FI3691034T3 - Antenna device, antenna system, and instrumentation system - Google Patents

Claims (13)

Patent Claims 1. An antenna device (1) comprising: a waveguide body (5) containing a coaxial waveguide conversion unit (6) which is hexagonal and made of a conductive material and contains an inner space (8) formed by passing the facing first surface (M1 ) and the second surface (M2), and a connector connection hole (22) for inserting the coaxial connector, which is continuously formed between the third surface (M3) perpendicular to the first surface (M1) and the second surface (M2) and the inner space (8) , and a closing member (30) which is conductive and which closes the inner space (8) on the side of the second surface of the opening (M2); and a connector (50) containing a terminal body (51) which is conductive and attached to the connection hole (22) of the connector outward from the inner space (8), the inner end of which does not protrude into the inner space (8), a central conductor (60) arranged to penetrate axially to the central part of the connector body (51), where its end part protrudes from the inner end of the connector body (51) into the interior space (8) by a predetermined length, and the radiator (54b) configured with the end part (60a) of the central conductor (60) that protrudes into the interior space (8), to radiate radio waves from the central conductor (60) into the interior (8) by matching the protruding length of the end part (60a) to a certain frequency band. 2. The antenna device (1) according to claim 1, characterized in that it further comprises a polarization unit (100) which is connected to the non-closed surface side of the interior (8) of the coaxial waveguide conversion unit (6) to convert the radio waves radiating from the radiator (54b) into circularly polarized waves or to the horn part (200) connected to the non-closed surface side of the inner space (8) directly or through the polarization unit (100) — to cut the radio waves coming in from the outside. 3. Antenna device (1) according to claim 2, characterized in that the horn part (200) is configured to generate linearly polarized waves by means of a truncated square pyramidal horn (200A) or to generate circularly polarized waves by means of a truncated cone-shaped horn (200B). 4. Antenna device (1) according to claim 1, characterized in that the coaxial waveguide conversion unit (6) contains a first waveguide part (10) with a concave part (11) which forms an inner space (8) on one surface (6a), and a second of the waveguide part (20) which is removably attached to one surface (6a) of the first waveguide part (10) to close the side of one surface (6a) of the concave part (11) to form an inner space (8), a screw hole (13) is formed in each position, wherein a concave part (11) is arranged between them on one surface (6a) of the first waveguide part (10), and a long hole (24) extending parallel to the axial direction of the inner space (8) is each formed at a position in the second waveguide part (20), which — lines up with each screw hole (13) so that a screw can be screwed into each screw hole (13) through each long hole (24). 5. The antenna device (1) according to claim 3, characterized in that the second waveguide part (20) is attached to enable fine-tuning of its position opposite one surface (6a) of the first waveguide part (10). 6. The antenna device (1) according to claim 1, characterized in that the axial length of the central conductor (60) of the coaxial connector protruding from the inner end (56a) is the length (L) obtained by multiplying a quarter of the wavelength of the specific frequency band by a predetermined contraction ratio. 7. Antenna device (1) according to claim 2, characterized in that the horn part (200) contains a first interior space (8) with a longitudinal width of 4.3 millimeters and a horizontal width of 8.6 millimeters, and a second interior space (8), whose lengthwise width is 15 millimeters — 16 millimeters and horizontal width 15 millimeters — 16 millimeters. 8. Antenna device (1) according to one of claims 2-6, characterized in that the coaxial waveguide conversion unit (6), the polarization unit (100) and the horn part (200) is made of a material such as copper, iron, aluminum, brass, metamaterial, metal-coated plastic or plastic or metal-coated resin. 9. Antenna device (1) according to one of claims 1-8, characterized in that a certain frequency band is 23 GHz to 29 GHz. 10. A system comprising an antenna device (1) according to one of claims 1-8 and an object to be measured, where the antenna device is arranged in a desired position — in relation to the object to be measured, in order to receive radio waves radiating from the object to be measured. 11. A system comprising an antenna device (1) according to one of claims 1-8 and an object to be measured, where the antenna device is arranged in the desired position — in relation to the object to be measured to emit radio waves to the object to be measured. 12. An antenna system (300) comprising the antenna devices (1) according to one of claims 1-8 as a pair, where each of the antenna devices (1) is designated as a first antenna device (301) — and a second antenna device (303), and the antenna system is configured such that the first the radio waves radiating from the antenna device (301) are received by the second antenna device (303), which is arranged opposite the radiation direction of the first antenna device (301). 13. An instrumentation system (340) comprising an antenna system according to claim 12 and an object to be measured, where the object to be measured is arranged between the first antenna device (301) and the second antenna device (303) arranged in the antenna system (300).