KR100443898B1 - Apparatus For Adjusting Inclination And Azimuth Angles Of Antenna - Google Patents

Abstract

The present invention allows the operator to easily adjust the inclination angle and azimuth angle of the antenna without going up the antenna pylon. The tilt angle control block is fixed on the support. A pair of connecting rods are coupled to the back of the antenna up and down. The other end of each connecting rod is inserted vertically integrally coupled. A pair of guide grooves are formed in the inclination angle adjusting block so that the insertion rod is inserted and moved. The upper guide groove has a shape of an upper half circle, and the lower guide groove has a shape of a lower half circle. On the upper surface of the inclination angle adjusting block, a rack is formed on one side of a lower surface thereof, and a drive motor having a slider connected to an antenna at one end thereof, a housing into which the slider is slidably inserted, and a drive gear which is engaged with the rack in the housing is installed. At the rear of the antenna, an azimuth adjustment plate having an arc-shaped rack is coupled to adjust the azimuth. The arc-shaped rack is decoupled from the drive pinion, and the drive pinion is rotatably provided by a bracket coupled to the rear surface of the antenna. The drive motor is fixedly installed on the bracket so that the drive gear of the drive motor is engaged with the pinion via the driven gear.

Description

Apparatus For Adjusting Inclination And Azimuth Angles Of Antenna

The present invention relates to an inclination and azimuth adjustment device of the antenna, and more particularly to an inclination and azimuth adjustment device of the antenna to make it possible to easily adjust the vertical angle of the antenna to have an optimal reception condition.

In general, the quality of service in a mobile communication system is improved by controlling the tilt and azimuth angles of the base station antennas.

As shown in FIG. 1, in the conventional antenna angle adjusting device, the antenna 11 is connected to the antenna support 14 by a fixing clamp 15, and the azimuth adjusting bolt 12 is connected to the fixing clamp 15. ) And the inclination angle adjusting bolt 13 is connected.

That is, the inclination angle and azimuth adjustment of the antenna 11 are made by the azimuth adjustment bolt 12 and the inclination angle adjustment bolt 13, respectively.

However, in the conventional antenna angle adjusting device, in order to adjust the angle of the antenna, the operator has to climb directly on the antenna pylon and manually adjust the azimuth and tilt angle adjusting bolts manually to adjust the tilt and azimuth angles of the antenna. Therefore, since the number of base stations and the operator must be climbed directly to the antenna installed in a high position, there is a risk to the safety of the operator, the working environment is affected by weather conditions a lot, and can not be quickly adjusted the angle of the antenna there was.

The present invention is to solve the problems of the prior art, an object of the present invention is to provide an inclination angle and azimuth control device of the antenna to enable the operator to easily adjust the inclination angle and azimuth angle of the antenna without going up the antenna tower.

An inclination angle and azimuth adjustment device of the antenna according to the present invention for achieving the above object is an inclination angle adjustment block fixed on the support; A sliding device coupled to the inclination angle adjusting block; An antenna coupled to one end of the sliding device; A pair of connecting members connecting the tilt angle control block and the antenna; And it is composed of an azimuth adjustment means coupled to one surface of the antenna to rotate the antenna from side to side.

In the inclination angle control block, a pair of guide grooves are formed to penetrate both sides of the control block, and the guide grooves located on the upper side of the pair of guide grooves are formed in the upper semicircle shape, and the lower guide grooves are the shape of the lower half circle. Is done.

The pair of connecting members is coupled to one surface of the antenna, one end of which is coupled to one surface of the antenna, and the other end of which is coupled to an insertion rod inserted into a guide groove located at an upper side thereof, and one end of which is directly coupled to one surface of the antenna. And, the other end is composed of a second connecting rod coupled to the insertion rod is inserted into the guide groove located on the lower side.

The sliding device has a slider having a rack formed on one side of the lower surface and coupled with a working rod at the front end, a housing into which the slider is slidably inserted, and a drive gear fixed to the upper surface of the inclination angle adjusting block in the housing and being engaged with the rack. It consists of a drive motor.

The azimuth adjustment means is fixed to the bracket installed on one side of the antenna and the drive motor having a drive gear, driven gear meshed with the drive gear, pinion rotatably coupled to the bracket and driven gear and the meshed gear, It is fixedly installed on one side and consists of an arc-shaped rack that meshes with the pinion.

1 is a view showing a tilt angle and azimuth adjustment device of a conventional antenna,

Figure 2 is an exploded perspective view of the tilt angle and azimuth adjustment device of the antenna according to the present invention,

3 is a combined perspective view of the inclination angle and azimuth adjustment device of the antenna according to the present invention;

4 is a view showing one operation example of the tilt angle and azimuth adjustment device of the antenna according to the present invention,

5 is a view showing another operation example of the inclination angle and azimuth adjustment device of the antenna according to the present invention.

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

50: antenna 60: tilt angle control block

61a, 61b: guide groove 70: sliding device

72: slider 75: rack

76: drive motor 78: drive gear

81a, 81b: connecting rod 83a, 83b: insertion rod

91: arc rack 92: drive pinion

93: drive motor 94: drive gear

95: driven gear

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

Figure 2 is an exploded perspective view of the tilt angle and azimuth adjustment device of the antenna according to the present invention, Figure 3 is a combined perspective view thereof.

As shown in these, the inclination angle adjustment block 60 is fixed on the antenna support 51, the sliding device 70 is coupled to the inclination angle adjustment block 60, the inclination angle adjustment block 60 and the antenna 50 Connect it.

The back of the antenna 50 and the inclination angle control block 60 is provided with a device for adjusting the inclination angle of the antenna 50. In detail, the pair of connecting rods 81a and 81b is vertically coupled to the rear surface of the antenna 50. Ball members 82a and 82b are integrally formed at one end of each of the connecting rods 81a and 81b coupled to the antenna 50, and the ball members 82a and 81b of the connecting rods 81a and 81b are formed on the rear surface of the antenna 50. Ball receiving members 52a and 52b for rotatably receiving 82b) are fixedly coupled. Inserting rods 83a and 83b are integrally vertically coupled to the other ends of the connecting rods 81a and 81b.

On the other hand, a pair of guide grooves (61a, 61b) are formed to penetrate both sides of the block (60) so that the inclined angle adjustment block (60) is inserted into the insertion rod (83a, 83b). Of these guide grooves 61a and 61b, the upper guide groove 61a has a shape of an upper half circle, and the lower guide groove 61b is located in the lower half circle opposite to the upper groove 61a. ) Has a shape.

The sliding device 70 includes a housing 71 coupled to the upper surface of the inclination angle adjusting block 60 and a slider 72 slidably inserted into the housing 71. An operating rod 73 is coupled to the tip of the slider 72, and a ball member 74 is coupled to the tip of the actuating rod 73. On the back of the antenna 50, a ball receiving member 53 for rotatably receiving the ball member 74 of the operating rod 73 is coupled.

The rack 75 is formed on one side of the bottom surface of the slider 72. The interior of the housing 71 is installed on the drive motor 76 fixed by the bracket 77 on the upper surface of the inclination angle control block 60, and the rotation shaft of the drive motor 76, the rack 75 of the slider 72 ) Is provided with a driving gear (78).

And, in order to adjust the left and right angles, that is, the azimuth angle of the antenna 50 to the back of the antenna 50, the azimuth adjustment plate 90 is formed with an arc-shaped rack 91 is coupled. The arc rack 91 is separated from the drive pinion 92, and the drive pinion 92 is rotatably provided by a bracket 96 coupled to the rear surface of the antenna 50. As shown in FIG. The drive motor 93 is fixedly installed on the bracket 96 so that the drive gear 94 of the drive motor 93 is separated from the pinion 92 through the driven gear 95, thereby driving the drive force of the drive motor 93. Is transmitted to the antenna 50 through the drive gear 94, the driven gear 95, the pinion 92 and the arc rack 91 to adjust the azimuth angle. The drive motor 93, the pinion 92, the azimuth adjusting plate 90, and the like are covered by the cover 97 to be protected from the external environment.

The drive motor 76 fixed to the upper surface of the inclination angle adjusting block 60 to adjust the inclination angle of the antenna 50, and the drive motor fixed to the bracket 96 coupled to the antenna 50 to adjust the azimuth angle ( 93 is electrically connected to a control device (not shown) provided at a predetermined position of the base station to control its operation. Since the connection between the motors 76 and 93 and the control device is well known to those skilled in the art, , The description is omitted.

Hereinafter, the operation of the tilt angle and the azimuth adjustment device of the antenna according to the present invention configured as described above will be described with reference to FIGS.

When the operator operates the control motor (not shown) provided at a predetermined position of the base station to operate the drive motor 76 for tilt angle adjustment, the driving force of the drive motor 76 is driven by the drive gear 78 and the rack 75. The slider 72 is transferred to the slider 72 so that the slider 72 slides in and out of the housing 71.

As shown in FIG. 4, when the slider 72 is maximally moved to the outside of the housing 71, the upper portion of the antenna 50 connected to the slider 72 by the operating rod 73 is inclined angle adjusting block 60. Away from). Accordingly, the insertion rod (83a) coupled to the connecting rod (81a) located on the upper side of the pair of connecting rods (81a, 81b) moves along the upper hemispherical guide groove (61a) to the best of the guide groove (61a) Is located at the stage. On the contrary, the insertion rod 83b coupled to the connecting rod 81b positioned at the lower side is positioned at the end of the guide groove 61b along the lower hemispherical guide groove 61b. As a result, the antenna 50 faces downward at a predetermined angle.

On the other hand, as shown in Figure 5, when the slider 72 is moved to the maximum inside the housing 71, the insertion rods (83a, 83b) coupled to the connecting rods (81a, 81b) of the upper and lower sides, respectively, In the guide grooves (61a, 61b) are placed in a position opposite to FIG. As a result, the antenna 50 faces upward at a predetermined angle.

Of course, the insertion rods (83a, 83b) coupled to the connecting rods (81a, 81b) of the upper and lower sides are not only located at both ends of the guide groove (61a, 61b), but also can be positioned in the middle of the predetermined angle desired by the operator The antenna 50 can be inclined.

In addition, when the azimuth angle of the antenna 50 is to be adjusted, the operator operates the control device so that the azimuth adjustment motor 93 is driven, and the driving force of the motor 93 rotates the pinion 92. The azimuth angle of the antenna 50 is adjusted by a predetermined angle by moving the arc-shaped rack 91, which is seized by the pinion 92, along the outer circumferential surface of the pinion 92.

As described in detail above, in the inclination angle and azimuth angle adjusting device of the antenna according to the present invention, the operator does not have to climb on the antenna by hand to manually adjust the inclination angle and azimuth angle of the antenna, safety and working environment is improved, the predetermined of the antenna Just by manipulating the control device installed in the position, the inclination angle and azimuth angle of the antenna can be easily and precisely adjusted.

Claims (6)

An inclination angle control block fixed on the support; A sliding device coupled to the inclination angle adjusting block; An antenna coupled to one end of the sliding device; A pair of connecting members connecting the tilt angle control block and the antenna; And Tilt angle and azimuth control device of the antenna, characterized in that composed of azimuth adjustment means coupled to one surface of the antenna to rotate the antenna from side to side. The method of claim 1, The inclined angle adjusting block has a pair of guide grooves formed through both sides of the control block, the guide grooves located on the upper side of the pair of guide grooves are formed in the shape of the upper half circle, the guide grooves located on the lower half Made in the shape of a circle, One end of the pair of connecting members is coupled to one surface of the antenna, the other end of the first connecting rod is coupled to the insertion rod is inserted into the guide groove located on the upper side, one end is directly below the one end of the first connecting rod It is coupled to one surface of the antenna, the other end is inclined and azimuth adjustment device of the antenna, characterized in that consisting of a second connecting rod coupled to the insertion rod is inserted into the guide groove located in the lower side. The method of claim 2, A ball member is coupled to one end of the first and second connecting rods, and an inclination and azimuth angle adjustment of the antenna is provided on one surface of the antenna, wherein a ball receiving member is rotatably received. Device. The method of claim 1, The sliding device includes a slider having a rack formed on one side of the lower surface and coupled with an actuating rod at a front end thereof, a housing into which the slider is slidably inserted, and fixed to an upper surface of the inclination angle adjusting block in the housing, Tilt angle and azimuth adjustment device of the antenna, characterized in that consisting of a drive motor having a drive gear. The method of claim 4, wherein Ball member is coupled to the front end of the actuating rod, the inclined angle and azimuth adjusting device of the antenna, characterized in that the ball receiving member is installed on the surface of the antenna to receive the ball member of the actuating rod rotatably. The method of claim 1, The azimuth adjustment means is fixed to the bracket installed on the one surface of the antenna and the drive motor having a drive gear, driven gear which is meshed with the drive gear, and rotatably coupled to the bracket and the driven gear The pinion and the inclination angle and azimuth adjustment device of the antenna, characterized in that it is fixedly installed on the one surface of the antenna made of an arc-shaped rack to bite with the pinion.