RU166305U1 - RANGE OF WAVE-HORNE RADIATORS - Google Patents

Abstract

1. The line of waveguide-horn emitters, containing one metal plate, characterized in that it additionally introduced three metal plates and step partitions, arranged in such a way that step partitions, which are side walls, in combination with four plates installed in pairs on both sides of the step the partitions overlap each other, form a mouthpiece, rigidly connecting the entire structure together. 2. The line of waveguide-horn emitters according to claim 1, characterized in that the metal plates are made with a set of holes, and step partitions with protrusions for their subsequent connection into a single structure.

Description

The utility model relates to antenna technology and is intended to build antenna arrays, used in particular in radar systems and communication systems.

The well-known "Antenna array" [RU 2552933 published 01/27/2015 IPC H01Q 9/34], including a reflector and emitters, each of which contains a symmetric vibrator made in the form of two flat metal elements having identical rectangular shoulders, an external and an internal conductor for connection symmetric vibrator to the external signal transmission line, while the emitters are perpendicular to the flat metal reflector, the plane of the emitters are located along the longitudinal axis of the antenna array. The vibrator connection conductors are made in the form of a flat air three-wire transmission line containing two external conductors on which the arms of the symmetrical vibrator and the inner conductor located between them are attached. The emitters are located on the reflector in one line of eight emitters, the reflector has eight holes, the centers of which coincide with the projections of the centers of the emitters on the reflector, designed to connect the inner conductor of each vibrator of the emitter with an external signal transmission line, at the ends of the reflector has a rectangular groove for installing a conductive strip . Two pairs of holes located one above the other are made on the front plane of the reflector, pairs of holes are located symmetrically with respect to the center of the reflector, threaded sleeves are pressed into the holes, and a surface dimming is made around the holes around the holes, providing jumpers that fasten adjacent antenna arrays vertically. The location of the emitters on the reflector ensures the preservation of the pitch of the location of the vibrators in adjacent antenna arrays when installing any number of antenna arrays next to each other.

The disadvantage of this solution is the low adaptability.

The closest in technical essence is the construction of the array of waveguide-horn emitters described in the application for the invention "Array of waveguide-horn emitters, methods for constructing the arrays of waveguide-horn emitters and antenna systems" [RU 2014124980 published on 12.27.2015 IPC H01Q 21/00]. The lattice of the waveguide-horn emitters, contains a rectangular metal plate, processed so that in cross section it contains many rectangular holes located along the length of the rectangular metal plate. The lower part of each hole is made in the form of a rectangular waveguide, and the upper part is in the form of a horn. On two sides of the holes on the upper surface of the rectangular metal plate is a groove of a given depth, which stretches in the direction of the location of the many holes.

The disadvantage of this technical solution is the implementation of the array of waveguide-horn emitters from a single plate leading to a large mass of the array of emitters and high metal consumption.

The technical result of the proposed utility model is to reduce the mass and metal intensity of the line of waveguide-horn emitters.

The essence of the proposed line of waveguide-horn emitters is that it contains a plate.

New in the proposed technical solution is that three metal plates and step partitions are additionally introduced, such that step partitions, which are side walls, together with four plates installed in pairs on both sides of the step partitions overlap each other, form a horn, rigidly connecting the entire structure together. Metal plates are made with a set of holes, and step partitions with protrusions for their subsequent connection into a single structure.

In FIG. 1 is a front view of a line of waveguide-horn emitters.

In FIG. 2 shows a cross section AA of a line of waveguide-horn emitters.

In FIG. 3 shows a ruler of waveguide-horn emitters in axonometric projection.

In FIG. 4 shows a general view of a stepped partition with protrusions.

The line of waveguide-horn emitters comprises a first metal plate (1), a second metal plate (2), a third metal plate (3), a fourth metal plate (4), in which a set of holes (5) is made, and step partitions (6) with protrusions (7).

The line of waveguide-horn emitters, consists of several waveguide-horn emitters. The longitudinal walls of the waveguide-horn emitters are formed by overlapping two metal plates, one longitudinal wall by metal plates (1) and (2), and the second longitudinal wall by metal plates (3) and (4). The side walls of the horn emitters are formed by stepped partitions (6) installed between the longitudinal walls of the horn emitters, rigidly connecting the longitudinal walls of the emitters to each other.

A rigid connection of the structure can be ensured due to the fact that the step walls (6) are made with protrusions (7), and in the metal plates (1), (2), (3), (4) holes (5). The protrusions (7) are installed in the holes (5), and then the connection is soldered.

A line of waveguide-horn emitters is used in antenna systems and is installed, for example, on transceiver modules of an active phased antenna array or on phasing devices of passive phased antenna arrays. The waveguides of the modules of the transceiver are connected to the inputs of the horn emitters. The electromagnetic energy transmitted by the waveguides to the waveguide part of the emitters formed by the plates (2), (4) and the narrow parts of the step walls (6) is radiated into the space by the horn part of the emitters formed by the plates (1) and (3) and the wide parts of the step partitions ( 6).

The use of a prefabricated structure of metal plates and partitions, in contrast to the implementation of the emitters in a solid plate, as indicated in the prototype, allows to reduce the mass and metal consumption of the line of waveguide-horn emitters.

Claims (2)

1. The line of waveguide-horn emitters containing one metal plate, characterized in that it additionally introduced three metal plates and step partitions, arranged in such a way that step partitions, which are side walls, in combination with four plates installed in pairs on both sides of the step the partitions overlap each other, form a mouthpiece, rigidly connecting the entire structure together. 2. The line of waveguide-horn emitters according to claim 1, characterized in that the metal plates are made with a set of holes, and step partitions with protrusions for their subsequent connection into a single structure.

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