KR20220113192A - Base Station Antenna Holder for Improved Mobile Communication - Google Patents

Abstract

The present invention relates to an improved base station antenna cradle for mobile communication. The cradle comprises: a hanger bracket fixed to an antenna support pipe for fixing an antenna to a steel tower or a roof railing of a building, automatically and manually rotated 180° left and right by an external drive, and lockable by a locking means; a panel for mounting an antenna connected to one side of the hanger bracket, rotatable, and having a guide rail for guiding the screw transfer block in a sliding manner; a screw transfer block capable of reciprocating up and down or back and forth along the guide rail of the antenna mounting panel, and manually and automatically adjusting the angle of the antenna by external driving in the vertical direction; and an antenna support arm which is rotatable by being connected to the hanger bracket and the sliding device of the screw transfer block, and which supports the antenna when the angle of the antenna is adjusted up and down according to the reciprocating motion of the screw transfer block. A user can easily, manually, and automatically adjust the direction of the antenna through a spanner, box wrench, motor, and Raspberry Pi. In addition, the user can precisely and automatically adjust the transmission/reception direction of an antenna installed on a steel tower or tall building through a remote control from the ground. Also, since the antenna support arm is integrated with the screw transfer block mounted inside the antenna support arm to support the antenna, the mounted antenna can withstand the external force of strong winds such as gusts.

Description

Base Station Antenna Holder for Improved Mobile Communication

The present invention relates to an antenna cradle, and in particular, the installation direction of a base station antenna for mobile communication can be easily adjusted manually or automatically by a screw transfer block capable of reciprocating instead of a conventional turnbuckle. It relates to an improved base station antenna cradle for mobile communication.

In general, an antenna is a device for transmitting or receiving electromagnetic waves in a specific space. In order to achieve the purpose of communication, as the demand for mobile communication has exploded with the recent transition from the 4th generation mobile communication system, Long Term Evolution (LTE) method, to the 5th generation mobile communication system, 5G (Fifth Generation Technology Standard). Various types of base station antennas for mobile communication installed in base stations or repeaters can be easily found.

In order to efficiently transmit and receive radio waves of such base station antennas for mobile communication, it is necessary to install and maintain the antenna in the direction of installation so as to obtain an optimal transmission/reception ratio.

In this regard, the 5G antenna rotatable cradle of Patent Registration No. 10-2014683 (2019.08.26.) registered by the present applicant has been proposed.

According to the above registration technology, it is easy to adjust and maintain the vertical movement and left and right rotation of the antenna through the body clamp 100 coupled to the installation rod installed on the roof or railing of the building, and the length increases according to the rotation direction. By adjusting the up and down inclination direction of the antenna through a turn buckle that is reduced or reduced, it is easier to work than the conventional folding method and screw fastening method, and even when external force such as wind is applied, the state is excellent compared to the prior art, It is configured to enable fine rotation adjustment of the antenna in the left and right directions through the antenna support means without adjusting the body clamp.

However, although the above patented technology can be easily adjusted by an operator in a building where the antenna installation height is relatively low, there are still several problems that require the use of a rip-off excavator when the antenna installation height is high.

Therefore, an object of the present invention is, in more detail, in order to solve the problems of the prior art, a screw transfer block capable of reciprocating motion unlike the conventional turnbuckle method and an arm for supporting the antenna (Arm) ) and a motor intermittent control means to provide an improved base station antenna holder for mobile communication so that the user can easily or automatically adjust the installation direction of the base station antenna for mobile communication manually or automatically.

According to a feature of the present invention for achieving the above object, in the base station antenna holder for mobile communication, the holder is fixedly mounted to the antenna support pipe 120 for fixing the antenna 110 to a railing on the roof of a pylon or a building. , Manually and automatically rotated 180° left and right by external driving, and a hanger bracket that can be locked by a locking means (Hanger bracket, 100); An antenna mounting panel 200 connected to one side of the hanger bracket 100 and rotatable and provided with a guide rail 210 for guiding the screw transfer block 300 in a sliding manner; A screw transport block 300 that reciprocates up and down or back and forth along the guide rail 210 of the panel 200 for mounting the antenna, and can manually and automatically adjust the angle by externally driving the antenna 110 in the vertical direction. )class; When the hanger bracket 100 and the sliding device 340 of the screw transfer block 300 are connected and rotatable, the antenna 110 is angled up and down according to the reciprocating motion of the screw transfer block 300. It provides an improved base station antenna holder for mobile communication, characterized in that it includes an antenna support arm (400) for supporting the antenna (110).

According to another embodiment of the present invention, the external driving of the hanger bracket 100 is manual by inserting a spanner or a box wrench 500 into the bracket rotation handle 102 of the hanger bracket 100 . It is characterized in that it can be rotated by 180°.

According to another embodiment of the present invention, the external driving of the hanger bracket 100 is a first motor (Motor, 610) capable of forward rotation and reverse rotation control, the bracket rotation handle 102 of the hanger bracket 100 ), it is characterized in that it can be automatically rotated 180°.

According to another embodiment of the present invention, the screw transfer block 300 is connected to a bevel gear box 310 that transmits power in a non-parallel axial direction, and the bevel gear box 310 . A screw (Screw, 320) capable of reciprocating up and down or back and forth in the axial direction, and a screw rotation handle ( Screw Rotating Handle, 330, a sliding device connected to the screw 310 and reciprocating up and down or back and forth along the guide rail 210 of the panel 200 for mounting the antenna (Sliding Device, 340), and the A fixed block 350 that is located on the sliding device 340 and transmits force energy according to the vertical or forward and backward reciprocating motion of the screw 320 to the antenna mounting panel 200 . It is characterized in that it is provided.

According to another embodiment of the present invention, the screw transfer block 300 is manually rotated using any one of a spanner and a box wrench 500 on the screw handle of the screw transfer block. characterized as possible.

According to another embodiment of the present invention, the screw transport block 300 is equipped with a second motor (Motor, 620) capable of forward rotation and reverse rotation control on the screw handle 330 of the screw transport block and is automatically It is characterized in that rotation is possible.

According to another embodiment of the present invention, the first motor 610 mounted on the hanger bracket 100 and the second motor 620 mounted on the screw transfer block 300 are remote controller 700 . It is characterized in that forward rotation and reverse rotation control are possible.

According to another embodiment of the present invention, the first motor 610 mounted on the hanger bracket 100 and the second motor 620 mounted on the screw transfer block 300 include a Raspberry Pi, 800) through which forward rotation and reverse rotation control are possible.

An improved base station antenna holder for mobile communication according to a preferred embodiment of the present invention has the following effects.

(1) In the present invention, unlike the conventional turnbuckle method in which the user rotates manually, You can manually adjust the direction of the antenna more easily by using a spanner or box wrench.

(2) In the present invention, automatic rotation is possible through a Raspberry Pi by mounting a second motor capable of controlling forward rotation and reverse rotation on the screw handle of the screw transfer block.

(3) In the present invention, it is possible to manually rotate 180° using a spanner or a box wrench 500, which is an external driving means of the hanger bracket.

(4) In the present invention, a first motor capable of controlling forward rotation and reverse rotation, which is an external driving means of the hanger bracket 100, is mounted, so that 180° automatic rotation is possible through the Raspberry Pi.

(5) The present invention, unlike the conventional turnbuckle method in which the user rotates manually, the forward and reverse rotation of the motor connected to the screw transfer block capable of reciprocating up and down or back and forth with a remote control As one remote control is possible, the user can accurately and automatically adjust the transmission/reception direction of the antenna installed on a pylon or tall building on the ground.

(6) The present invention, unlike the conventional turnbuckle method that the user manually rotates, the antenna support arm (Arm) and the screw transfer block mounted inside the antenna support arm (Arm) (Screw) transfer block) to support the antenna, so that the mounted antenna can sufficiently withstand the external force of strong winds such as strong winds or gusts.

1 is a view showing the prior art
2 is a view showing the overall technical configuration of an improved base station antenna cradle for mobile communication according to a preferred embodiment of the present invention;
3 is a view showing a state in which the direction of the antenna can be manually adjusted using a spanner/box wrench for an improved base station antenna holder for mobile communication according to a preferred embodiment of the present invention;
4 is a view showing a state in which a spanner / box wrench is used in a screw rotation handle of an improved base station antenna holder for mobile communication according to a preferred embodiment of the present invention;
5 is a view showing a state in which remote control of the antenna is possible using a motor mounted on a screw rotation handle of an improved base station antenna holder for mobile communication, a Raspberry Pi, and a remote control according to a preferred embodiment of the present invention;
6 is a view showing various angle adjustments of an antenna for an improved base station antenna cradle for mobile communication according to a preferred embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even if they are displayed on different drawings, and even though the same numerals as in the prior art are displayed. The prior art should be interpreted as such. In addition, in describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 to 6, the core technical configuration means of the improved base station antenna holder for mobile communication according to a preferred embodiment of the present invention is largely a hanger bracket (Hanger bracket, 100) and an antenna mounting panel 200, It is composed of a screw transfer block 300, an antenna support arm (Antenna support arm, 400).

2, 3 and 5, the hanger bracket (100) is a means for rotating the base station antenna for mobile communication up, down, left and right, and the antenna 110 is fixedly installed on a railing on the roof of a pylon or building It is fixedly mounted on the antenna support pipe 120, and it is possible to rotate 180° left and right manually and automatically by external driving. In addition, after the hanger bracket 100 is rotated, locking is possible by the locking means 101 .

In addition, with reference to FIGS. 3 and 4 , the external driving of the hanger bracket 100 according to an embodiment of the present invention is performed using a spanner or a box wrench on the bracket rotation handle 102 of the hanger bracket 100 . (Box Wrench, 500) can be manually rotated 180°.

Here, a bracket rotation handle 102 is provided under the hanger bracket 100 to mount the spanner or box wrench 500 and the first motor 610 .

In addition, the external driving of the hanger bracket 100 according to the embodiment of the present invention, the first motor (Motor, 610) capable of forward and reverse rotation control is the bracket rotation handle 102 of the hanger bracket 100 It can be automatically rotated 180°.

Here, in order to automatically rotate the left and right directions of the antenna installed on a pylon or high building through the first motor 610 from the ground to 180° through the remote control, there is a problem that the locking means 101 must first be released. do. Therefore, in the embodiment of the present invention, when the hanger bracket 100 is rotated through the first motor 610, the locking means 101 is left in a released state, and the first motor 610 is It is possible to enable locking through the drive and stop control of the .

As described above, the fact that manual and automatic rotation of the hanger bracket 100 is possible by external driving according to an embodiment of the present invention provides convenience to the user according to the weight of the antenna and the antenna holder. In addition, as the 4th generation mobile communication system, LTE (Long Term Evolution), and the 5G (Fifth Generation Technology Standard), a 5th generation mobile communication system with high directivity of radio waves, continue to the 6th and 7th generation, the radio wave of the antenna for transmission and reception Due to the sensitivity of transmission and reception, the weight will be increased more and more.

2, 3, and 5, the antenna mounting panel 200 is a means for mounting a base station antenna for mobile communication, and is connected to one side of the hanger bracket 100 and is rotatable, and screw transport A guide rail 210 for guiding the block 300 in a sliding manner is formed.

Here, the guide rail 210 of the panel 200 for mounting the antenna is formed by a press process using a galvanized iron plate or SUS303 material, so that the sliding device 340 of the screw transfer block 300 is subjected to frequent reciprocating movements. Make sure it doesn't rust.

In addition, referring to FIGS. 2 and 3 , the upper and lower portions of the antenna mounting panel 200 are connected to and fixed to the first bracket 111 and the second bracket 112 fixedly mounted on the rear surface of the antenna 110 . do.

2 and 3, the screw transfer block 300 is an improved means of the existing turnbuckle (Turn buckl) means, the upper and lower along the guide rail 210 of the panel 200 for mounting the antenna or It reciprocates back and forth, and enables manual and automatic angle adjustment by externally driving the antenna 110 in the vertical direction.

In addition, the screw transfer block 300 according to an embodiment of the present invention is connected to a bevel gear box 310 that transmits power in a non-parallel axial direction, and the bevel gear box 310, A screw 320 capable of reciprocating up and down or back and forth in the axial direction, and a screw rotation handle that is connected to the bevel gear box 310 and can rotate left and right to allow the screw 320 to reciprocate up and down A rotating handle 330 and a sliding device 340 connected to the screw 310 to reciprocate up and down or back and forth along the guide rail 210 of the panel 200 for mounting the antenna (Sliding Device 340), and the sliding It is located on the upper part of the device 340, and a fixed block 350 that transmits force energy according to the vertical or forward and backward reciprocating motion of the screw 320 to the panel 200 for mounting the antenna. provided

In addition, the screw transfer block 300 according to an embodiment of the present invention is manually installed by using or inserting a spanner or a box wrench 500 to the screw handle 330 of the screw transfer block 300 . can be rotated with

In addition, the screw transfer block 300 according to an embodiment of the present invention is equipped with a second motor (Motor, 620) capable of forward and reverse rotation control on the screw handle 330 of the screw transfer block 300 . to enable automatic rotation.

On the other hand, the first motor 610 mounted on the hanger bracket 100 and the second motor 620 mounted on the screw transfer block 300 according to an embodiment of the present invention are connected to the remote controller 700 from a remote location. Allows forward and reverse rotation control.

In addition, the first motor 610 mounted on the hanger bracket 100 and the second motor 620 mounted on the screw transfer block 300 according to an embodiment of the present invention include a Raspberry Pi (Raspberry Pi, 800). ) to enable intermittent control of forward and reverse rotation.

Therefore, the screw transfer block 300 according to an embodiment of the present invention, unlike the conventional turnbuckle method in which a user manually rotates, a screw transfer block capable of reciprocating up and down or back and forth motion. By configuring it, there is a unique feature that the user can more easily manually adjust the direction of the antenna using a spanner or a box wrench.

In addition, by intermittently controlling the second motor (Motor, 620) capable of forward and reverse rotation control on the screw handle 330 of the screw transfer block 300 through a Raspberry Pi (Raspberry Pi, 800), easy automatic rotation This has a unique feature that can provide user convenience.

And the screw transfer block 300 according to an embodiment of the present invention, unlike the conventional turnbuckle method that the user manually rotates, a screw transfer block capable of reciprocating up and down or back and forth and By remote control of the forward and reverse rotation of the connected motor with a single remote control, it has a unique feature that the user can accurately and automatically adjust the direction of transmission and reception of the antenna installed on a pylon or tall building from the ground.

2 to 5, the antenna support arm (Antenna Support Arm, 400) is a means for supporting the antenna 110 together with the antenna mounting panel 200, a hanger bracket 100 and It is connected to the sliding device 340 of the screw transfer block 300 and is rotatable, and when the antenna 110 is angled up and down according to the vertical or front-back reciprocating motion of the screw transfer block 300, the antenna ( 110) to support it.

Therefore, the antenna support arm 400 according to an embodiment of the present invention, unlike the conventional turnbuckle method manually rotated by the user, the antenna support arm (Arm) and the antenna By integrating with the screw transfer block mounted on the inside of the support arm 400 to support the antenna, the unique feature that the mounted antenna can sufficiently withstand the external force of strong winds such as strong winds or gusts. have.

Meanwhile, FIG. 6 is a view showing various angle adjustments of an antenna for an improved base station antenna cradle for mobile communication according to a preferred embodiment of the present invention.

As shown in Figure 6, the base station antenna for mobile communication can be adjusted at various angles, unlike the conventional turnbuckle method, the screw transfer block 300 that can reciprocate up and down or back and forth is a spanner or box wrench 500. And by configuring the second motor 620 and the Raspberry Pi, the implementation becomes possible.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: hanger bracket 110: antenna
101: locking means 102: bracket rotation handle
111: first bracket 112: second bracket
120: Antenna support pipe 200: Antenna mounting panel
210: guide rail 300: screw transfer block
310: bevel gear box 320: screw
330: screw rotation handle 340: sliding device
350: fixed block 400: arm for antenna support
500: spanner / box wrench 610: first motor
620: second motor 700: remote control
800 : Raspberry Pi

Claims (8)

In the base station antenna holder for mobile communication,
The cradle is fixedly mounted on the antenna support pipe 120 for fixing and installing the antenna 110 on the railing of the pylon or the roof of the building, rotates 180° left and right manually and automatically by external driving, and locking means 101 ) lockable by a hanger bracket (Hanger bracket, 100) and;
An antenna mounting panel 200 connected to one side of the hanger bracket 100 and rotatable and provided with a guide rail 210 for guiding the screw transfer block 300 in a sliding manner;
A screw transfer block 300 capable of reciprocating up and down or back and forth along the guide rail of the antenna mounting panel 200, and capable of manually and automatically adjusting the angle by externally driving the antenna 110 in the vertical direction;
When the hanger bracket 100 and the sliding device 340 of the screw transfer block 300 are connected and rotatable, the antenna 110 is angled up and down according to the reciprocating motion of the screw transfer block 300. An improved base station antenna holder for mobile communication, characterized in that it includes an antenna support arm (400) for supporting the antenna (110).
The method of claim 1,
The external driving of the hanger bracket 100 is characterized in that it can be manually rotated 180° by inserting a spanner or a box wrench 500 into the bracket rotation handle 102 of the hanger bracket 100 An improved base station antenna cradle for mobile communication.
The method of claim 1,
The external drive of the hanger bracket 100 is performed by mounting a first motor (Motor, 610) capable of forward rotation and reverse rotation control on the bracket rotation handle 102 of the hanger bracket 100 to automatically rotate by 180°. Improved base station antenna cradle for mobile communication, characterized in that possible.
The method of claim 1,
The screw transfer block 300 includes a bevel gear box that transmits power in a non-parallel axial direction (Bevel Gear Box, 310);
A screw (Screw, 320) that is connected to the bevel gear box (310) and can reciprocate up and down or back and forth in the axial direction;
A screw rotating handle 330 that is connected to the bevel gear box 310 and can rotate left and right to allow the screw to reciprocate up and down;
A sliding device connected to the screw 320 and reciprocating up and down or back and forth along the guide rail of the panel for mounting the antenna (Sliding Device, 340);
A fixed block 350 positioned above the sliding device 340 and transferring force energy according to the vertical or forward and backward reciprocating motion of the screw 320 to the antenna mounting panel 200 . ) An improved base station antenna cradle for mobile communication, characterized in that it is provided.
The method of claim 1,
The screw transfer block 300 is an improved mobile communication base station, characterized in that it can be manually rotated using any one of a spanner and a box wrench 500 on the screw handle of the screw transfer block. antenna stand
The method of claim 1,
The screw transport block 300 is equipped with a second motor (Motor, 620) capable of forward and reverse rotation control on the screw handle 330 of the screw transport block, which enables automatic rotation. Base station antenna cradle for communication.
The method of claim 1,
The first motor 610 mounted on the hanger bracket 100 and the second motor 620 mounted on the screw transfer block 300 are capable of forward and reverse rotation control with the remote control 700 at a remote location. An improved base station antenna cradle for mobile communication.
The method of claim 1,
The first motor 610 mounted on the hanger bracket 100 and the second motor 620 mounted on the screw transfer block 300 control forward rotation and reverse rotation through a Raspberry Pi 800 . An improved base station antenna cradle for mobile communication, characterized in that it is possible.

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