UA17304U - Omnidirectional antenna - Google Patents

Abstract

The proposed omnidirectional antenna contains a circular waveguide, a primary radiator, and a conical reflector, which is installed coaxially with the radiator. The antenna is distinctive by a possibility to decrease or increase the effective area of the radiator.

Description

Description of the invention

The useful model belongs to the field of antenna technology and can be used in radio engineering 2 complexes that include antennas.

Known omnidirectional broadband microwave antenna March 9, 1978), which includes a round waveguide and at least one reflector in the form of a cone.

In the specified analogue, it is not possible to quickly change the angle of inclination of the directional diagram due to the peculiarities of the reflector building.

The closest analogue of the claimed useful model is an antenna with horizontal polarization (Japan Мо52-48783 МКИ НОТ1О19/10 publ. Мо5 12.12.1977, Mob6-1220; application Мо46-94075, dated 11/25/1971), which consists of a round waveguide, a primary emitter and a reflector in the form of a cone, the axis of which coincides with the axis of the emitter.

The general features of the known design and the claimed useful model are a round waveguide, a primary emitter 12 and a reflector in the form of a cone, the axis of which coincides with the axis of the emitter.

In the closest analogue, it is not possible to quickly change the geometric parameters of the reflector due to the rigidity of its design, which reduces the flexibility of its use for operational control of the angle of inclination of the directional diagram and narrows the area of use of the antenna in antenna technology.

The basis of the useful model is the task of improving the omnidirectional antenna, which ensures the operational change of the angle of inclination of the directional diagram, which leads to the expansion of the area of application of the omnidirectional antenna.

The task is solved by the fact that an omnidirectional antenna containing a circular waveguide, a primary emitter and a conical reflector, the axis of which coincides with the axis of the emitter, according to a useful model, the conical reflector is made with the possibility of reducing or increasing the reflecting side surface of the cone.

Cause-and-effect relationship of features that determine the essence of a useful model with a technical result. in

The design involves making a conical reflector from a sheet of radio-reflective material rolled up in such a way that partial folding and unfolding of the sheet leads to a decrease or increase in the lateral conical surface of the reflecting reflector without disturbing its co-axis with the primary emitter.

The primary emitter and the reflector are located in such a way that the waves from the primary emitter C uniformly reflect from the reflector at an angle that depends on the degree of folding of the reflector by the control device, thereby changing the angle of inclination of the directional diagram.

The marked features make up the essence of the useful model shown in Fig. 1. She

Fig. 2, 3, 4 show the position of the reflector in the average, folded and unfolded state, the direction of the reflected wave for each of the states, and also the possibility of moving the reflector along 395 obi is shown in dashed lines. They also show waveguide - 1, primary emitter - 2 and reflector - 3. --

The device works in the following way.

Through the circular waveguide 1, the wave enters the primary emitter 2, through which it enters the reflector 3, from which it is reflected at an angle that can be changed. "

The proposed omnidirectional antenna provides the formation of an omnidirectional directional pattern and Z 70 operational control of its angle of inclination, which allows expanding the scope of the antenna and creating more perfect antenna systems.

Claims (1)

;" The formula of the invention - An omnidirectional antenna containing a circular waveguide, a primary emitter and a conical reflector, the -I axis of which coincides with the axis of the emitter, which is distinguished by the fact that the conical reflector is made with the possibility of reducing or increasing the reflective side surface of the cone. (95) at 50 s" with 60 b5