Unitary adjustable section antenna in embedded wallboard
Technical field
The invention belongs to field of antenna, and in particular to unitary adjustable section antenna in a kind of embedded wallboard.
Background technology
Antenna is a kind of converter that can emit or receive electromagnetic wave, every device for using electromagnetic waves to transmit information
Tool, such as TV, broadcast, radio communication, radar, navigation etc., depend on antenna to work, exterior aerial is antenna
One kind, volume is relatively large, thus it is installed on outside building.But much all this has watt for the position on outdoor roof now
Piece, the rare dead level that can prevent antenna look for one piece of position that can place antenna also cumbersome in outdoor.Therefore,
It is intended that finding a kind of antenna assembly for saving installation space.
Cannot be moved again substantially in addition, general exterior aerial once installs, thus be difficult, even cannot be according to reality
Border needs to adjust the angle of antenna, has certain influence to Antenna Operation, when along with encountering bad weather, exterior aerial pole has can
It can be damaged.In addition, in the case of typically now, an antenna is only installed on an antenna support, multiple signals can not be received,
And this antenna arrangement is relatively low for the utilization rate in space.
Therefore, for some of the above problem, the present invention has carried out further design to exterior aerial in the prior art
And improvement, it is specifically related to unitary adjustable section antenna in a kind of embedded wallboard.
Invention content
For the above deficiency in the prior art, the present invention provides unitary adjustable section antenna in a kind of embedded wallboard,
In wallboard, space is saved, angular adjustment is convenient, while facilitating gathering, is protected to antenna.
In order to solve the above-mentioned technical problem, the present invention is addressed by following technical proposals.
Unitary adjustable section antenna in embedded wallboard, includes the wall for installing antenna, which is equipped with holder mould
The outer end of block, the rack module is connected with mobile module, which is equipped with angle modulation module and antenna body, wherein:Institute
It states wall and is equipped with the antenna installation cavity for leaning on mouth outwardly, the wallboard for installing antenna, holder mould are equipped in the antenna installation cavity
Block is fixed on the wallboard;The rack module includes the fixed frame being fixed on wallboard, which is equipped with and mobile mould
The connected bindiny mechanism of block, and the bindiny mechanism can pull mobile module to rotate;During the mobile module includes horizontally disposed
Empty crossbeam, the beam sides are equipped with a shaped opening, are equipped with telescopic rack in described shaped opening, the rack it is outer
End is fixed with angle modulation module, and antenna body is fixed in the angle modulation module;Drive rack telescopic moving is equipped in the crossbeam
Rack drives mechanism;The angle modulation module includes the first motor holder being fixed on rack, is set to the first motor holder
In first motor, the first motor drives turn disc, the rotating disc to be fixed on the second electric machine support, described the
The second motor is equipped in two electric machine supports, second motor is connected with antenna body and antenna body is driven to rotate.
In the present invention, rack module is used to antenna being mounted in antenna installation cavity, and mobile module is for antenna body
Mobile, angle modulation module is used for the rotation of antenna body, the adjustment of position and angle is realized, convenient for finding best signal location.
Preferably, in rack module, the outer end of the fixed frame and crossbeam are hinged;The bindiny mechanism includes being set to admittedly
Determine the first hydraulic seat on frame, the first hydraulic part is equipped in first hydraulic seat, the first hydraulic stem in first hydraulic part
Realized by chain link and crossbeam hinged in end.In the structure, by the work of the first hydraulic part, chain link is pulled to realize turning over for crossbeam
Turn, realize becomes horizontal working condition by antenna body from vertical state.
Preferably, in mobile module, the rack drives mechanism includes the fixed driving gear of shaft of third motor,
The driving gear can realize that the movement of rack, the third motor are fixed on third electric machine support with rack engagement rotation.Work
When making, the rotation of third motor drives the rotation of sliding tooth wheel, realizes moving horizontally for antenna body.
Preferably, the driving gear includes first gear and the second gear set on the first gear outer end, and the
The diameter of one gear is more than second gear;The bottom end of the third electric machine support is connected with raise-lower hydraulic part, third electric machine support
Side be connected with horizontal hydraulic pressure part.Horizontal hydraulic pressure part and raise-lower hydraulic part are respectively used to the lifting of driving gear and horizontal shifting
It is dynamic, realize the adjustment of first gear and second gear position.Rack in the application is setting up and down, when first gear is stuck in up and down
When between rack, first gear rotation can move rack up and down simultaneously, and when first gear is moved outside, second gear can be to
It above or moves down and is stuck on upper rack or lower rack, the movement of upper rack or lower rack is implemented separately.
Preferably, the raise-lower hydraulic part and horizontal hydraulic pressure part are set on mounting plate, which is installed on crossbeam,
Compact overall structure.
Preferably, the bottom of the third electric machine support is equipped with the bottom sliding plate being connected by sliding slot, it is described
The side of third electric machine support is equipped with the side sliding plate being connected by sliding slot;Raise-lower hydraulic part and horizontal hydraulic pressure part difference
It is connect with bottom sliding plate and side sliding plate.The structure makes translation and lifting be smoothed out.
Preferably, in mobile module, opposite side is equipped with a rule shaped opening, and the length of shaped opening on crossbeam
Degree is the half of crossbeam length.Shaped opening is used for the movement of antenna body end.
Preferably, in mobile module, the rack is set in the rack sliding slot on the internal chamber wall of crossbeam, and rack is made to move
Smoothly.
Preferably, the opening of the antenna installation cavity is equipped with baffle, the both sides of the baffle there are for antenna body into
The space gone out.The baffle plays a certain protective role, and antenna collapses Tsang in wherein.
Preferably, the baffle is divided into moveable first baffle and second baffle, and first baffle and second baffle
Coordinated by sliding rail between the side wall of antenna installation cavity, the first baffle and second baffle can close opening for antenna installation cavity
Mouthful.In the structure, but after antenna gathering, first baffle can be moved and second baffle closes antenna installation cavity, played well
Protective effect;The operation can carry out manually, can also install conventional telescope motor and carry out automatic open-close.
Compared with prior art, the invention has the advantages that:Provide unitary adjustable in a kind of embedded wallboard
Antenna is saved, saves installation space, while by the setting of rotary electric machine and hydraulic part on multiple positions, antenna position may be implemented
It sets, the adjustment of direction, angle, it is very convenient convenient for finding best signal location;Antenna is in hang, antenna after collapsing
Installation cavity plays storage and protective effect well.
Description of the drawings
Fig. 1 is the unfolded state schematic diagram of the antenna in the present invention.
Fig. 2 is the schematic diagram rotated after the antenna in the present invention is unfolded.
Fig. 3 is the schematic diagram of the antenna body vertical state in the antenna in the present invention.
Fig. 4 is that the antenna in the present invention collapses the schematic diagram in antenna installation cavity.
Fig. 5 is the schematic diagram of the wall equipped with baffle.
Fig. 6 is the working state schematic representation after the antenna in the present invention is mounted in wall.
Fig. 7 is the working state schematic representation after the antenna in another embodiment is mounted in wall.
Fig. 8 is the schematic diagram of the wall equipped with baffle in another embodiment.
Fig. 9 is the schematic diagram of the wall after the flapper closure in Fig. 8.
Figure 10 is the decomposition diagram of the antenna body in the present invention.
Figure 11 is the decomposition diagram one of the rack drives mechanism in the present invention.
Figure 12 is the decomposition diagram two of the rack drives mechanism in the present invention.
Figure 13 is the decomposition diagram of the part-structure of the antenna in the present invention.
Figure 14 is the enlarged drawing of a-quadrant in Figure 13.
Figure 15 is the enlarged drawing of B area in Figure 13.
Figure 16 is the decomposition diagram of the antenna body and rack in the present invention.
Figure 17 is the assembling schematic diagram of middle cross beam of the present invention and part bindiny mechanism.
Figure 18 is the assembling schematic diagram one of the mobile module and antenna body in the present invention.
Figure 19 is the assembling schematic diagram two of the mobile module and antenna body in the present invention.
Figure 20 is the assembling schematic diagram of the exterior aerial in the present invention.
Specific implementation mode
Present invention is further described in detail with specific implementation mode below in conjunction with the accompanying drawings.
Referring to figs. 1 to Figure 20, unitary adjustable section antenna in a kind of embedded wallboard involved in the present invention, including be used to pacify
The wall 11 of antenna is filled, which is equipped with rack module, and the outer end of the rack module is connected with mobile module, the movement mould
Block is equipped with angle modulation module and antenna body 5, wherein these modules are respectively provided with structure in detail below.
Wall, the wall 11 are equipped with the antenna installation cavity 12 for leaning on mouth outwardly, are equipped with and are used in the antenna installation cavity 12
The wallboard 1 of antenna is installed, rack module is fixed on the wallboard 1;The opening of the antenna installation cavity 12 is equipped with baffle 13, should
There are the spaces passed in and out for antenna body 6 for the both sides of baffle 13, and the top of baffle 13 can be with the top phase of antenna installation cavity 12
Even, can not also be connected, there is the figure of two kinds of embodiments in the application.When work, antenna body 6 first moves to both sides, then
It is turned out again to horizontal working condition, reverse operating when gathering.In addition, specifically, it is moveable that the baffle 13, which divides,
First baffle 131 and second baffle 132, and lead between first baffle 131 and second baffle 132 and the side wall of antenna installation cavity 12
The cooperation of sliding rail 14 is crossed, similar to sliding door, the shifting principle of aluminium alloy window, which makes first baffle 131 and second baffle 132
The opening of antenna installation cavity 12 can be closed, antenna assembly therein is preferably protected.First baffle 131 and second baffle 132
Moving operation can carry out manually, can also install conventional telescope motor and carry out automatic open-close.
Rack module, the rack module include the fixed frame 21 being fixed on wallboard 1, which is equipped with and shifting
The connected bindiny mechanism of dynamic model block, and the bindiny mechanism can pull mobile module to rotate.It is cut with scissors with crossbeam 3 outer end of fixed frame 21
It connects, the bindiny mechanism includes the first hydraulic seat 22 being set on fixed frame 21, and the first hydraulic pressure is equipped in first hydraulic seat 22
Part 221, the end of the first hydraulic stem 222 in first hydraulic part 221 realized by chain link 23 and crossbeam 3 it is hinged, at this point, logical
The work of the first hydraulic part 222 is crossed, chain link 23 is pulled to realize that the overturning of crossbeam 3, realization become antenna body 6 from vertical state
Horizontal working condition.
Mobile module, the mobile module include horizontally disposed hollow crossbeam 3, and 3 side of the crossbeam is equipped with strip
Opening 303 is equipped with telescopic rack 302 in described shaped opening 303, and the outer end of the rack 302 is fixed with angle modulation module,
It is fixed with antenna body 6 in the angle modulation module;The rack drives machine of 302 telescopic moving of drive rack is equipped in the crossbeam 3
Structure.In addition, in mobile module, the rack drives mechanism includes the fixed driving gear of shaft of third motor 33, the driving
Gear can realize that the movement of rack 302, the third motor 33 are fixed on third electric machine support 34 with 302 engagement rotation of rack
On, the rotation of third motor 33 drives the rotation of sliding tooth wheel, realizes moving horizontally for antenna body 6.In addition, the driving gear package
First gear 331 and the second gear 332 set on 331 outer end of first gear are included, and the diameter of first gear 331 is more than second
Gear 332;The bottom end of the third electric machine support 34 is connected with raise-lower hydraulic part 32, side and the level of third electric machine support 34
Hydraulic part 35 is connected, and the raise-lower hydraulic part 32 and horizontal hydraulic pressure part 35 are set on mounting plate 31, which is installed on cross
On beam 3.In the structure, horizontal hydraulic pressure part 35 and raise-lower hydraulic part 32 are respectively used to the lifting of driving gear and move horizontally, real
The adjustment of existing 332 position of first gear 331 and second gear.Specifically:Rack 302 in the application is setting up and down, when first
When gear 331 is stuck in up and down between rack, the rotation of first gear 331 can move upper and lower rack simultaneously, when outside first gear 331
Move, second gear 332 can be moved up or down and be stuck on upper rack or lower rack, be implemented separately upper rack or under
The adjustment of 6 position of antenna body is realized in the movement of rack.
In addition, in mobile module, the bottom of the third electric machine support 34 is equipped with to be slided by the bottom that sliding slot is connected
Plate 323 is moved, the side of the third electric machine support 34 is equipped with the side sliding plate 353 being connected by sliding slot;Raise-lower hydraulic
Part 32 and horizontal hydraulic pressure part 35 are connect with bottom sliding plate 323 and side sliding plate 353 respectively, which keeps translation and lifting suitable
Profit carries out.
In present embodiment, in mobile module, opposite side is equipped with a rule shaped opening 303, and strip on crossbeam 3
The length of opening 303 is the half of 3 length of crossbeam, and the rack 302 is set to the rack sliding slot 305 on the internal chamber wall of crossbeam
In, shaped opening 303 is used for the movement of 6 end of antenna body, and the setting of rack sliding slot 305 makes rack 302 move smoothly.
Angle modulation module, the angle modulation module include the first motor holder 65 being fixed on rack 302, are set to first electricity
First motor 64 in machine support 65, the first motor 64 drive rotating disc 63 to rotate, and the rotating disc 63 is fixed on second
On electric machine support 62, the second motor 61 is equipped in second electric machine support 62, second motor 61 is connected with antenna body 6
And driving antenna body 6 rotates.
In the present invention, antenna is fixed in antenna installation cavity by rack module, and mobile module is used for the movement of antenna body,
Angle modulation module is used for the rotation of antenna body, the adjustment of position and angle is realized, convenient for finding best signal location.The present invention
In connection relation between some elements be conventional key connection, threaded connection, screw connection, welding etc., and also set on antenna
There are conventional an antenna electronics module, including signal receiver, amplifier, converter etc., each power structure in the present invention, such as
Motor, hydraulic part etc. are the mechanical device of routine, are all linked into power grid by electric wire and realize work.And these use electric device
Control mode, connection type, on-off mode are also all conventional structure.In the present invention, the use such as each motor, hydraulic part on antenna
Electric unit is controlled by being placed on indoor controller, operation and the automatically controlled mode that control mode is routine.
Specifically, when work, the space that baffle 13 reserves the disengaging of antenna body 6 is opened, then under the action of controller,
First gear 331 and second gear 332 in mobile module rotate under motor drive and rack 302 are made to be displaced outwardly, and drive
Antenna body 6 is displaced outwardly, and antenna body 6 is made first to shift to both ends, and then the first hydraulic part 222 work in bindiny mechanism, draws
Dynamic chain link 23 realizes the overturning of crossbeam 3, and realize becomes horizontal working condition by antenna body 6 from vertical state.It then can be after
Day is realized in the position of continuous adjustment antenna body 6 finally by the work of angle modulation mould 64 and second motor 61 of first motor in the block
The adjustment of 6 angle of line main body reaches best signal reception state.
The above, the present invention provides unitary adjustable section antennas in a kind of embedded wallboard, save installation space, simultaneously
By the setting of rotary electric machine and hydraulic part on multiple positions, the adjustment of aerial position, direction, angle may be implemented, be convenient for
Best signal location is found, it is very convenient;Antenna is in hang after collapsing, and antenna installation cavity plays storage well and protects
Shield acts on.
Protection scope of the present invention includes but not limited to embodiment of above, and protection scope of the present invention is with claims
Subject to, any replacement being readily apparent that those skilled in the art that this technology is made, deformation, improvement each fall within the present invention's
Protection domain.