KR200277531Y1 - Cassegrain antenna with vertically slidable sub reflector - Google Patents

Abstract

The disclosed subject matter relates to a caseingrain antenna having a vertically movable sub-reflective plate. More specifically, in the casein antenna comprising a combination of the main reflector and the sub-reflective plate, receiving and transmitting by adjusting the vertical height of the feed reflector of the sub-reflective plate that receives the radio waves radiated from the feed horn and reflects back to the main reflector The present invention relates to a caseegrain antenna that prevents noise on the image and improves its sensitivity.

The caseegrain antenna having a vertically movable sub-reflective plate according to the present invention is a sub-reflective plate fixed to the lower fixing piece on the outer surface of the feed horn located in the center of the main reflecting plate, and the lower reflecting plate in the center of the upper fixing piece connected by the lower fixing piece and the support. By screwing the coupling screw of, the height of the feed horn and the sub-reflection plate can be adjusted by adjusting the movement of the lower fixing piece and adjusting the screw of the coupling screw. The height adjustment according to the movement of the sub-reflection plate provides an effect of increasing the transmission / reception efficiency by fixing the sub-reflection plate at a position where less disturbing noises occur when transmitting and receiving radio waves.

Description

Cassegrain antenna with vertically slidable sub reflector

The present invention relates to a caseingrain antenna having a vertically movable sub-reflective plate. More specifically, in the casein antenna comprising a combination of the main reflector and the sub-reflective plate, receiving and transmitting by adjusting the vertical height of the feed reflector of the sub-reflective plate that receives the radio waves radiated from the feed horn and reflects back to the main reflector The present invention relates to a caseegrain antenna that prevents noise on the image and improves its sensitivity.

In general, there are various kinds of antennas used for transmitting and receiving radio waves used in wireless communication, and among them, an antenna composed of a parabola-type main reflector and a convex sub-reflective plate A is called a cassegrain antenna. An antenna composed of a reflector and a concave sub-reflection plate is called a Gregorian antenna.

The characteristic of the casein antenna is that the feed horn which radiates radio waves and the transceiver located underneath are directly connected to each other, so the feed field transmission loss is low. It also has a short focal length and high gain at the reflector, and there are very few side lobes where radio waves are radiated forward and leak from side or rear. Therefore, when radiating toward the space, since the leakage power from the sub-reflection plate is directed toward the celestial air, it is used as a high-gain, low-noise antenna for satellite communication earth stations due to the characteristics of receiving less earth reflection.

The antenna must be installed in an open area, such as a high altitude environment or where no objects are present. However, if there is noise on the transmission or reception due to the natural environment or other surrounding environment or its sensitivity is not good, the optimal transmission and reception state can be formed by changing the installation location, direction, and height of the antenna.

However, the existing Casegrain antenna faces toward the main reflector, and the sub-judge plate located in the vertical height direction from the feed horn is fixed and cannot change its direction or vertical height to cope with other obstacles such as transmission / reception noise and transmission / reception rate degradation. There was a problem that I could not.

The caseingrain antenna having a vertically movable sub-reflective plate according to the present invention for solving the problem of the casein-grain antenna as described above allows the sub-reflection plate to adjust its vertical height with respect to the feed horn, thereby creating an optimal transmission / reception state. It is an object to provide an antenna.

1 is a perspective view of a casee grain antenna having a vertically movable sub-reflective plate according to an embodiment of the present invention.

Figure 2 is a perspective view of the coupling state of the feed horn and the sub-reflection plate of the antenna according to an embodiment of the present invention.

Figure 3 is an exploded perspective view of the feed horn and the sub-reflection plate of the antenna according to an embodiment of the present invention.

Figure 4 is a side view of the coupling state of the feed horn and the sub-reflection plate of the antenna according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: antenna 2: feed horn

3: main reflection plate 4: sub-reflection plate

11: lower fixing piece 12: fixing screw

13: support base 14: upper fixing piece

41: coupling screw 42: reflecting surface

A casein grain antenna having a vertically movable sub-reflective plate according to the present invention for achieving the object as described above, in a casein grain antenna having a feed horn, a main reflection plate and a sub-reflection plate, a fixed screw with respect to the outer surface of the feed horn A lower fixing piece fixedly movable by position; An upper fixing piece supported by a support connected to the lower fixing piece and positioned at an upper portion thereof and having a center hole; A sub-reflection plate coupled by a coupling screw formed at a center opposite to the center sphere and the reflective surface; It characterized in that the sub-reflection plate is movable on the upper side of the feed horn.

Casegrain antenna having a vertically movable sub-reflection plate according to the present invention configured as described above, by loosening the fixing screw of the lower fixing piece to move vertically along the outer surface of the feed horn to adjust the position of the sub-reflection plate by tightening the fixing screw in a predetermined position This is possible, and by adjusting the sub-reflection plate coupled to the center of the upper fixing piece in a state where the lower fixing piece is fixed, fine transmission and reception sensitivity can be adjusted to create an optimal transmission and reception state.

Hereinafter, a preferred embodiment of the present invention including the above components will be described in more detail with reference to the accompanying drawings.

1 is a perspective view of a casee grain antenna having a vertically movable sub-reflective plate according to an embodiment of the present invention, Figure 2 is a perspective view of the feed horn and the sub-reflection plate of the antenna, Figure 3 is an exploded perspective view 4 is a side view of the engaged state.

1 shows a state of use of a casee grain antenna 1 having a vertically movable sub-reflective plate 4 according to an embodiment of the present invention. The antenna 1 according to the present invention is received by a transmitting and receiving device for processing transmitted and received radio waves. The antenna according to the present invention is located on the transceiver, and the antenna reflects the parabolic main reflector 3, the feed horn 2 located at the center thereof, and the radio waves radiated vertically from the feed horn. It consists of the sub-reflection board (4).

Radio waves radiated from the lower transceiver through the feed horn 2 are reflected by the reflecting surface 42 of the sub-reflective plate 4, and are reflected by the main reflector 3 and radiated to the outer space.

2 to 3 show the coupling and disconnection state of the sub-reflection plate 4 and the feed horn 2 of the antenna 1 according to the present invention, with reference to the drawings for the height adjustment of the sub-reflection plate 4 Explain. The cylindrical feed horn 2 is coupled through the center hole of the lower fixing piece 11, and the lower fixing piece 11 and the fixing screw 12 are tightened at a predetermined position on the outer surface of the feed horn 2. Is fixed by. Therefore, the position of the sub-reflection plate 4 can be changed because it is possible to loosen the tightened fixing screw 12 and to move the lower fixing piece 11 to the left and right to move in the vertical direction.

The support 13 protruding in the vertical direction at a predetermined position of the lower fixing piece 11 connects and supports the upper fixing piece 14 so as to face the main reflecting plate 2. The upper fixing piece 14 has a center hole with a spiral groove in the center. A coupling screw 41 integrally formed at the center of the reflecting surface 42 of the sub-reflective plate 4 is spirally coupled to the central sphere. Therefore, the sub-reflection plate feed by turning the sub-reflection plate 4 coupled by the coupling screw 41 to the center hole of the upper fixing piece 14 in the state in which the fixing screw 12 of the lower fixing piece 11 described above is fixed. The height of the horn 2 can be adjusted.

Such height adjustment of the sub-reflection plate 4 can be adjusted to suit the optimal transmission / reception state by adjusting the noise and its sensitivity at the time of transmission and reception by adjusting the position of the focus and the reflection area of the sub-reflection plate 4.

4 is a side view of a state in which a vertically movable sub-reflective plate 4 and a feed horn are coupled to each other according to an embodiment of the present invention. The center hole is formed at the center of the upper fixing piece 14 and the lower fixing piece 11, and the coupling screw 41 and the feed horn 2 of the sub-reflection plate 4 pass through the fixing screw 12, respectively. Combined by tightening.

The height of the feed horn 2 and the sub-reflection plate 4 can be adjusted by releasing the fixing screw 12 of the lower fixing piece 11 and moving up and down along the outer surface of the feed horn 2. In addition, between the sub-reflection plate 4 and the feed horn 2 by tightening or loosening the sub-reflection plate 4 screwed to the center hole of the upper fixing piece 14 while the position of the lower fixing piece 11 is fixed. You can also adjust the height gap.

Casegrain antenna 1 according to the present invention is because the transmission and reception device, the main reflecting plate 3, the feed horn 2 and the sub-reflection plate 4 of the lower in series can reduce the transmission power transmission loss. In addition, since radio waves are transmitted and received upward toward the object, the radio waves are rarely lost laterally or rearward.

As described above, an embodiment of a casee grain antenna having a vertically movable sub-reflective plate according to the present invention is constructed. The technical scope of the present invention is not necessarily limited to the above-described embodiment, and various modifications and application examples are possible without departing from the technical scope of the present invention.

Casegrain antenna having a vertically movable sub-reflective plate according to the present invention is fixed to the lower fixing piece on the outer surface of the feed horn located in the center of the main reflecting plate, the sub-reflection plate in the center of the upper fixing piece connected by the lower fixing piece and the support By screwing the coupling screw, the height of the feed horn and the sub-reflection plate can be adjusted by adjusting the movement of the lower fixing piece and adjusting the screw of the coupling screw. The height adjustment according to the movement of the sub-reflection plate provides an effect of increasing the transmission / reception efficiency by fixing the sub-reflection plate at a position where less disturbing noises occur when transmitting and receiving radio waves.

Claims (1)

A casein grain antenna having a feed horn, a main reflection plate and a sub reflection plate, A lower fixing piece fixedly movable in position with respect to an outer surface of the feed horn; An upper fixing piece supported by a support connected to the lower fixing piece and positioned at an upper portion thereof and having a center hole; A sub-reflection plate coupled by a coupling screw formed at a center opposite to the center sphere and the reflective surface; A casee grain antenna having a vertically movable sub-reflective plate, characterized in that the sub-reflection plate is movable on the upper side of the feed horn.