CN112141279A

CN112141279A - Water surface semi-submersible 5G communication base station

Info

Publication number: CN112141279A
Application number: CN202011079503.4A
Authority: CN
Inventors: 王盛
Original assignee: Individual
Current assignee: Guangxi Deming Communication Co ltd
Priority date: 2020-10-10
Filing date: 2020-10-10
Publication date: 2020-12-29
Anticipated expiration: 2040-10-10
Also published as: CN112141279B

Abstract

The invention belongs to the technical field of 5G communication, and particularly relates to a water surface semi-submersible 5G communication base station. The antenna comprises a signal rod, a 5G antenna and one or more groups of protection components, wherein the 5G antenna is arranged on the signal rod; the protection assembly comprises a connecting frame fixedly arranged on the signal rod and a protection ring rotatably connected to the periphery of the connecting frame; the 5G antenna is arranged in the connecting frame; the protective ring comprises a plurality of guide vanes which are uniformly arranged along the circumferential direction; a plurality of rotating rods are uniformly arranged between two adjacent guide vanes; the rotating direction of the rotating rod is the same as that of the protective ring; the distance between the rotating rod close to the tail end of the water flow when the guide vane is windy and the side wall of the guide vane is reduced from inside to outside. The invention can lead the protective ring to rotate without providing extra power and to be driven by wind power; the guard ring can block the floater through guide vane and dwang around the signal pole rotation, thereby great floater can also be transmitted to near guide vane department through the dwang and blows off the floater through the rivers acceleration rate.

Description

Water surface semi-submersible 5G communication base station

Technical Field

The invention belongs to the technical field of 5G communication, and particularly relates to a water surface semi-submersible 5G communication base station.

Background

The 5G base station is a public mobile communication base station exclusively providing 5G network services. The construction of 5G base stations is also becoming more and more widespread, and an antenna is an important component for transmitting signals from a base station, and can receive signals sent by a mobile phone and send the signals to other base stations or mobile phones to realize signal transmission.

Chinese utility model patent No. CN 210063303a discloses a remote wireless communication buoy, which is provided with a first support frame and a second support frame along the circumferential direction at the periphery of the buoy body to keep the whole buoy stable. The scheme ensures that the main body keeps balanced, and the balance purpose of the main body is realized through the gravity of the first support frame and the second support frame; the scheme can not prevent interference caused by floating objects on the water surface and the like, and the floating objects can influence the stability of the floating objects under accumulation, so that the situations of overturning and the like can be caused.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defect that the accumulation of floaters cannot be effectively avoided in the prior art to influence the stability of the base station, the water surface semi-submersible type 5G communication base station is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: the antenna system comprises a submerged buoy, an installation platform fixedly connected to the upper end of the submerged buoy, a plurality of anchor chains for fixing the submerged buoy and a 5G array antenna installed at the upper end of the installation platform; the method is characterized in that:

the periphery of the mounting platform is rotatably connected with a protection component; the protection assembly comprises a protection ring which is rotatably connected to the periphery of the connecting frame; the protective ring comprises a plurality of guide vanes which are uniformly arranged along the circumferential direction; a plurality of rotating rods are uniformly arranged between two adjacent guide vanes; the upper end of the protection ring is higher than the water surface, and the lower end of the protection ring is positioned below the water surface; the proportion of the position, below the water surface, of the protective ring to the height of the protective ring is 0.4-0.8;

the protective ring rotates in the same direction in different water flow directions through the guide vanes, and the tail ends of water flows generated when the water flows push the guide vanes are positioned at one ends of the outer sides of the guide vanes; the rotating direction of the rotating rod is the same as that of the protective ring; the distance between the rotating rod close to the tail end of the water flow when the guide vane is pushed by the water flow and the side wall of the guide vane is reduced from inside to outside.

As a preferable scheme: the distance from the outermost end of the guide vane to the rotation center is not greater than the distance from the outer side of the rotating rod to the rotation center.

As a preferable scheme: each rotating rod is fixedly connected with a gear at the upper end of the protection ring; the mounting platform is fixedly connected with an outer gear ring which is in meshed transmission connection with the gear corresponding to the gear.

As a preferable scheme: the 5G array antenna is cylindrical; the upper end of the protective ring is provided with a brush rod; the upper end of the brush rod is fixedly connected with a wiping rod used for wiping the 5G array antenna; and a wiper is arranged on the outer surface of the wiping rod facing the 5G array antenna.

As a preferable scheme: the lower end of the center of the mounting platform is rotatably connected with a reverse impeller; the reverse rotation impeller rotates under the action of water flow, and the rotation direction of the reverse rotation impeller is opposite to that of the protective ring.

As a preferable scheme: the upper ends of the blades of the counter-rotating impeller are inclined toward the rotating direction of the counter-rotating impeller.

Compared with the prior art, the invention has the beneficial effects that: when the guide vane is acted by water flow, the protective ring and the rotating rod synchronously rotate, and at the moment, when a floating object drifts to the protective ring, the floating object is blocked by the rotating rod and the guide vane; when the floating object is attached to the rotating rod, the rotating direction of the rotating rod is consistent with that of the protective ring, and the floating object is separated from the rotating rod under the action force in the direction opposite to that of the protective ring by the rotation of the rotating rod; when the floater is great and attach on the dwang, like the plastic bag etc. rotate through the dwang and make the plastic bag move toward the terminal direction of guide vane rivers along the outside of each dwang, when this floater removes to guide vane's rivers end, because the velocity of flow when this department of rivers increase to blow this floater off the dwang. Through the mutual combination between dwang and the guide vane, can prevent effectively that the floater from causing the winding and influencing mounting platform's stability to pillar or cable of mounting platform below under the effect of rivers for 5G array antenna can keep comparatively stable user state.

According to the invention, the protection ring is arranged, the rotation is generated under the action of water flow, and the gyro force generated during the rotation can keep the mounting platform at the original position to a certain extent, so that the impact of the water flow on the mounting platform is reduced, and the protection ring is used for assisting in stabilizing the position of the mounting platform.

Set up through the dwang interval, make under the circumstances of guaranteeing the dwang interval protect the circle to rotate to make and block more effectively to guarantee omnidirectional guard action, the space department of original two dwangs can be passed by the floater promptly, and has the floater to drift and be accompanied rivers when coming, protects the circle this moment and rotates, thereby effectively reduces the floater and gets into in protecting the circle and produce the winding to mounting platform through the clearance.

By using the invention, the guard ring can be driven by water flow without providing extra power to rotate; the guard ring can stop the floater through guide vane and dwang around mounting platform rotation, can also make between floater and the dwang peel off at dwang pivoted in-process under the effect of dwang rotation, and further, great floater can also be transmitted to near guide vane department through the dwang and thereby dash the floater from the guard ring through the rivers acceleration rate.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic exploded view of the present invention.

Fig. 4 is a schematic structural view of the mounting platform.

Fig. 5 is a schematic structural view of the guard ring.

Fig. 6 is a schematic view of the structure of a counter-rotating impeller.

Fig. 7 is a schematic sectional structure view of the guard ring.

Fig. 8 is a schematic view of the construction of the brush bar.

1. Mounting a platform; 11. a water leakage hole; 2. submerging the buoy; 3. a guard assembly; 214. a retainer ring; 31. a guard ring; 311. a guide vane; 312. rotating the rod; 313. a pressurizing port; 314. a gear; 32. an outer ring gear; 4. an anchor chain; 5. a 5G array antenna; 6. a counter-rotating impeller; 7. a brush bar; 71. a wiping lever; 72. a wipe; 73. and a retainer ring.

Detailed Description

Example 1

Referring to fig. 1 to 8, a water surface semi-submersible 5G communication base station comprises a submerged buoy 2, a mounting platform 1 fixedly connected to the upper end of the submerged buoy, a plurality of anchor chains 4 for fixing the submerged buoy, and a 5G array antenna 5 mounted on the upper end of the mounting platform; the 5G array antenna is connected with a submarine cable through a cable or is powered through solar energy and the like.

The periphery of the mounting platform is rotatably connected with a protection component 3; the protection assembly comprises a protection ring 31 which is rotatably connected to the periphery of the connecting frame; the guard ring comprises a plurality of guide vanes 311 uniformly arranged along the circumferential direction; a plurality of rotating rods 312 are uniformly arranged between two adjacent guide vanes; the upper end of the protection ring is higher than the water surface, and the lower end of the protection ring is positioned below the water surface; the proportion of the position, below the water surface, of the protective ring to the height of the protective ring is 0.4-0.8; the dwang with guide vane all sets up vertically. Because the surface of water floater has the majority to be located the surface of water top, the part is located the surface of water top and the majority is located the multiple form of surface of water below, consequently through with the upper and lower end of guard circle sets up respectively in the surface of water below to can effectively block the floater of surface of water.

The protective ring rotates in the same direction in different water flow directions through the guide vanes, and the tail ends of water flows generated when the water flows push the guide vanes are positioned at one ends of the outer sides of the guide vanes; the rotating direction of the rotating rod is the rotating direction at the periphery and faces the tail end of the water flow when the guide vane is pushed by the water flow, namely the rotating direction of the rotating rod is the same as the rotating direction of the protective ring; a pressurizing opening 313 is formed between the rotating rod close to the tail end of the water flow when the guide vane is pushed by the water flow and the side wall of the guide vane; the distance between the two side walls of the pressurizing opening is reduced from inside to outside, so that the flow speed is increased when water flows through the pressurizing opening. The form of the protection ring rotating through the guide vanes is the same as the principle of a vertical wind driven generator.

When the guide vane is acted by water flow, the protective ring and the rotating rod synchronously rotate, and at the moment, when a floating object drifts to the protective ring, the floating object is blocked by the rotating rod and the guide vane; when the floating object is attached to the rotating rod, the rotating direction of the rotating rod is consistent with that of the protective ring, and the floating object is separated from the rotating rod under the action force in the direction opposite to that of the protective ring by the rotation of the rotating rod; when the floater is great and attach on the dwang, like the plastic bag etc. rotate through the dwang and make the plastic bag move toward the terminal direction of guide vane rivers along the outside of each dwang, when this floater removes to guide vane's rivers end, because the velocity of flow when this department of rivers increase to blow this floater off the dwang. Through the mutual combination between dwang and the guide vane, can prevent effectively that the floater from causing the winding and influencing mounting platform's stability to pillar or cable of mounting platform below under the effect of rivers for 5G array antenna can keep comparatively stable user state.

Through setting up the guard ring, rotate under the rivers effect, the top power that produces when it rotates can make mounting platform keep in original position department to a certain extent to reduce rivers and to mounting platform's impact, be used for supplementary stable mounting platform's position.

The protective ring is partially positioned above the water surface, so that both water flow and wind force can act on the guide vanes to enable the protective ring to rotate.

The distance from the outermost end of the guide vane to the rotation center is not greater than the distance from the outer side of the rotating rod to the rotation center, and then floaters and the like attached to the protective ring can smoothly reach the tail end of the water flow corresponding to the guide vane, so that the floaters can be blown away from the rotating rod at one time or gradually.

A gear 314 is fixedly connected to the upper end of each rotating rod positioned on the protection ring; the guard assembly further comprises an outer gear ring 32 fixedly mounted on the mounting platform; the outer gear ring is in meshed transmission connection with the gear. The meshing relation through gear and outer ring gear makes the dwang with the direction of rotation of guard circle is the same, makes two the effect of carrying is realized to dwang between the guide vane, will attach the floater on the dwang and drive and move towards the rivers end that guide vane corresponds removes.

The 5G array antenna is cylindrical; the upper end of the protective ring is provided with a brush rod 7; the upper end of the brush rod is fixedly connected with a wiping rod 71 used for wiping the 5G array antenna; the outer surface of the wiping rod facing the 5G array antenna is provided with a wiping object 72; the wipe may be a rubber-like wiper strip.

Because the surface of water is especially the moisture evaporation capacity on sea is big to can take the surface to 5G array antenna with the steam that has the salinity under the effect of wind, can form the salt deposit and influence the signal after the evaporation under the sun simultaneously, consequently, wipe the formation that can effectively prevent the salt deposit through setting up the brush pole to the surface of 5G array antenna.

The brush rod is fixedly connected with a retainer ring 73 used for shielding the outer gear ring and each gear, and the retainer ring is used for preventing granular objects and the like from causing abrasion to the gear teeth.

And a plurality of water leakage holes 11 are also formed in the mounting platform. The water brought to the mounting platform in rainy days or wave tides leaks into the water through the water leakage holes.

The lower end of the center of the mounting platform is rotatably connected with a reverse impeller 6; the blades of the counter-rotating impeller can be arranged in multiple layers to increase the acting area of the water flow; the reverse rotation impeller rotates under the action of water flow, and the rotation direction of the reverse rotation impeller is opposite to that of the protective ring. The reverse impeller is arranged, so that the torque generated when the reverse impeller rotates offsets or offsets a part of the torque generated when the guard ring rotates, and the mounting platform is prevented from rotating; meanwhile, the reverse rotation impeller can generate gyroscopic force when rotating, and can further play a role in stabilizing the mounting platform.

Further, the torque of the counter-rotating impeller rotating along with the water flow can be adjusted through the radius and the length of the counter-rotating impeller.

Furthermore, the upper ends of the blades of the counter-rotating impeller are inclined towards the rotating direction of the counter-rotating impeller, so that when the counter-rotating impeller rotates, a part of water flow is guided downwards, and therefore a reverse lifting force is generated, the anchor chain is further tensioned and used for stabilizing the position of the mounting platform, and the possibility of overturning of the whole body is reduced.

The installation process of the present invention is similar to that of a semi-submersible well. By using the invention, the guard ring can be driven by water flow without providing extra power to rotate; the guard ring can stop the floater through guide vane and dwang around mounting platform rotation, can also make between floater and the dwang peel off at dwang pivoted in-process under the effect of dwang rotation, and further, great floater can also be transmitted to near guide vane department through the dwang and thereby dash the floater from the guard ring through the rivers acceleration rate.

Claims

1. A water surface semi-submersible type 5G communication base station comprises a submerged buoy, an installation platform fixedly connected to the upper end of the submerged buoy, a plurality of anchor chains used for fixing the submerged buoy and a 5G array antenna installed at the upper end of the installation platform; the method is characterized in that:

2. The surface semi-submersible 5G communication base station of claim 1, wherein: the distance from the outermost end of the guide vane to the rotation center is not greater than the distance from the outer side of the rotating rod to the rotation center.

3. The surface semi-submersible 5G communication base station of claim 1, wherein: each rotating rod is fixedly connected with a gear at the upper end of the protection ring; the mounting platform is fixedly connected with an outer gear ring which is in meshed transmission connection with the gear corresponding to the gear.

4. The surface semi-submersible 5G communication base station of claim 1, wherein: the 5G array antenna is cylindrical; the upper end of the protective ring is provided with a brush rod; the upper end of the brush rod is fixedly connected with a wiping rod used for wiping the 5G array antenna; and a wiper is arranged on the outer surface of the wiping rod facing the 5G array antenna.

5. The surface semi-submersible 5G communication base station of claim 1, wherein: the lower end of the center of the mounting platform is rotatably connected with a reverse impeller; the reverse rotation impeller rotates under the action of water flow, and the rotation direction of the reverse rotation impeller is opposite to that of the protective ring.

6. The surface semi-submersible 5G communication base station of claim 5, wherein: the upper ends of the blades of the counter-rotating impeller are inclined toward the rotating direction of the counter-rotating impeller.