Disclosure of Invention
In view of the technical defects, the invention provides a 5G base station which can overcome the defects.
A5G base station comprises a base station installation rod, wherein a base station outer box is fixedly installed at the upper end of the base station installation rod, a power extension cavity is arranged in the base station outer box, a wind transformation device for providing power for device transformation is arranged in the power extension cavity, a shielding cavity is arranged in the base station outer box, a rain shielding device for shielding rain of a signal receiver is arranged in the shielding cavity, a power transmission cavity and a solar hydraulic control cavity are arranged in the base station outer box, a solar hydraulic control slider is arranged in the solar hydraulic control cavity in a sliding mode and extends into the power transmission cavity rightwards, a transmission device for power transmission is fixedly installed in the power transmission cavity, power generation board containing cavities which are symmetrical in the front and back are arranged in the base station outer box, and a power generation device for solar energy is arranged in the power generation board containing cavities, still be provided with signal processing chamber and windproof signal hydraulic pressure chamber in the basic station outer container, signal processing intracavity fixed mounting has signal processor, the last fixed signal connection line that is provided with of signal processor just the signal connection line downwardly extending of being qualified for the next round of competitions the basic station outer container, it is provided with signal hydraulic pressure slider just to slide in the windproof signal hydraulic pressure chamber signal hydraulic pressure slider upwards extends the basic station outer container, fixed mounting has the signal receiver who is used for signal acquisition to receive on the signal hydraulic pressure slider, signal hydraulic pressure slider with fixed mounting has windproof pretension spring between the windproof signal hydraulic pressure intracavity diapire.
Preferably, the wind conversion device comprises a fan rotating shaft which is rotatably arranged on the left end wall of the power extension cavity, the fan rotating shaft extends out of the base station outer box leftwards, fan blades are fixedly arranged on the left end face of the fan rotating shaft, a power block is fixedly arranged on the fan rotating shaft, a power oil suction cavity and four groups of centrifugal hydraulic cavities which are uniformly distributed are arranged in the power block, the power oil suction cavity is communicated with the four groups of centrifugal hydraulic cavities, a limiting block is fixedly arranged in the centrifugal hydraulic cavities, a centrifugal hydraulic slide block is slidably arranged in the centrifugal hydraulic cavities and extends outwards into the power extension cavity, and the function of providing power for device conversion is achieved through the wind conversion device.
Preferably, rain shield includes that fixed mounting is in shelter from the motor that shelters from on the chamber left end wall, it is provided with and shelters from the screw thread pivot to shelter from the motor to rotate right, it is provided with the shielding plate just to shelter from the intracavity slip the shielding plate extends right the basic station outer container, be provided with shielding plate screw thread chamber in the shielding plate, shielding plate screw thread chamber with shelter from screw thread pivot threaded connection, through rain shield has realized the function for signal receiver keeps off the rain.
Preferably, the transmission device comprises a hollow transmission rotating shaft rotatably arranged on the right end face of the power block, the hollow transmission rotating shaft extends rightwards into the power transmission cavity, the hollow transmission rotating shaft is fixedly connected with the base station outer box, a first transmission hydraulic cavity is arranged in the hollow transmission rotating shaft and is communicated with the power oil suction cavity, a first transmission hydraulic rod is arranged in the first transmission hydraulic cavity in a sliding manner and extends rightwards into the power transmission cavity, a solar transmission connecting block is fixedly arranged on the right end face of the solar hydraulic control sliding block, a transmission connecting block is fixedly arranged on the solar transmission connecting block and is fixedly connected with the first transmission hydraulic rod, a switch control block is fixedly arranged on the upper end face of the transmission connecting block, and a contraction switch is fixedly arranged on the left end wall of the power transmission cavity, fixed mounting has free switch on the wall of power transmission chamber right side, the shrink switch with free switch all with it is even to shelter from the motor electricity, be provided with second transmission hydraulic pressure chamber just in the basic station outer container second transmission hydraulic pressure intracavity slides and is provided with second transmission hydraulic stem, second transmission hydraulic pressure chamber with prevent wind signal hydraulic pressure chamber intercommunication, second transmission hydraulic stem extends into left the power transmission chamber just second transmission hydraulic stem with transmission connecting block fixed connection, through transmission has realized power transmission's function.
Preferably, power generation facility is in including rotating the setting power generation mounting panel pivot between the end wall about the power generation board accomodates the chamber, fixed mounting has the power generation board mounting panel in the power generation mounting panel pivot, fixed mounting has solar panel on the outside terminal surface of power generation board mounting panel, two sets of solar control hydraulic pressure chambeies of symmetry around being provided with in the basic station outer container, solar control hydraulic pressure chamber with be provided with solar control oil pipeline between the solar control hydraulic pressure chamber, it is provided with solar control hydraulic stem just to slide in the solar control hydraulic pressure intracavity solar control hydraulic stem outwards extends into the chamber is accomodate to the power generation board, solar control hydraulic stem with power generation board mounting panel fixed connection, through power generation facility has realized solar power generation's function.
Preferably, the signal receiving device comprises four groups of uniformly distributed windproof fixed blocks fixedly mounted on the outer box of the base station, a windproof rotating shaft mounting seat is fixedly mounted on the inward end face of the windproof fixed block, a windproof rotating shaft is fixedly mounted on the windproof rotating shaft mounting seat, a receiver mounting rod is fixedly mounted in the signal hydraulic slider and extends upwards from the receiver mounting rod, a signal receiver is fixedly mounted on the upper end face of the receiver mounting rod, a signal transmission core is fixedly arranged in the receiver mounting rod and contacts with the signal receiver, a signal access line is arranged between the signal transmission core and the signal processor and passes through the windproof signal hydraulic cavity, and four groups of uniformly distributed signal expansion plate mounting blocks are fixedly mounted on the upper end face of the signal hydraulic slider, the signal expansion plate mounting block is fixedly provided with a signal expansion plate mounting shaft, the signal expansion plate mounting shaft is rotatably provided with a signal expansion plate, a descending guide groove is formed in the signal expansion plate, a descending guide pillar is slidably arranged in the descending guide groove, a windproof hinge rod is hinged between the descending guide pillar and the windproof rotating shaft, and the signal receiving device is used for achieving the signal collecting and receiving functions.
The invention has the beneficial effects that: the device is provided with the solar photovoltaic panel in a normal state, and the solar photovoltaic panel can be unfolded to generate electricity for use, so that the power consumption is reduced; meanwhile, the antenna can be shielded by the device in rainy and snowy weather, so that the antenna is prevented from being damaged by rain and snow; when strong wind is generated, the parts which are greatly influenced by the wind in the device can be contracted back into the device, the damage of the wind to the parts is reduced, the antenna is protected from being wound and interacted with other wires, and the contraction degree of each part is in direct proportion to the wind power.
Detailed Description
All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.
The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
As shown in fig. 1-5, a 5G base station of the device of the present invention comprises a base station installation rod 20, a base station outer box 11 is fixedly installed at the upper end of the base station installation rod 20, a power extension cavity 17 is arranged in the base station outer box 11, a wind transformation device for providing power for device transformation is arranged in the power extension cavity 17, a shielding cavity 12 is arranged in the base station outer box 11, a rain shielding device for shielding rain of a signal receiver is arranged in the shielding cavity 12, a power transmission cavity 52 and a solar hydraulic control cavity 59 are arranged in the base station outer box 11, a solar hydraulic control slider 58 is slidably arranged in the solar hydraulic control cavity 59, the solar hydraulic control slider 58 extends rightwards into the power transmission cavity 52, a transmission device for power transmission is fixedly installed in the power transmission cavity 52, and power generation panel storage cavities 30 are symmetrically arranged in the base station outer box 11, the power generation board is provided with the power generation facility who is used for solar energy power generation in accomodating the chamber 30, still be provided with signal processing chamber 24 and prevent wind signal hydraulic pressure chamber 25 in the basic station outer container 11, fixed mounting has signal processor 23 in the signal processing chamber 24, signal processor 23 goes up the fixed signal connection 21 that is provided with just the signal connection 21 downwardly extending the basic station outer container 11, it is provided with signal hydraulic pressure slider 39 just to slide in the signal hydraulic pressure chamber 25 to prevent wind signal hydraulic pressure slider 39 upwards extends basic station outer container 11, fixed mounting has the signal receiver who is used for signal acquisition to receive on the signal hydraulic pressure slider 39, signal hydraulic pressure slider 39 with fixed mounting has prevent wind pretension spring 26 between the bottom wall in the signal hydraulic pressure chamber 25 to prevent wind.
Beneficially, the wind conversion device comprises a fan rotating shaft 18 rotatably arranged on the left end wall of the power extension cavity 17, the fan rotating shaft 18 extends out of the base station outer box 11 leftwards, the fan blade 16 is fixedly arranged on the left end face of the fan rotating shaft 18, the power block 19 is fixedly arranged on the fan rotating shaft 18, a power oil suction cavity 38 and four groups of centrifugal hydraulic cavities 36 which are uniformly distributed are arranged in the power block 19, the power oil suction cavity 38 is communicated with the four groups of centrifugal hydraulic cavities 36, a limiting block 35 is fixedly arranged in the centrifugal hydraulic cavity 36, a centrifugal hydraulic slide block 37 is slidably arranged in the centrifugal hydraulic cavity 36, and the centrifugal hydraulic slide block 37 extends outwards into the power extension cavity 17, so that the function of providing power for device conversion is realized through the wind conversion device.
Beneficially, the rain shield device includes a shielding motor 10 fixedly installed on the left end wall of the shielding cavity 12, the shielding motor 10 rotates rightwards to be provided with a shielding thread rotating shaft 13, a shielding plate 14 is slidably arranged in the shielding cavity 12 and extends rightwards from the shielding plate 14 to the base station outer box 11, a shielding plate thread cavity 15 is arranged in the shielding plate 14, the shielding plate thread cavity 15 is in threaded connection with the shielding thread rotating shaft 13, and the rain shield device achieves the function of shielding rain for the signal receiver.
Beneficially, the transmission device includes a hollow transmission rotating shaft 62 rotatably disposed on the right end face of the power block 19, the hollow transmission rotating shaft 62 extends rightwards into the power transmission cavity 52, the hollow transmission rotating shaft 62 is fixedly connected with the base station outer box 11, a first transmission hydraulic cavity 61 is disposed in the hollow transmission rotating shaft 62 and the first transmission hydraulic cavity 61 is communicated with the power oil suction cavity 38, a first transmission hydraulic rod 60 is slidably disposed in the first transmission hydraulic cavity 61 and the first transmission hydraulic rod 60 extends rightwards into the power transmission cavity 52, a solar transmission connecting block 57 is fixedly mounted on the right end face of the solar hydraulic control sliding block 58, a transmission connecting block 54 is fixedly mounted on the solar transmission connecting block 57 and the transmission connecting block 54 is fixedly connected with the first transmission hydraulic rod 60, a switch control block 51 is fixedly mounted on the upper end face of the transmission connecting block 54, fixed mounting has shrink switch 50 on the wall of power transmission chamber 52 left end, fixed mounting has free switch 53 on the wall of power transmission chamber 52 right end, shrink switch 50 with free switch 53 all with it is even to shelter from motor 10 electricity, be provided with second transmission hydraulic pressure chamber 55 just in the base station outer container 11 it is provided with second transmission hydraulic stem 56 to slide in second transmission hydraulic pressure chamber 55, second transmission hydraulic pressure chamber 55 with prevent wind signal hydraulic pressure chamber 25 intercommunication, second transmission hydraulic stem 56 extends into to left power transmission chamber 52 just second transmission hydraulic stem 56 with transmission connecting block 54 fixed connection, through transmission has realized power transmission's function.
Advantageously, the power generation device includes a power generation mounting plate shaft 33 rotatably disposed between the left and right end walls of the power generation plate housing chamber 30, the power generation mounting plate rotating shaft 33 is fixedly provided with a power generation plate mounting plate 29, the outer end surface of the power generation plate mounting plate 29 is fixedly provided with a solar power generation plate 28, two groups of solar control hydraulic cavities 32 which are symmetrical front and back are arranged in the base station outer box 11, a solar control oil pipeline 27 is arranged between the solar control hydraulic cavities 32 and the solar control hydraulic cavity 59, a solar control hydraulic rod 31 is slidably arranged in the solar control hydraulic cavity 32, the solar control hydraulic rod 31 extends outwards into the power generation panel accommodating cavity 30, the solar control hydraulic rod 31 is fixedly connected with the power generation board mounting plate 29, and the power generation device realizes the function of solar power generation.
Beneficially, the signal receiving device includes four groups of wind-proof fixed blocks 40 uniformly distributed and fixedly mounted on the outer box 11 of the base station, a wind-proof rotating shaft mounting seat 41 is fixedly mounted on an inward end face of the wind-proof fixed block 40, a wind-proof rotating shaft 63 is fixedly mounted on the wind-proof rotating shaft mounting seat 41, a receiver mounting rod 49 is fixedly mounted in the signal hydraulic slider 39, the receiver mounting rod 49 extends upwards out of the signal hydraulic slider 39, a signal receiver 34 is fixedly mounted on an upper end face of the receiver mounting rod 49, a signal transmission core 48 is fixedly disposed in the receiver mounting rod 49, the signal transmission core 48 is in contact with the signal receiver 34, a signal access line 22 is disposed between the signal transmission core 48 and the signal processor 23, the signal access line 22 passes through the wind-proof signal hydraulic cavity 25, four groups of signal expansion plate mounting blocks 47 uniformly distributed and fixedly mounted on an upper end face of the signal hydraulic slider 39, the signal expansion plate mounting block 47 is fixedly provided with a signal expansion plate mounting shaft 46, the signal expansion plate mounting shaft 46 is rotatably provided with a signal expansion plate 43, a descending guide groove 45 is arranged in the signal expansion plate 43, a descending guide pillar 44 is slidably arranged in the descending guide groove 45, a windproof hinge rod 42 is hinged between the descending guide pillar 44 and the windproof rotating shaft 63, and the signal receiving device realizes the function of signal acquisition and reception.
The applicant will now specifically describe a 5G base station of the present application with reference to figures 1 to 5 and the above description:
in an initial state, the power oil suction cavity 38, the solar control hydraulic cavity 32, the windproof signal hydraulic cavity 25, the first transmission hydraulic cavity 61, the second transmission hydraulic cavity 55 and the solar hydraulic control cavity 59 are all filled with oil, the signal hydraulic slider 39 is positioned at the top under the action of the windproof pre-tightening spring 26, the switch control block 51 is in contact with the free switch 53, and the power generation panel mounting plate 29 is in a flat state;
in normal operation, the switch control block 51 contacts the free switch 53, and the free switch 53 enables the shading motor 10 to be in a free state: in rainy and snowy weather, the shielding motor 10 is started to drive the shielding threaded rotating shaft 13 to rotate forwards, the shielding threaded rotating shaft 13 is controlled to extend the shielding plate 14 rightwards to shield the cavity 12, the signal receiver 34 shields the rainy and snowy weather, the shielding motor 10 is started to drive the shielding threaded rotating shaft 13 to rotate reversely when the weather is clear, the shielding threaded rotating shaft 13 is controlled to retract the shielding plate 14 leftwards to shield the cavity 12, and the signal receiving capability of the signal receiver 34 is better.
When strong wind blows, the fan blade 16 rotates to drive the fan rotating shaft 18 to rotate, the fan rotating shaft 18 drives the power block 19 to rotate, the power block 19 rotates, the centrifugal hydraulic slide block 37 moves outwards under the action of centrifugal force, the pressure in the power oil suction cavity 38 is reduced, when the wind is increased, the suction force of the power oil suction cavity 38 to the first transmission hydraulic cavity 61 is larger than the acting force of the windproof pre-tightening spring 26 to the signal hydraulic slide block 39, the power oil suction cavity 38 sucks oil to the first transmission hydraulic cavity 61, and the first transmission hydraulic rod 60 moves leftwards;
the first transmission hydraulic rod 60 drives the transmission connecting block 54 to move leftward, the transmission connecting block 54 drives the switch control block 51, the second transmission hydraulic rod 56 and the solar transmission connecting block 57 to move leftward, the switch control block 51 is separated from contact with the free switch 53, at this time, the shielding motor 10 does not rotate, the solar transmission connecting block 57 drives the solar hydraulic control slider 58 to move leftward, the solar hydraulic control cavity 59 sucks oil into the solar control hydraulic cavity 32 through the solar control oil pipeline 27, the solar control hydraulic rod 31 moves in the box, the solar control hydraulic rod 31 drives the power generation panel mounting plate 29 to rotate, and the power generation panel mounting plate 29 gradually retracts into the power generation panel receiving cavity 30;
the second transmission hydraulic rod 56 moves leftwards, so that the second transmission hydraulic cavity 55 sucks oil into the windproof signal hydraulic cavity 25, the signal hydraulic slide block 39 moves downwards, the signal hydraulic slide block 39 drives the signal expansion plate mounting block 47, the signal transmission core 48 and the receiver mounting rod 49 to move downwards, the receiver mounting rod 49 drives the signal receiver 34 to move downwards, the signal expansion plate mounting block 47 drives the signal expansion plate 43 to rotate around the windproof rotating shaft 63 through the signal expansion plate mounting shaft 46, the signal expansion plate 43 rotates vertically and then slides downwards through the windproof hinge rod 42, the descending guide post 44 and the descending guide groove 45, and the signal expansion plate 43 retracts into four groups of windproof fixing blocks 40;
when the wind continues to increase and the transmission connecting block 54 continues to move leftwards so that the switch control block 51 contacts with the retraction switch 50, the retraction switch 50 controls the shielding motor 10 to rotate reversely so that the shielding plate 14 is retracted into the shielding cavity 12.
After the wind stops, the windproof pre-tightening spring 26 enables the signal hydraulic slide block 39 to move upwards to the highest point, at the moment, the windproof signal hydraulic cavity 25 sucks oil liquid into the second transmission hydraulic cavity 55, the transmission connecting block 54 moves rightwards, and the device returns to the initial state.
The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.