초록 ▼

The invention relates to a pressure sealing device and a method for decreasing the cut-off frequency in such a pressure sealing device used in a radar level gauging system for gauging a filling level of a product kept in a container, the sealing device comprises a waveguide for feeding microwaves in

The invention relates to a pressure sealing device and a method for decreasing the cut-off frequency in such a pressure sealing device used in a radar level gauging system for gauging a filling level of a product kept in a container, the sealing device comprises a waveguide for feeding microwaves in at least one of the following mode types: transverse electric mode, transverse magnetic mode or hybrid mode. Said waveguide is sealed by a dielectric material. A center conductor is arranged at least partially within said dielectric material.

대표청구항 ▼

1. A pressure sealing device in a radar level gauging system for gauging a filling level of product kept in a container, the sealing device comprises:a waveguide for feeding microwaves;a solid dielectric material arranged to seal said waveguide; anda center conductor partially extending through said

1. A pressure sealing device in a radar level gauging system for gauging a filling level of product kept in a container, the sealing device comprises:a waveguide for feeding microwaves;a solid dielectric material arranged to seal said waveguide; anda center conductor partially extending through said dielectric material. 2. The pressure sealing device according to claim 1, wherein the waveguide has a circular radial cross-section. 3. The pressure sealing device according to claim 1, wherein the waveguide has a rectangular radial cross-section. 4. The pressure sealing device according to claim 1, wherein said waveguide comprises a section having a smaller radial cross-section than the rest of the waveguide, which section is arranged to mechanically clamp said dielectric material and wherein said center conductor is arranged in the section of the waveguide having the smaller radial cross-section. 5. The pressure sealing device according to claim 4, wherein said center conductor has essentially the same length as said section of the waveguide having the smaller radial cross-section, which length is approximately λ/2 of the actual waveguide wavelength. 6. The pressure sealing device according to claim 1, further comprising at least one impedance transformer section arranged at least at one of the ends of said center conductor. 7. The pressure sealing device according to claim 6, wherein two impedance transformer sections being approximately λ/4 long each are arranged at the opposing ends of said center conductor. 8. The pressure sealing device according to claim 1, wherein the solid dielectric material is at least one of the following materials: PTFE, PPS, quartz, glass or a ceramic material. 9. The pressure sealing device according to claim 1, wherein said center conductor has a smooth envelope surface. 10. The pressure sealing device according to claim 1, wherein the envelope surface of said center conductor is provided with grooves. 11. The pressure sealing device according to claim 1, further comprising at least one O-ring. 12. The pressure sealing device according to claim 11, comprising two O-rings being arranged λ/4 apart. 13. The pressure sealing device according to claim 1, wherein at least the envelope surface of said center conductor is made of a metal. 14. A radar level gauge for gauging a filling level of a product kept in a container comprising:a microwave antenna unit directable into the container;a microwave source for sending a microwave signal through the antenna unit into the container;a microwave receiver for receiving a reflected microwave signal from the surface of the product in the container;measurement circuitry coupled to the source and receiver for initiating transmission of the microwave signal and for determining product level based upon the received signal;a waveguide for feeding the microwaves between said source/receiver and said antenna;a solid dielectric material arranged to seal said waveguide; anda center conductor partially extending through said dielectric material. 15. The radar level gauge according to claim 14, further comprising a communication interface for sending and receiving information. 16. The radar level gauge according to claim 14, wherein said level gauge is arranged to transmit and receive microwaves on at least a first and a second frequency band, and wherein the center frequency of the second frequency band is at least 1.5 times higher than the frequency center of the first frequency band. 17. The radar level gauge according to claim 16, wherein the center frequency of the second frequency band is at least 2 times higher than the frequency center of the first frequency band. 18. The radar level gauge according to claim 14, wherein the waveguide has a circular radial cross-section. 19. The radar level gauge according to claim 14, wherein the waveguide has a rectangular radial cross-section. 20. The radar level gauge according to claim 14, wherein said waveguid e comprises a section having a smaller radial cross-section than the rest of the waveguide, which section is arranged to mechanically clamp said dielectric material and wherein said center conductor is arranged in the section of the waveguide having the smaller radial cross-section. 21. The radar level gauge according to claim 20, wherein said center conductor has essentially the same length as said section of the waveguide having the smaller radial cross-section, which length is approximately λ/2 of the actual waveguide wavelength. 22. The radar level gauge according to claim 14, further comprising at least one impedance transformer section arranged at least at one of the ends of said center conductor. 23. The radar level gauge according to claim 22, wherein two impedance transformer sections being approximately λ/4 long each are arranged at the opposing ends of said center conductor. 24. The radar level gauge according to claim 14, wherein the solid dielectric material is a least one of the following materials: PTFE, PPS, quartz, glass or a ceramic material. 25. The radar level gauge according to claim 14, wherein said center conductor has a smooth envelope surface. 26. The radar level gauge according to claim 14, wherein the envelope surface of said center conductor is provided with grooves. 27. The radar level gauge according to claim 14, further comprising at least one O-ring. 28. The radar level gauge according to claim 27, comprising two O-rings being arranged u4 apart. 29. The radar level gauge according to claim 14, wherein at least the envelope surface of said center conductor is made of a metal. 30. A method for implementing a pressure sealing device in a waveguide used in a radar level gauging system for gauging a filling level of a product kept in a container;the sealing device comprises a solid dielectric material arranged to seal said waveguide,the method comprising the steps of:arranging a decreased cross section of said waved guide to clamp said solid dielectric material,providing a center conductor at least partially extending through said dielectric material andmatching the diameter of said center conductor to said decreased cross section to approximately maintain the cut-off frequency of the waveguide. 31. The method according to claim 30, further comprising the step of providing at least one transformer section arranged at one of the ends of said center conductor. 32. The method according to claim 31, further comprising providing two transformer sections being approximately λ/4 long each arranged at the opposing ends of said center conductor. 33. The method according to claim 30, further comprising providing a center conductor comprising a smooth envelope surface. 34. The method according to claim 30, further comprising providing a center conductor comprising an envelope surface provided with grooves. 35. The method according to claim 30, further comprising providing at least one O-ring, preferably two O-rings being arranged λ/4 apart.