, and the control unit is configured to control the drive unit for pressing the packaging tray and the cover film together by means of the lower sealing surface and the upper sealing surface and to control the valve for allowing the flow of the pressurized gas to the pressurized-gas aperture after the cover film and the packaging tray have been pressed together at least for a predetermined first period of time. 12. The sealing station according to claim 11 , wherein the lower sealing surface or the upper sealing surface comprises a depression, and wherein the pressurized-gas aperture is arranged in the depression. 13. The sealing station according to claim 11 , wherein the lower tool is configured as a tray holder for receiving the packaging tray, wherein the lower sealing surface provides a support surface for a flange of the packaging tray. 14. A method of closing a packaging tray, the method comprising: arranging a packaging tray, which is filled with a product to be packed, between a lower tool and an upper tool of a sealing station; positioning a cover film above the packaging tray between the lower tool and the upper tool of the sealing station; and pressing together the cover film and the packaging tray by a lower sealing surface of the lower tool and an upper sealing surface of the upper tool cooperating with the lower sealing surface, a connection between the cover film and the packaging tray being established along a sealing seam during the pressing together; wherein an overpressure is locally generated by supplying pressurized gas from a pressurized-gas source while the cover film and the packaging tray are being pressed together, the overpressure cooperating as a counterpressure with the lower sealing surface or with the upper sealing surface so as to press the cover film and the packaging tray together, wherein the packaging tray comprises at least two superimposed material layers, and wherein the overpressure is generated in an area in which at least one material layer of the packaging tray is omitted. 15. The method according to claim 14 , wherein the overpressure is generated at at least one corner of the packaging tray. 16. The method according to claim 14 , wherein the lower sealing surface or the upper sealing surface has provided therein a pressurized-gas aperture and the overpressure is provided via the pressurized-gas aperture. 17. The method according to claim 16 , wherein the sealing station comprises a valve configured to selectively prevent or allow a flow of the pressurized gas from the pressurized-gas source to the pressurized-gas aperture, and a control unit configured to control the pressing together the cover film and the packaging tray by the lower sealing surface and the upper sealing surface and to control the valve for allowing the flow of the pressurized gas to the pressurized-gas aperture after the cover film and the packaging tray have been pressed together at least for a predetermined first period of time. 18. The method according to claim 14 , wherein generation of the overpressure by supplying the pressurized gas only takes place after the cover film and the packaging tray have been pressed together by the lower sealing surface and the upper sealing surface at least for a first period of time. 19. The method according to claim 14 , wherein the overpressure is reduced before the pressing together of the cover film and the packaging tray by the lower sealing surface and the upper sealing surface is terminated. 20. The method according to claim 14 , wherein the overpressure comprises a pressure of at least 4 bar.