KR20220122909A - Electric pole bracket type 5G anatenna support apparatus for base station - Google Patents

Abstract

The present invention relates to an antenna support apparatus for a base station installed on an electric pole and, more specifically, to an electric pole bracket-type 5G antenna support apparatus for a base station, which allows a worker alone to accurately install a 5G base station antenna with an ultra-high frequency band with low diffraction properties on the electric pole in a designed direction.

Description

Electric pole bracket type 5G anatenna support apparatus for base station}

The present invention relates to a base station antenna support installed on an electric pole, and more particularly, to an electric pole bracket type 5G base station antenna support that can accurately install a 5G base station antenna of an ultra-high frequency band with low diffraction by an operator alone on an electric pole in a designed direction.

For various information and communication devices that are portable and used, such as laptops, tablets, and smartphones, communication base station antennas are installed and operated outdoors at predetermined intervals.

5G base station antennas are being installed as 5G communication services are recently provided.

The frequencies used for 5G services are high and ultra-high frequencies, but since 5G communication has a high frequency band, the diffraction rate is significantly lower than that of LTE due to the frequency characteristics. have.

Because of this problem, since a larger number of base stations need to be built compared to LTE communication, base station antennas are also installed on the roof of buildings and on electric poles.

In order to install the base station antenna 20 on the electric pole 1, a pole frame 2 is installed on the upper portion of the electric pole 1 as shown in FIG. 1, and a radially vertical pole 3 is formed on the pole frame 2 and a base station antenna 20 is installed on each pole 3 .

At this time, the base station antenna should be installed at the correct angle as designed.

In order to adjust the antenna 20 to an accurate design angle using the conventional antenna support 10, the link 12 of the upper bracket 11 and the link 17 of the lower bracket 160, as shown in FIG. Loosen the first, second, and third locking bolts 13, 14, 15 of the upper bracket 11, and the fourth locking bolt 18 of the lower bracket 16 so that the antenna 20 ), and then tighten the first, second, third, and fourth locking bolts (13, 14, 15, 18) to fix it.

However, when adjusting the angle of the base station antenna, an auxiliary worker who must hold the heavy antenna 20 as an auxiliary worker and a worker who adjusts the angle is separately required, so there is a problem in that labor costs are high.

In addition, when the operator holding the antenna 20 releases the antenna after the base station antenna angle adjustment operation is finished, the angle adjusted by the weight of the heavy antenna 20 is changed again, so there is a problem in that the correction operation must be performed again.

Document 1. Korean Intellectual Property Office Registration Patent Publication No. 10-2145149, "5G base station antenna support" Document 2. Korean Intellectual Property Office Registration Patent Publication No. 10-2145150, "5G base station antenna support" Document 3. Korean Intellectual Property Office Registration Patent Publication No. 10-0606455, "Multi-feed reflector antenna for mobile communication integrated base station" Document 4. Korean Intellectual Property Office Registered Utility Model Publication No. 20-0293991, "Antenna Support"

It is an object of the present invention to provide a base station antenna support that can quickly and accurately install the antenna at an angle designed when installing a 5G base station antenna having a frequency characteristic with a low diffraction index on an electric pole.

In addition, it is an object of the present invention to provide an electric pole bracket type base station antenna support that can be adjusted quickly and easily by the operator alone in the angle adjustment operation of the heavy base station antenna.

In order to achieve the above object, the electric pole bracket type 5G base station antenna support according to the present invention is fastened to the housing 120 and the rear end of the housing 120 to fasten and fix the housing 120 to the pole 3 . 110, an upper arm 140 rotatably fastened to one side by a slide hinge 141 to the housing 120, and an antenna fastened to an end of the upper arm 140 by a hinge 143 an upper bracket 100 composed of an upper fastening plate 142 fastened to the rear upper portion of the 20; and a lower fastening plate 233 fastened to the lower arm 220 and a hinge 222 rotatably at the tip of the lower arm 220 and fastened to the rear lower part of the base station antenna 20, and the lower arm The lower bracket 200 is fastened to the rear end of the 220 and is composed of a clamp 210 for fastening and fixing the lower arm 220 to the pole 3;

At this time, a slit 121 formed in a vertical long hole shape on both sides of the housing 120 and into which the slide hinge 141 is inserted, and an arm driving unit installed inside the housing 120 to lift and lower the slide hinge 141 . It is characterized in that it is configured to further include.

In addition, the arm driving unit is composed of a screw 131 installed vertically inside the housing 120 and a nut block 130 screwed to the screw 131 and to which the slide hinge 141 is fastened. It is characterized in that the nut block 130 is configured to elevate along the screw 131 according to the direction in which the 131 rotates.

In addition, it characterized in that it is configured to further include a fixing part for fixing the screw (131) to the inside of the housing (120).

In addition, by further comprising a head 133 fastened with the screw 131 or integrally molded with the screw 131 and exposed to the outside of the housing 120 , the head 133 is rotated to drive the screw It is characterized in that it is configured to rotate (131).

The present invention configured as described above can easily adjust the angle of the heavy base station antenna 20 alone by the operator alone when installing the 5G base station antenna having a frequency characteristic with a low diffraction rate on the electric pole.

In addition, since the angle adjustment is made accurately, subsequent correction work is not required.

1 is a perspective view showing a state in which a base station antenna is installed on a pole.
Figure 2 is a view showing a state in which the base station antenna is fastened to the electric pole using the conventional antenna support.
Figure 3 is a perspective view showing the use state of the base station antenna support according to the present invention.
Figure 4 is a perspective view showing the upper bracket of the present invention.
Figure 5 is an exploded perspective view showing an exploded upper bracket of the present invention.
Figure 6 is a perspective view showing the inner structure of the housing of the upper bracket of the present invention.
Figure 7 is a perspective view showing the lower bracket of the present invention.
Figure 8 is an exploded perspective view showing an exploded lower bracket of the present invention.
9 is a view showing a state in which the base station antenna is fastened to the pole of the electric pole using the present invention.
10 is a view showing a state in which the installation angle of the base station antenna is adjusted using the present invention.

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

When it is said that any one component "includes" another component in the detailed description or claims of the invention, it is not construed as being limited to only the component, unless otherwise stated, other components It should be understood that more may be included.

As used herein, terms such as "upper", "lower", "bottom", "front", "rear", "below", etc. are merely for facilitating description of the components as shown in the drawings. refers to orientation.

The base station antenna support according to the present invention is composed of an upper bracket 100 and a lower bracket 200, as shown in FIG. 3, and the upper bracket 100 and the lower bracket 200 are the upper and lower portions of the antenna 20, respectively. By being fastened to the lower part and fastened to the pole 3 , the base station antenna 10 is fastened to and fixed to the pole 3 of the electric pole.

As shown in FIGS. 4 and 5, the upper bracket 110 is formed vertically between the upper arm 140 having a fastening plate fastened to the antenna 20, and upper and lower fixtures 132 and 134. A screw 131, a nut block 130 screw-coupled to the screw 131, a housing 120 for accommodating the upper and lower fixtures 132 and 134 and the nut block 130, and an upper bracket 100 It consists of a clamp 11 for fastening the pole (3).

5, the vertical screw 131 and the nut block 130 are screwed together, and the upper fixture 132 on the upper part of the screw 131 and the lower fixture 134 on the lower part of the screw 131 are each is signed

At this time, the head 133 protrudes from the upper fixture 132 , and the head 133 is integrally molded with the screw 131 , or is connected to the screw 131 and configured to rotate together with the screw 131 . .

The screw 131 and the nut block 130 are arm driving units and serve to vertically lift and lower the upper arm 140 to be described later.

The arm driving unit is accommodated in a housing 120 formed in a '┗┛' cross-section. As shown in FIG. 5 , slits 121 in the form of long perforated holes on both sides are formed inside the housing 120 . The arm driving unit is accommodated in the housing 120 , and the back plate 122 is fastened to the open portion of the housing 120 , so that the inside of the housing 120 is sealed.

And the clamp 110 is fastened to the rear of the housing 120 , and the upper arm 140 is fastened to the front of the housing 120 .

On the upper part of the upper arm 140, an upper fastening plate 142 in the form of a plate is fastened to the upper arm 140 and a hinge 143, and the upper fastening plate ( 142) is rotatable.

And slide hinges 141 are inserted into both lower sides of the upper arm 104, and the slide hinges 141 pass through the slit 121 of the housing 120 to form the nut block 130 inside the housing 120. It is inserted and fastened to the hinge inserts 135 formed on both sides.

6 , when the head 133 is rotated by biting the tool to the head 133 , the screw 131 is interlocked to rotate, and the nut block 130 moves along the screw 131 according to the rotation direction of the screw 131 . go up and down

At this time, since the upper fixture 132 and the lower fixture 134 are fastened to the housing 120 and fixed, the upper and lower fixtures 132 and 134 are fixed without moving.

The upper fastening plate 142 of the upper bracket 100 configured as described above is fastened to the upper portion of the antenna 20 as shown in FIG. 3 , and the clamp 110 is fastened to the pole 3 of the electric pole 1 .

The clamp 110 is a known technology, and since various types of clamps can be used, a detailed description thereof will be omitted.

As shown in FIGS. 7 and 8 , the lower bracket 200 includes a lower arm 220 provided with a groove into which a hinge 222 is inserted on both sides, and a hinge so as to be rotatable from the front of the lower arm 220 . It is composed of a lower fastening plate 223 in the form of '┗┛' to be fastened, and a clamp 210 fastened to the rear of the lower arm 220 and fastened to the pole 3 of the electric pole 1 .

The lower arm 220 is fastened to the front of the clamp 210 so that the lower fastening plate 223 and the clamp 210 are spaced apart by the length of the lower arm 220 so that when the base station antenna 20 is tilt driven, the pole Do not interfere with (3).

The lower fastening plate 223 is fastened to the lower arm 220 and the hinge 222 so as to be rotated about the hinge 222 with respect to the lower arm 220 . An indicator 224 in the form of an arrow is formed on one side, and an angle scale 221 is formed on one side of the lower arm 220 .

When the lower fastening plate 223 is fastened with the lower arm 220, the indicator 224 is positioned on the scale 221 as shown in FIG. 7, so when the lower fastening plate 223 rotates around the hinge 222, the indicator ( 224), it is possible to visually confirm how much the lower fastening plate 223 rotates with respect to the lower arm 220.

The lower fastening plate 223 of the lower bracket 200 configured as described above is fastened to the lower part of the antenna 20 as shown in FIG. 3 , and the clamp 210 is fastened to the pole 3 of the electric pole 1 .

Hereinafter, a process for adjusting the installation angle of the base station antenna 20 using the antenna support according to the present invention will be described.

9 and 10 are diagrams illustrating a process of adjusting the installation angle by tilting the base station antenna 20 fastened to the pole 3 using the present invention.

After the operator fastens the base station antenna 20 to the pole 3 of the electric pole 1 using the upper bracket 100 and the lower bracket 200, the upper bracket ( The head 133 of 100 is rotated.

When the head 133 rotates, the screw 131 inside the housing 120 rotates in conjunction with each other, and the nut block 130 screwed with the rotating screw 131 rotates the screw 131 along the screw 131 . Ascend according to the direction.

The slide hinges 141 inserted into both lower sides of the upper arm 140 are inserted and fastened to both sides of the nut block 130 through the slits 121 on both sides of the housing 120, so the nut block 130 that moves up and down In conjunction with the lower fastening plate 142 is raised and lowered.

The upper part of the upper arm 140 is fastened to the upper part of the antenna 20 through the upper fastening plate 142 , and the lower part of the antenna 20 is fastened to the lower fastening plate 223 of the lower bracket 200 . .

Accordingly, the upper arm 140 is raised and lowered by the slide hinge 141 elevating along the slit 121 by the nut block 130, and one side is fastened to the antenna 20 by a hinge 143, and the other side is The upper arm 140 fastened to the nut block 130 rotates around the hinge 143 and the slide hinge 141 and tilts the antenna 20 as shown in FIG. 10 .

In the present invention configured as described above, there is no need for an auxiliary operator to support the heavy antenna 20 in the process of adjusting the angle of the installed antenna 20, and the antenna 20 can be easily adjusted by simply turning the head 133 by the operator. This makes the work very quick and easy.

The present invention configured as described above can easily adjust the angle of the heavy base station antenna 20 alone by the operator alone when installing the 5G base station antenna having a frequency characteristic with a low diffraction rate on the electric pole.

In addition, since the angle adjustment is made accurately, subsequent correction work is not required.

The technical idea of the present invention has been reviewed through the above-described embodiments.

It is apparent that those of ordinary skill in the art to which the present invention pertains can variously modify or change the above-described embodiments from the description of the present invention.

In addition, even if not explicitly shown or described, a person of ordinary skill in the art to which the present invention pertains may make various modifications including the technical idea according to the present invention from the description of the present invention. is self-evident, which still falls within the scope of the present invention.

The above embodiments described with reference to the accompanying drawings have been described for the purpose of explaining the present invention, and the scope of the present invention is not limited to these embodiments.

1: Jeonju
3: Paul
20: base station antenna
100: upper bracket
110: clamp
111 : pole shovel
120: housing
121: slit
122: back plate
130: nut block
131: screw
132: upper fixture
133: head
134: lower fixture
135: hinge insert
140: upper arm
141: slide hinge
142: upper fastening plate
143: hinge
200: lower bracket
210: clamp
211: pole insert
220: lower arm
221: scale
222: hinge
223: lower fastening plate
224: indicator

Claims (5)

housing 120 and
a clamp 110 that is fastened to the rear end of the housing 120 to fasten and fix the housing 120 to the pole 3;
An upper arm 140 with one side fastened to the housing 120 by a slide hinge 141 to be rotatably fastened;
an upper bracket 100 comprising an upper fastening plate 142 fastened to an end of the upper arm 140 by a hinge 143 and fastened to a rear upper portion of the antenna 20; and
a lower arm 220;
A lower fastening plate 233 fastened to a hinge 222 so as to be rotatable at the front end of the lower arm 220 and fastened to the rear lower portion of the base station antenna 20;
a lower bracket 200 that is fastened to the rear end of the lower arm 220 and includes a clamp 210 for fastening and fixing the lower arm 220 to the pole 3;
A pole bracket type 5G base station antenna support, characterized in that consisting of.
According to claim 1,
A slit 121 formed in a vertical long hole shape on both sides of the housing 120 and into which a slide hinge 141 is inserted;
Electric pole bracket type 5G base station antenna, characterized in that it is installed inside the housing (120) and further comprises an arm driving unit for lifting and lowering the slide hinge (141).
3. The method of claim 2,
The arm drive unit,
A screw 131 installed vertically inside the housing 120, and
By being screwed with the screw 131 and composed of a nut block 130 to which the slide hinge 141 is fastened,
The pole bracket type 5G base station antenna, characterized in that the nut block 130 is configured to elevate along the screw 131 according to the direction in which the screw 131 rotates.
4. The method of claim 3,
The pole bracket type 5G base station antenna, characterized in that it further comprises a fixing part for fixing the screw (131) to the inside of the housing (120).
4. The method of claim 3,
By further comprising a head 133 fastened to the screw 131 or integrally formed with the screw 131 and exposed to the outside of the housing 120 , the head 133 is rotated to drive the screw 131 . ) pole bracket type 5G base station antenna, characterized in that configured to rotate.

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