KR20020094802A - Radar dome having a reflection parts - Google Patents

Abstract

PURPOSE: A radome having convex-concave structure is provided to achieve improved receiving performance of an antenna by improving structure of the radome for protecting antennas. CONSTITUTION: A radome(12) protects array type antennas(14) disposed along the same circumference. The radome opposed to the center of each antenna, has a convex-concave portion(16) for refracting the received wave centering from the antenna. The convex-concave portion is formed in the height direction of the radome, and partially formed in the area opposed to the center of each antenna. The convex-concave portion is shaped as a semi circle. Thus, wave is refracted at the convex-concave portion of the radome, and incident to the antenna in a further vertical way.

Description

Uneven Radom {Radar dome having a reflection parts}

The present invention relates to a radome that protects the receiving antenna from the external environment, and more particularly, to an uneven type radome which improves the reception capability of the antenna by refracting the radio wave received through the radome.

A radome is a device for protecting an antenna that receives radio waves. The radome should be able to protect the antenna from external environments that may affect the reception of radio waves such as wind and moisture without disturbing the received radio waves.

In order for the antenna to receive radio waves most effectively, it is desirable to open the antenna in space, but it is common to install a radome because it may physically affect the antenna due to external conditions such as wind or rain.

Therefore, the radome has a degree of difference depending on the material of the radome, but interferes with the reception of the radio wave to degrade the antenna function.

As shown in FIG. 1, in the related art, a cylindrical radome 12 surrounding a plurality of array antennas 14 formed at a predetermined interval on one pole 18 is installed, and radio waves are provided at the center of the antenna 14. When the incident light is inclined, the amount reflected from the surface of the radome 12 is increased, thereby deteriorating a reception state of the antenna.

The present invention is to solve the problems as described above, to provide a concave-convex radome that can improve the reception performance of the antenna by forming an uneven portion in the radome so as to guide the received radio wave toward the center of the antenna.

1 shows a conventional radome.

Figure 2 shows a radome according to the present invention.

<Explanation of symbols for the main parts of the drawings>

12: Radom 14: antenna

16: uneven part 18: Paul

The present invention is a cylindrical radome protecting an array of antennas in which a plurality of antennas are arranged along the same circumference in order to achieve the above object, the radio wave received on the radome of the side opposite to the center of each antenna It provides an uneven radome characterized in that the concave-convex portion that can be refracted to the center thereof.

In addition, the present invention provides a concave-convex radome characterized in that the concave-convex portion of the radome is formed along the height direction of the radome in order to achieve the above object.

In addition, the present invention provides an uneven radome characterized in that only one portion is formed on the opposite side of the antenna center in order to achieve the above object.

In addition, the present invention provides a concave-convex radome characterized in that the concave-convex portion of the radome is formed in a semicircle to achieve the above object.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, a cylindrical radome 12 surrounds the columnar array antenna 14.

That is, as shown in FIG. 3, the array antennas 14 are equally disposed at regular intervals along one pole 18, and the radome 12 surrounding the array antennas 14 is illustrated in FIG. 2. As shown in the figure, semi-circular uneven portions 16 are formed opposite to the center of each antenna 14.

The semicircular uneven portion 16 is formed along the longitudinal direction (height direction) of the radome 12, as shown in FIG. Therefore, the height of the radome 12 is the same as the height of the concave-convex portion 16, but the concave-convex portion 16 may be formed only at the position where the antenna is disposed, the concave-convex portion 16 may be formed irrespective of the height of the radome. .

The semi-circular uneven portion 16 is not formed separately on the outer circumference of the radome 12, but is formed in a continuous line integrally with the radome 12, the thickness and the uneven portion 16 of the portion where the uneven portion 16 is formed The thickness of the portion where no was formed is the same. That is, the uneven portion 16 is the same as to produce a material forming the radome 12 folded in the form of uneven.

When the radio wave is received by the antenna 14 in the radome having the semi-circular uneven portion 16 as described above, as shown in Figure 2, the received radio wave at the uneven portion 16 of the radome 12 It is refracted in the direction of the arrow and is incident more perpendicularly to the antenna 14. That is, even when the radio wave is incident at a predetermined inclination angle with the center of the antenna 14, it is refracted by the uneven portion 16 is received more vertically to the center of the antenna 14.

As described above, the uneven radome refracts the received radio waves in the radome so that the uneven part is inclined at a predetermined angle with the center of the antenna, and finally the received radio waves are incident more vertically than the angle incident on the center of the antenna. Therefore, the reception performance of the antenna can be improved.

Claims (4)

In a cylindrical radome protecting an array of antennas in which a plurality of antennas are arranged along the same circumference, Concave-convex radome, characterized in that the concave-convex portion is formed in the radome on the side opposite to the center of each antenna to receive the refracted wave to the center of the antenna. The method of claim 1, Concave-convex radome characterized in that the concave-convex portion of the radome is formed along the height direction of the radome. The method of claim 2, Concave-convex radome of the radome is characterized in that only one portion is formed on the opposite side of the antenna center. The method of claim 1, Concave-convex radome, characterized in that the concave-convex portion made of a semicircular.