CN209434377U - RCU transmission mechanism and antenna for base station built in a kind of multifrequency electrical tilt antenna - Google Patents
RCU transmission mechanism and antenna for base station built in a kind of multifrequency electrical tilt antenna Download PDFInfo
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- CN209434377U CN209434377U CN201822231245.1U CN201822231245U CN209434377U CN 209434377 U CN209434377 U CN 209434377U CN 201822231245 U CN201822231245 U CN 201822231245U CN 209434377 U CN209434377 U CN 209434377U
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- gear
- primary input
- output shaft
- output
- transmission mechanism
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Abstract
This application discloses RCU transmission mechanism and antenna for base station built in a kind of multifrequency electrical tilt antenna.The application transmission mechanism, including assembling the primary input axis of primary input gear, the output shaft of several assembly output gears;Output gear is not engaged with primary input gear;Output shaft and primary input between centers set jackshaft, and intermediate gear, intermediate gear and primary input gear axially spaced-apart are arranged on jackshaft;A guide sleeve, guide sleeve axial restraint are also arranged on jackshaft, guiding is cased with guide pin;The guide cylinder that primary input axis outer cover one independently rotates sets cam path on guide cylinder side wall;Guide pin is inserted into cam path, and when turning to cam path salient point, guide pin drives jackshaft and intermediate gear axially to move, take intermediate gear to primary input gear same plane, and engage with primary input gear and output gear to operation.The transmission mechanism of the application is not required to multiple output gears and is staggered, more compact structure, smaller, and all using machine driving, structural reliability is more stable.
Description
Technical field
This application involves field of antenna, more particularly to RCU transmission mechanism built in a kind of multifrequency electrical tilt antenna and base station day
Line.
Background technique
With the development of communication requirement and technology, multifrequency antenna for base station becomes the market demand main force.The cloth in city and small towns
Office, movement of population need the signal of multifrequency antenna for base station to cover and adjust accordingly, to meet the communication need in different communication region
It asks.This requires the radiation angles of antenna for base station to adjust, and the effect of RCU transmission mechanism is exactly to be used for built in multifrequency electrical tilt antenna
Adjust the angle of radiation of antenna for base station.
There are two types of transmission mechanisms more conventional at present, is described in detail as follows:
The first transmission mechanism: it drives the rotation of primary input axis, primary input by two motor inputs, one of motor
Be equipped with gear on axis, multiple output shafts be distributed in the circumference range of primary input gear, respectively have on each output shaft one it is defeated
Gear out, each output gear is not in the same plane, staggered one by one respectively in axial direction, output gear and primary input tooth
Wheel cannot be engaged directly, be engaged by intermediate gear, intermediate gear can be engaged with primary input wheel and output wheel.It is intermediate
Gear and primary input gear are constantly in meshing state, another motor drives intermediate gear to carry out by screw rod, screw bushing structure
It is axially moved, axially moves to different location, can be engaged from different output gears, it at this time can be by the fortune of primary input gear
It is dynamic to be output on the output gear of engagement, drive output shaft to be rotated, to reach the corresponding radiation of a certain output shaft of adjustment
The purpose at angle.This structure not in the same plane, needs to be staggered one by one in the axial direction, drive mechanism is whole due to multiple output gears
Body longer dimension causes the overall dimensions of antenna to lengthen, and cost increases.In addition, each output shaft will fill specific position
It is mutually staggered with ensureing, assembly is more complex, and artificial time-consuming.
Second of transmission mechanism: same by two motor inputs, one of motor drives the rotation of primary input axis, and master is defeated
Enter to be equipped with primary input gear on axis, multiple output shafts with output gear are equipped within the scope of primary input circumference of gear, it is more
A output gear assembly in the same plane, is separated by a certain distance in the axial direction with main shaft.It is cased on each output shaft
Output shaft and output gear are withstood on spacing place by elastic force by spring, spring, wherein and the spacing place of each output shaft is identical, therefore
And all output gears are limited in same plane, there is certain distance in the screw rod end of each output shaft and coaxial line, defeated
There are spline in shaft end and screw rod end;Another motor drives the disk rotational for having certain altitude boss, works as boss
When going to some output shaft rear end, boss will be jacked up output shaft axially forward, remaining output shaft is motionless, and mobile is defeated
Shaft moves forward together with output gear, so that output gear be made to engage with primary input gear, the spline of output shaft end with
The movement of screw rod spline engagement, primary input gear is transferred on output screw, achievees the purpose that the corresponding angle of radiation of adjustment.When
Band boss disk is continued to rotate, boss leaves mobile transmission shaft, under the action of the spring, output shaft pushed back to original limit
Place, output gear disengaging are engaged with main shaft, and the movement of main shaft can not transmit.When needing to select an output spiral shell
When bar rotates, with regard to rotating boss disk rotational at corresponding output shaft, output shaft is jacked up forward.The program can be effective
Reduce transmission size, but used elastic element, it is more demanding to the material and character constancy of elastic element, environmental requirement compared with
Height, under varying environment, the service life of elastic element is different in size, this brings a big hidden danger to transmission overall performance stability.
According to the above analysis as it can be seen that existing two kinds of transmission mechanisms or longer dimension, assembly complexity or stability
It is difficult to ensure with reliability, there are hidden danger.And the size of transmission mechanism, reliability, assembly complexity to the cost of antenna, again
Amount, size have a great impact.Therefore, need to research and develop a kind of new stability it is good, convenient for assembly, and the relatively small biography of size
Motivation structure.
Summary of the invention
The purpose of the application is to provide RCU transmission mechanism built in the new multifrequency electrical tilt antenna of one kind, and uses the transmission
The antenna for base station of mechanism.
To achieve the goals above, the application uses following technical scheme:
The one side of the application discloses RCU transmission mechanism built in a kind of multifrequency electrical tilt antenna, including is equipped with primary input
The primary input axis of gear, several be equipped with the output shaft of output gear;Primary input gear is parallel with output gear and same
In plane, there is interval between primary input axis and output shaft, also, output gear is scattered in its week centered on primary input gear
It encloses, output gear is not engaged with primary input gear;Output shaft is used to connect the drive screw of antenna;Each output shaft and primary input
It is designed with a jackshaft between axis, intermediate gear, intermediate gear and primary input gear and output gear are arranged on jackshaft
In parallel, still, not in the same plane, intermediate gear and primary input gear and output gear have interval in the axial direction;Jackshaft
On be also arranged with a guide sleeve, guide sleeve axial limiting is fixed on jackshaft, and guide sleeve prolongs towards the side of primary input axis
Stretch out guide pin;The outer mask of primary input axis is equipped with a cylinder independently rotated, i.e. guide cylinder, on the side wall of guide cylinder, edge
Circumferencial direction offers cam path;Guide pin is inserted into cam path, and when guide cylinder rotates, guide pin slides in cam path, when
When turning to the salient point of cam path, make guide pin to operation, the guide pin of axial movement drives jackshaft and intermediate gear one
Rise be axially moved, intermediate gear is taken in the same plane of primary input gear and output gear, at this point, intermediate gear simultaneously with
Primary input gear and output gear engagement, realize the transmission of primary input axis and output shaft;The corresponding jackshaft of each output shaft
When guide pin is moved respectively to the salient point of cam path, corresponding intermediate gear is engaged with primary input gear and output gear, it is real
The selection of existing output shaft.
It should be noted that the transmission mechanism of the application, on the one hand, the output gear of primary input gear and all output shafts
All in one plane, also, the original state of all intermediate gears also in the same plane, be easily installed, and due to multiple
Output gear need not mutually stagger, and size is shorter;On the other hand, the application makes guide sleeve band by the way of rotating guide cylinder
Dynamic jackshaft and intermediate gear are axially mobile, and select output shaft using the salient point of cam path, in structure for, without elasticity
Element or other undefined structures, it is more reliable and more stable;Further, since output shaft does not need to move, can keep passing with antenna
The connection status of dynamic screw rod, for selection output shaft is employed to the mode of spline reconnect every time, the application is kept away
The calibration of each spline connection is exempted from, more accurately and reliably.
Preferably, RCU transmission mechanism built in the multifrequency electrical tilt antenna of the application further includes auxiliary input axis, is filled on auxiliary input axis
Equipped with auxiliary input gear, the outer surface of guide cylinder is provided with external gear, and auxiliary input gear engages with the external gear of guide cylinder, passes through
The rotation of auxiliary input axis drives guide cylinder rotation.
It should be noted that the effect of auxiliary input axis and auxiliary input gear is to drive guide cylinder rotation, it will be understood that this
It is the specific structure of driving guide cylinder rotation in a kind of implementation of the application, however not excluded that can also be driven using other way
Guide cylinder rotation.
Preferably, guide sleeve extends the second hole set towards the side of corresponding output shaft, and the second hole is set in accordingly
Output shaft on, can be moved axially along output shaft.
It should be noted that it is the first hole set that guide sleeve itself, which is placed on the set of the hole on jackshaft, therefore, it is placed on output shaft
On hole set be the second hole cover;The setting of second hole set is to preferably ensure that the position between jackshaft and output shaft is stablized
Property, and then ensure that intermediate gear can be engaged effectively with primary input gear and output gear.It is appreciated that in principle, as long as
The position of jackshaft and intermediate gear in the horizontal plane be it is fixed, will not shift, so that it may ensure jackshaft and output
The position of axis, and then ensure engaging for intermediate gear and primary input gear and output gear;Therefore, the second hole set can be according to not
Same transmission mechanism design requirement carries out selection use.
Preferably, output shaft is fixedly connected with the drive screw of antenna.
It is appreciated that since output shaft does not need to move in the axial direction, it completely can be solid with the drive screw of antenna
Fixed connection, to ensure the stability of structure and the stability and accuracy of kinetic energy transmitting.
Preferably, guide cylinder is structure as a whole or separate structure;In the guide cylinder of integral structure, cam path is to be opened in lead
To the groove of drum outer wall, at least one salient point was arranged along circumference one week of guide cylinder in groove;In the guide cylinder of separate structure,
Cam path two parts separation up and down, two parts are assembled into cam path, and two parts can rotate simultaneously.
It should be noted that the effect of cam path bumps is exactly that a jackshaft and its intermediate gear is selected to carry out axially
It is mobile, so that intermediate gear is axially moved to the same plane of primary input gear and output gear, and with primary input gear and output
Gear engagement;It is appreciated that the salient point in cam path can be one be also possible to it is two or more, as long as can ensure every time
Only a guide sleeve is selected to move to salient point, i.e., only one output shaft of selection and primary input axis link every time;Certainly, for
Some special demands, can also be by designing multiple two or more guide sleeves of salient point simultaneous selection.Multiple salient points are set
Benefit is, in selective guide set, it is not necessary that guide cylinder circles, can quickly to carry out the selection and conversion of output shaft.
Preferably, RCU transmission mechanism built in the multifrequency electrical tilt antenna of the application further includes pedestal, center base and rear cover;
Primary input axis, primary input gear, output shaft, output gear, jackshaft, intermediate gear, guide sleeve and guide cylinder are set to pedestal
Between center base;Primary input axis and output shaft axial restraint, jackshaft are located between pedestal and center base and can axis
To movement;Output shaft is used to connect the drive screw of antenna through pedestal;Primary input axis is through center base and rear cover for connecting
Connect primary input axial brake device;Guide cylinder axial restraint, and its external gear is protruded into center base with after through center base
Cavity between lid;Auxiliary input axis and auxiliary input gear are set between center base and rear cover, auxiliary input axis axial restraint, and
And auxiliary input axis inputs axial brake device for auxiliary connection through rear cover;The sky of auxiliary input gear and external gear in pedestal and rear cover
Intracavitary engagement.
It should be noted that pedestal, center base and rear cover be the application a kind of implementation in specifically use
Structure type and a kind of conventional structure type, however not excluded that can also using the fixed primary input axis of other way, output shaft,
The components such as jackshaft and auxiliary input axis.
Preferably, guide pin is made of metal material or engineering plastics.
Preferably, jackshaft is made of metal material or engineering plastics.
The another side of the application discloses a kind of base station of RCU transmission mechanism built in the multifrequency electrical tilt antenna using the application
Antenna.
Due to using the technology described above, the beneficial effects of the present application are as follows:
RCU transmission mechanism built in the multifrequency electrical tilt antenna of the application does not need for multiple output gears to be staggered one by one, tie
Can be very compact on structure, so that drive mechanism is smaller.Also, all using machine driving, physical characteristic in transmission
It is more stable with structural reliability, and do not have to use environment it is any specifically limited, structural reliability will not be different with environment and send out
Changing does not influence the service life of antenna.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of transmission mechanism in the embodiment of the present application;
Fig. 2 is the decomposition texture schematic diagram of transmission mechanism in the embodiment of the present application;
Fig. 3 is the assembling schematic diagram of primary input gear and output gear in the embodiment of the present application;
Fig. 4 is the assembling schematic diagram of primary input axis, output shaft and jackshaft in the embodiment of the present application;
Fig. 5 is the assembling schematic diagram of output shaft in the embodiment of the present application, guide sleeve and jackshaft;
Fig. 6 is the assembling schematic diagram of guide pin and guide cylinder in the embodiment of the present application.
Specific embodiment
The application is described in further detail below by specific embodiments and the drawings.Following embodiment is only to the application
It is further described, should not be construed as the limitation to the application.
Embodiment
RCU transmission mechanism built in the multifrequency electrical tilt antenna of this example as shown in Figures 1 to 6, including is equipped with primary input gear
2 primary input axis 1, several be equipped with the output shaft 3 of output gear 4, the auxiliary input axis 9 for being equipped with auxiliary input gear 10, bottom
Seat 01, center base 02 and rear cover 03.
As shown in figure 3, primary input gear 2 is parallel with output gear 4 and in the same plane, primary input axis 1 and output shaft
It is spaced apart between 3, also, output gear 4 is scattered in around it centered on primary input gear 2, output gear 4 with
Primary input gear 2 does not engage.Wherein, output shaft 3 is used to connect the drive screw of antenna;Also, the transmission of output shaft 3 and antenna
Screw rod is fixedly connected.
It is designed with a jackshaft 5 between each output shaft 3 and primary input axis 1, is arranged with intermediate gear 6 on jackshaft 5,
Intermediate gear 6 is parallel with primary input gear 2 and output gear 4, still, not in the same plane, intermediate gear 6 and primary input tooth
Wheel 2 and output gear 4 have certain distance in the axial direction, as shown in Figure 4.It is also arranged with a guide sleeve 7 on jackshaft 5, is oriented to
It covers 7 axial limitings to be fixed on jackshaft 5, guide sleeve 7 extends guide pin 71 towards the side of primary input axis 1;7 face of guide sleeve
Extend the second hole set 72 to the side of corresponding output shaft 3, the second hole set 72 is set on corresponding output shaft 3, Ke Yiyan
Output shaft 3 moves axially, as shown in Figure 4 and Figure 5.
The outer mask of primary input axis 1 is equipped with a cylinder independently rotated, i.e. guide cylinder 8, on the side wall of guide cylinder 8, edge
Circumferencial direction offers cam path 81.Guide pin 71 is inserted into cam path 81, as shown in Figure 6;When guide cylinder 8 rotates, guide pin
71 slide in cam path 81, when turning to the salient point of cam path 81, run guide pin 71 axially, the guiding of axial movement
Pin 71 drives jackshaft 5 and intermediate gear 6 to be moved axially together, and takes intermediate gear 6 to primary input gear 2 and output gear 4
Same plane in, at this point, intermediate gear 6 simultaneously engage with primary input gear 2 and output gear 4, realization primary input axis 1 with it is defeated
The transmission of shaft 3.It, will when the guide pin 71 of the corresponding jackshaft 5 of each output shaft 3 is moved respectively to the salient point of cam path 81
Corresponding intermediate gear 6 is engaged with primary input gear 2 and output gear 4, realizes the selection of output shaft 3.The appearance of guide cylinder 8
Face is provided with external gear 82, and auxiliary input gear 10 is engaged with the external gear 82 of guide cylinder 8, is driven and is led by the rotation of auxiliary input axis 9
It is rotated to cylinder 8.The guide cylinder 8 of this example is structure as a whole, wherein cam path 81 is the groove for being opened in 8 outer wall of guide cylinder, groove
Along circumference one week of guide cylinder 8, and a salient point was set.
As shown in Figure 1, the primary input axis 1 of this example, primary input gear 2, output shaft 3, output gear 4, jackshaft 5, centre
Gear 6, guide sleeve 7 and guide cylinder 8 are set between pedestal 01 and center base 02.Primary input axis 1 and output shaft 3 are axial solid
Fixed, jackshaft 5 is located between pedestal 01 and center base 02 and is axially movable;Output shaft 3 is through pedestal 01 for connecting
The drive screw of antenna;Primary input axis 1 is through center base 02 and rear cover 03 for connecting primary input axial brake device.Guide cylinder
8 axial restraints, and its external gear 82 is protruded into the cavity between center base 02 and rear cover 03 through center base 02.It is secondary defeated
Enter axis 9 and auxiliary input gear 10 is set between center base 02 and rear cover 03,9 axial restraint of auxiliary input axis, and auxiliary input
Axis 9 inputs axial brake device for auxiliary connection through rear cover 03;Auxiliary input gear 10 and external gear 82 are in pedestal 02 and rear cover 03
Cavity internal messing.
RCU transmission mechanism built in the multifrequency electrical tilt antenna of this example further includes two driving motors, that is, drives primary input axis
The auxiliary input axis driving motor of primary input axis driving motor and driving auxiliary input axis.
The guide sleeve 7, guide pin 71 and the second hole set 72 of this example are structure as a whole, and are prepared using metal material.In
Between axis 5 be also prepared using metal material.Remaining component all prepares material using conventional transmission mechanism.
The output gear of the transmission mechanism of this example, primary input gear and all output shafts all in one plane, also, institute
There is the original state of intermediate gear also in the same plane, to be easily installed, do not need for multiple output gears to be staggered one by one, tie
Can be very compact on structure, so that drive mechanism is smaller.This example is made in guide sleeve drive by the way of rotating guide cylinder
Between axis and intermediate gear it is axially mobile, and select output shaft using the salient point of cam path, all using machine driving in transmission,
Physical characteristic and structural reliability are more stable, and do not have to use environment any specifically limited, and structural reliability will not be with environment
It is different and change, the service life of antenna is not influenced.Further, since output shaft does not need to move, can keep and antenna
The connection status of drive screw avoids the calibration every time with antenna drive screw rod, is driven more accurate and reliable.
The foregoing is a further detailed description of the present application in conjunction with specific implementation manners, and it cannot be said that this Shen
Specific implementation please is only limited to these instructions.For those of ordinary skill in the art to which this application belongs, it is not taking off
Under the premise of from the application design, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to the protection of the application
Range.
Claims (9)
1. RCU transmission mechanism built in a kind of multifrequency electrical tilt antenna, it is characterised in that: the master including being equipped with primary input gear (2)
Input shaft (1), several be equipped with the output shaft (3) of output gear (4);
The primary input gear (2) is parallel with output gear (4) and in the same plane, primary input axis (1) and output shaft (3) it
Between have interval, also, output gear (4) is scattered in around it centered on primary input gear (2), and output gear (4) and master are defeated
Enter gear (2) not engage;
Output shaft (3) is used to connect the drive screw of antenna;
A jackshaft (5) is designed between each output shaft (3) and primary input axis (1), jackshaft is arranged with center tooth on (5)
It takes turns (6), intermediate gear (6) is parallel with primary input gear (2) and output gear (4), still, and not in the same plane, center tooth
Wheel (6) and primary input gear (2) and output gear (4) have interval in the axial direction;
A guide sleeve (7) is also arranged on the jackshaft (5), guide sleeve (7) axial limiting is fixed on jackshaft (5),
Guide sleeve (7) extends guide pin (71) towards the side of primary input axis (1);
The outer mask of primary input axis (1) is equipped with a cylinder independently rotated, i.e. guide cylinder (8), on the side wall of guide cylinder (8),
Along the circumferential direction offer cam path (81);
Guide pin (71) is inserted into cam path (81), when guide cylinder (8) rotates, guide pin (71) sliding in cam path (81),
When turning to the salient point of cam path (81), run guide pin (71) axially, the guide pin (71) of axial movement drives intermediate
Axis (5) and intermediate gear (6) are moved axially together, and take intermediate gear (6) to primary input gear (2) and output gear (4)
In same plane, at this point, intermediate gear (6) is engaged with primary input gear (2) and output gear (4) simultaneously, primary input axis is realized
(1) with the transmission of output shaft (3);
When the guide pin (71) of the corresponding jackshaft (5) of each output shaft (3) is moved respectively to the salient point of cam path (81), by phase
The intermediate gear (6) answered is engaged with primary input gear (2) and output gear (4), realizes the selection of output shaft (3).
2. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 1, it is characterised in that: further include auxiliary input
Axis (9) is equipped with auxiliary input gear (10) on auxiliary input axis (9), and the outer surface of the guide cylinder (8) is provided with external gear
(82), auxiliary input gear (10) is engaged with the external gear (82) of guide cylinder (8), is rotated by auxiliary input axis (9) and is driven guide cylinder
(8) it rotates.
3. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 1 or 2, it is characterised in that: the guide sleeve
(7) the second hole set (72) is extended in the side towards corresponding output shaft (3), and the second hole set (72) is set in corresponding output shaft
(3) it on, can be moved axially along output shaft (3).
4. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 1 or 2, it is characterised in that: the output shaft
(3) it is fixedly connected with the drive screw of antenna.
5. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 1 or 2, it is characterised in that: the guide cylinder
(8) it is structure as a whole or separate structure;
In the guide cylinder (8) of integral structure, cam path (81) is the groove for being opened in guide cylinder (8) outer wall, and groove is along guide cylinder
(8) circumference one week, and at least one salient point is set;
In the guide cylinder (8) of separate structure, two parts separate cam path (81) up and down, and two parts are assembled into cam path (81), and
And two parts can rotate simultaneously.
6. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 2, it is characterised in that: further include pedestal
(01), center base (02) and rear cover (03);
The primary input axis (1), primary input gear (2), output shaft (3), output gear (4), jackshaft (5), intermediate gear
(6), guide sleeve (7) and guide cylinder (8) are set between pedestal (01) and center base (02);
Primary input axis (1) and output shaft (3) axial restraint, jackshaft (5) are located between pedestal (01) and center base (02)
And it is axially movable;Output shaft (3) is used to connect the drive screw of antenna through pedestal (01);Primary input axis (1) is through centre
Pedestal (02) and rear cover (03) are for connecting primary input axial brake device;
Guide cylinder (8) axial restraint, and through center base (02) by its external gear (82) protrude into center base (02) and after
Cover the cavity between (03);
The auxiliary input axis (9) and auxiliary input gear (10) are set between center base (02) and rear cover (03), auxiliary input axis
(9) axial restraint, and auxiliary input axis (9) inputs axial brake device for auxiliary connection through rear cover (03);Auxiliary input gear
(10) with external gear (82) pedestal (02) and rear cover (03) cavity internal messing.
7. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 1 or 2, it is characterised in that: the guide pin
(71) it is made of metal material or engineering plastics.
8. RCU transmission mechanism built in multifrequency electrical tilt antenna according to claim 1 or 2, it is characterised in that: the jackshaft
(5) it is made of metal material or engineering plastics.
9. a kind of antenna for base station using RCU transmission mechanism built in the described in any item multifrequency electrical tilt antennas of claim 1-8.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822231245.1U CN209434377U (en) | 2018-12-28 | 2018-12-28 | RCU transmission mechanism and antenna for base station built in a kind of multifrequency electrical tilt antenna |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822231245.1U CN209434377U (en) | 2018-12-28 | 2018-12-28 | RCU transmission mechanism and antenna for base station built in a kind of multifrequency electrical tilt antenna |
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CN209434377U true CN209434377U (en) | 2019-09-24 |
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CN201822231245.1U Withdrawn - After Issue CN209434377U (en) | 2018-12-28 | 2018-12-28 | RCU transmission mechanism and antenna for base station built in a kind of multifrequency electrical tilt antenna |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109659697A (en) * | 2018-12-28 | 2019-04-19 | 广东司南通信科技有限公司 | RCU transmission mechanism and its application built in a kind of multifrequency electrical tilt antenna |
-
2018
- 2018-12-28 CN CN201822231245.1U patent/CN209434377U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109659697A (en) * | 2018-12-28 | 2019-04-19 | 广东司南通信科技有限公司 | RCU transmission mechanism and its application built in a kind of multifrequency electrical tilt antenna |
CN109659697B (en) * | 2018-12-28 | 2023-09-08 | 广州司南技术有限公司 | Built-in RCU transmission mechanism of multi-frequency electrically-tunable antenna and application thereof |
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