KR0153683B1 - The device for automatically adjusting an angle of reflector of plane antenna - Google Patents

Abstract

The present invention relates to a device for adjusting a reception angle of a planar antenna, and in particular, in order to finely and automatically adjust the reception angle and direction of the planar antenna, the reflector is connected to the rear surface of the reflector 50 of the planar antenna An elevation control means 52 for moving the vertical direction 50 and a rotation angle connected with the elevation angle adjustment means 52, and formed on a support 54 for supporting a planar antenna to form the reflector plate 50 Is constituted by the azimuth adjustment means 56 for moving the right and left in the left and right directions, thereby making the reception state better.

Description

The device for automatically adjusting an angle of reflector of plane antenna

1 is a partially omitted exploded perspective view showing a receiving angle automatic adjustment device according to the present invention.

2 is a partially omitted cross-sectional view showing the connection relationship between the connection portion and the support portion of the automatic receiving angle adjustment device according to the present invention.

3 is a partially omitted perspective view illustrating a reception angle adjusting device of a general planar antenna.

* Explanation of symbols for main parts of the drawings

50: reflecting plate portion 52: elevation angle adjustment means

54: support 56: azimuth adjustment means

62: first gear box 64: support plate

66 drive unit 74 first enclosure

76: fixed portion 78: rotation transmission portion

96: support portion 102: rack portion

108: connecting portion 122: rotating part

128: second gear box 132: second enclosure

The present invention relates to an apparatus for adjusting the reception angle of a planar antenna, and more particularly, to an apparatus for automatically adjusting the reception angle of a planar antenna for finely and automatically adjusting the reception angle and direction of the planar antenna. It is about.

In general, the planar antenna is configured to receive a radio wave transmitted from a transmission point so as to reproduce video and audio well, and as shown in FIG. The support 12 which supports the reflecting plate part 11, and the connecting part 13 integrated with the said reflecting plate part 11 and connected with the said support stand 12 are comprised large.

The planar antenna configured as described above is provided with elevation angle adjusting means for adjusting the reflecting plate portion 11 up and down and azimuth angle adjusting means for adjusting the direction from side to side in order to maintain an optimal reception position from a transmission point. The above adjusting means are configured to be operated manually so that only several adjustments are possible to maintain an optimal reception state.

That is, as shown in FIG. 3, the elevation angle adjusting means is formed in the connecting portion 13, and penetrates the interior of the connecting portion 13 laterally to be the center of rotation of the reflecting plate portion 11. It consists of a rotating shaft portion 14 and the elevation angle fixing knob 15 to form a screw portion on one inner circumferential surface of the rotating shaft portion 14 to be fastened with the screw portion to fix the adjusted elevation angle of the reflecting plate portion 11 as it is. have.

In addition, the azimuth adjustment means is formed in the lower portion of the support 12, the cylindrical body portion 16 is formed inside the hollow hollow to surround the support 12 and the support 12 is freely rotated; After the azimuth angle is determined, the azimuth fixing knob 17 is configured to fix the support 12 to the body 16.

Accordingly, in order to adjust the reception angle of the reflector 11, the fixing knobs 15 and 17 may be manually operated by the user to approach the predetermined reception angle after several trials and errors. In the prior art configuration, there was a problem that the user's desire to make fine adjustments to maintain an optimal reception state.

Accordingly, the present invention has been made to solve the above problems, the object of which is to automatically adjust the reception angle and direction of the flat antenna finely to the reception angle automatic adjustment device of the flat antenna for better reception state In providing.

In order to achieve the above object, the present invention is connected to the rear surface of the reflector plate of the plane antenna, the elevation angle adjusting means for moving the reflecting plate portion in the vertical direction, rotatably connected to the elevation angle adjustment means, the flat antenna It is formed on the support base to support, and consists of an azimuth adjustment means which moves the said reflecting plate part to the left-right direction.

According to the above-described configuration, the user can automatically adjust the elevation angle and the azimuth angle by using the elevation angle adjusting means and the azimuth angle adjusting means in order to adjust the reception angle of the planar antenna desired. It can be adjusted at the angle of.

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

That is, as shown in FIG. 1, the reception angle adjusting device of the planar antenna according to the present invention is connected to the rear surface of the reflector plate 50 of the planar antenna (not shown) and moves the reflector plate 50 upward and downward. An elevation adjustment means 52 for moving in a direction; and rotatably connected to the elevation angle adjustment means 52, and formed on a support 54 for supporting a flat antenna to move the reflection plate portion 50 in a horizontal direction. The azimuth angle adjusting means 56 is comprised.

Here, the elevation angle adjusting means 52 is formed with a gear train 58 formed by engaging a plurality of gears and a small electric motor 60 for rotating the gear train 58 and the gear train 58. A driving unit 66 including a first gear box 62 and a supporting plate 64 supporting the first gear box 62, and the driving unit 66 are enclosed, and the supporting plate 64 is disposed on an inner bottom surface thereof. A fixing protrusion 68 for supporting is formed, the first enclosure portion 74 having a cylindrical rotating shaft 72 having a rotating gear 70 formed on an outer lower surface thereof, and a rear surface of the reflecting plate portion 50. It is coupled to a fixed fixing portion 76, and receives a rotational force by the gear train 58 of the drive unit 66 is composed of a rotation transmission unit 78 to rotate the reflector plate 50 up and down. .

An input gear 82 for transmitting the rotational force of the drive shaft 80 to the gear train 58 is formed at the tip of the drive shaft 80 provided in the electric motor 60 of the first gear box 62. The gear train 58 is an intermediate gear group 84 formed by engaging a plurality of gears in a line with each other in order to be engaged with the input gear 82 to transmit rotational force to a destination, and the input through the intermediate gear group 84. It consists of the output gear 84 finally receives the rotational force of the gear (82).

In addition, the support plate 64 is composed of an upper plate 90 and a lower plate 92 connected to each other by a hinge pin 88, and a support spring 94 between the upper plate 90 and the lower plate 92. Is formed, the first gear box 62 is fixed to the upper portion of the upper plate 90, while the support portion 96 connected to the rotation transmission portion 78 is the first gear box 62 It is formed on both sides of.

In addition, both side surfaces of the upper plate 90 are connected to a fixed end 98 formed on the rear surface of the reflecting plate unit 50 to support the support plate 100 for supporting the reflecting plate unit 50, respectively, by pins. It is mounted in a rotatable state.

On the other hand, the rotation transmission portion 78 is engaged with the output gear 84, has a smooth curved shape in the longitudinal direction and is fixed to the bent rack portion 102 and the side of the rack portion 102 The upper and lower parts are provided with a locking hole 106 fitted into the locking projection 104a formed on the bullet tip 104 of the fixing part 76. The recessed grooves 108a recessed at regular intervals are provided at both sides. It is comprised by the connection part 108 formed.

In addition, the connection portion 108 is directly connected to the support portion 96 of the support plate 64, that is, the inner wall portion of the support portion 96 at an interval slightly larger than the interval of the concave groove 108a. The grooves (96a) are arranged uniformly, and as shown in FIG. 2, the grooves (96a) are formed with support members (112) supported by the spring (110), respectively, As the 112 fits into the concave groove 108a, the connection portion 108 and the support portion 96 support and are connected to each other.

The elevation angle adjusting means 52 configured as described above is operated as follows.

That is, when a predetermined pulse signal number is applied to the electric motor 60, the input gear 82 is rotated, and the rotational force of the input gear 82 is passed through the intermediate gear group 84 to the output gear 84. The rack portion 102 engaged with the output gear 84 has a displacement amount equal to the rotation angle of the output gear 84, and has a gentle curved motion upward or downward, and at the same time The reflecting plate portion 50 connected to the rack portion 102 is also rotated together.

At this time, the support 112 of the support 96 is slipped along the trajectory formed with the concave groove 108a of the connecting portion 108, the moment the rotation of the drive shaft 80 of the electric motor 60 is stopped, The reflective plate 50 is no longer rotated by being inserted into the concave grooves 108a formed at the corresponding positions.

Therefore, the elevation angle of the reflector 50 may be finely adjusted according to the number of pulse signals applied to the electric motor 60.

On the other hand, the azimuth adjustment means 56, the upper surface is provided with a cylindrical rib 116 coupled by the pin 114 after the cylindrical rotation shaft 72 of the first enclosure portion 74 is fitted, The rotating protrusion 118 is formed in the semi-circular plate-shaped rotary portion 122 having the fitting ribs 120 formed on the side, and the gear group 124 meshing with the rotary gear 70 of the cylindrical rotating shaft 72. And a second gear box 128 having a small electric motor 126 for rotating the gear group 124, and the second gear box 128, and the rotation on the inner bottom surface. A hole 54a into which the protrusion 118 is inserted is formed, and a circular fitting groove 130 into which the fitting rib 120 is fitted is formed, and a second enclosure portion fixed to the support 54 ( 132).

Here, an input gear 136 for transmitting the rotational force of the drive shaft 134 to the gear group 124 is formed at the tip of the drive shaft 134 provided in the electric motor of the second gear box 128, The gear group 124 is the middle gear group 140 is formed by engaging a plurality of gears in line with each other in order to transfer the rotational force to the destination by the input gear 136, the input through the intermediate gear group 140 It consists of an output gear 142 for finally receiving the rotational force of the gear 138 to rotate the rotary gear 70.

The azimuth adjustment means 56 configured as described above is operated as follows.

That is, when a predetermined number of pulse signals are applied to the electric motor 126, the input gear 138 is rotated, and the rotational force of the input gear 138 passes through the intermediate gear group 140 to the output gear 142. And the rotary gear 70 meshed with the output gear 142 are rotated simultaneously as the output gear 142 is rotated.

At this time, the cylindrical rotary shaft 72 is formed with the rotary gear 70 is fitted to the cylindrical rib 116 of the rotary part 122 is coupled to each other by the pin 114, the rotary gear 70 is rotated As the fitting rib 120 of the rotating part 122 is rotated by the guide of the fitting groove 130 of the second enclosure part 132, and at the same time the first enclosure in which the cylindrical rotating shaft 72 is formed. The portion 74 and the reflection wave 50 connected to the first enclosure portion 74 are also rotated at the same time.

Therefore, the azimuth position of the reflector 50 may be finely adjusted according to the number of pulse signals applied to the motor.

According to the apparatus for automatically adjusting the reception angle of the planar antenna according to the present invention described above, in order to adjust the reception angle of the planar antenna desired by the user, the azimuth and elevation angles can be automatically adjusted, thereby making it possible to easily adjust the reception angle. The angle can be adjusted, and the effect is excellent in making the reception state better.

Claims (6)

In the device for adjusting the reception angle of the planar antenna, the drive unit 66 is provided with a support plate 64 for supporting the first gear box 62, the drive unit 66 is wrapped, the support plate on the inner bottom surface A fixing protrusion 68 for supporting the 64 is formed, the first enclosure portion 74 having the cylindrical rotating shaft 72 having the rotating gear 70 formed on the outer lower surface thereof, and the reflecting plate portion 50. Is coupled to the fixed portion 76 fixed to the rear of the rotation transmission portion 78 to receive the rotational force by the gear train 58 of the drive unit 66 so that the reflector plate 50 is rotated up and down The upper surface is provided with an elevation angle adjusting means 52 formed in the upper portion and a cylindrical rib 116 fitted into the cylindrical rotating shaft 72 of the first enclosure portion 74 and coupled by the pin 114. Rotating protrusion 118 is formed, and a semi-circular plate-shaped rotating portion 122 is formed with a fitting rib 120 on the side, A second gear box 128 provided with a gear group 124 meshed with the rotary gear 70 of the cylindrical projection, the small electric motor 126 rotating the gear group 124 described above, and A hole 54a is formed in the inner bottom surface of the second gear box 128 to allow the rotation protrusion 118 to be fitted, and a circular fitting groove 130 into which the fitting rib 120 is fitted. And an azimuth adjustment means (56) comprising a second enclosure (132) fixed to the support (54). According to claim 1, wherein the first gear box 62 is formed with an electric motor 60 having an input gear 82 formed at the tip of the drive shaft 80, the input gear 82 is a plurality of gears each other And an output gear 84 that is engaged with the intermediate gear group 84 formed in a row and finally receives the rotational force of the input gear 82 through the intermediate gear group 84. Receiving angle automatic adjustment device. According to claim 1, wherein the support plate 64 consists of an upper plate 90 and a lower plate 92 connected to each other by a hinge pin 88, the support spring between the upper plate 90 and the lower plate 92 94 is formed, the first gear box 62 is fixed to the upper portion of the upper plate 90, the support portion 96 is connected to the rotation transmission portion 78 is the first gear box ( It is formed on both sides of the 62, both sides of the upper plate 90 is connected to a fixed end 98 formed on the rear surface of the reflecting plate portion 50, the support link 100 for supporting the reflecting plate portion 50 Are automatically connected to each other by pins and mounted in a rotatable state. 2. The rack portion 102 according to claim 1, wherein the rotation transmission portion 78 is engaged with the output gear 84 and has a curved shape that is gentle in the longitudinal direction and is curved. It is fixed to the side, and the upper and lower parts are provided with a locking hole 106 to be fitted to the locking projection 104a formed on the elastic piece 104 of the fixing portion 76, both sides are concavely processed at regular intervals Receiving angle automatic adjustment device of the planar antenna, characterized in that consisting of the connecting portion 108 is formed with a groove (108a). The groove wall 96a of claim 3 or 4, wherein an inner wall portion of the support portion 96 is formed at regular intervals at somewhat larger intervals than the gap of the concave groove 108a. Receiving angle of the planar antenna, characterized in that each support 112 is supported on the spring 110, the support 112 is fitted into the recess 108a of the connecting portion 108. Automatic adjustment device. 2. The input gear 138 of claim 1, wherein the electric motor 126 of the second gear box 128 is provided with an input gear 138 that transmits the rotational force of the drive shaft 134 to the gear group 124 at the distal end of the drive shaft 134. The gear group 124 meshes with the input gear 138 to form an intermediate gear group 140 formed by engaging a plurality of gears in a row with each other in order to transmit rotational force to a destination, and the intermediate gear group 140. Device for automatically adjusting the reception angle of the planar antenna, characterized in that consisting of the output gear 142 for receiving the rotational force of the input gear (138) through the rotary gear (70).