CN113207195A

CN113207195A - 5G communication float base station

Info

Publication number: CN113207195A
Application number: CN202110498938.0A
Authority: CN
Inventors: 周丛芬
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-08
Filing date: 2021-05-08
Publication date: 2021-08-03

Abstract

The invention discloses a 5G communication floater base station which comprises a floating seat, wherein the top of the floating seat is fixedly connected with a signal rod, the outer side of the signal rod is sleeved with a rotation control device, the outer side of the rotation control device is connected with a rotating rod capable of rotating around the rotating rod in a sliding mode, the outer side of the rotating rod is provided with an outer sleeve and a rotating wheel, the outer sleeve is spherical, and the front side and the back side of the upper right side of the outer sleeve are respectively provided with a solar panel. 5G communication float basic station, take place the skew when the sun, in some sunshine jets into the overcoat through the toughened glass department in the lower left corner of overcoat, see through convex lens again and collect and shine on the gasbag of corresponding position, hydrogen in the gasbag is heated the inflation and is propped big the gasbag volume, so rotate the wheel and begin to deflect, the dwang passes through rotation control device and drives the overcoat rotation, until the sunlight no longer shines transparent toughened glass department, so guaranteed that solar panel is in the direct solar radiation state all the time, the solar utilization ratio has been improved, solar panel's laying area has been reduced, also provide sufficient electric energy for the basic station.

Description

5G communication float base station

Technical Field

The invention relates to the technical field of overwater base stations, in particular to a 5G communication floater base station.

Background

With the popularization of intelligent devices and electronic products, the internet becomes an indispensable part of people's daily life, and the internet uses the support of network communication base stations, and network communication has entered the 5G era through long-term development.

In order to guarantee that the whole people have a network, the overwater base stations are arranged in shallow sea areas and used by people in small islands or ships, the overwater base stations can be constructed according to different sizes and models of regional network density, the small base stations cannot be provided with large power supply facilities due to the cost problem, power can be supplied only through the solar panels, and the solar panels cannot always fully utilize solar energy just over the sun due to rising west and west falling of the sun, so that the 5G communication floater base station power supply equipment is provided.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a 5G communication floater base station which has the functions of fully utilizing solar energy and reducing the laying area of a solar panel.

The invention adopts the following technical scheme for realizing the technical purpose: the utility model provides a G communication float basic station, is including floating the seat, the top fixedly connected with signal pole that floats the seat, rotation control device has been cup jointed in the outside of signal pole, rotation control device's outside sliding connection has can be around self pivoted dwang, and the overcoat is installed and rotates the wheel in the outside of dwang, the overcoat is spherical, and the front and the back of upper right side are solar panel, and the front transparent toughened glass of left side below is dull polish board for the back, and when the sun skew, in sunshine accessible transparent toughened glass part intakes the overcoat.

Rotate the wheel and be located inside the overcoat, the inboard of overcoat just is located the outside of rotating the wheel and installs the cooling jacket, the inside of rotating the wheel begins to have the annular, the inside fixedly connected with gasbag of annular, the light trap has been seted up on the surface of rotating the wheel, the internally mounted of light trap has convex lens.

As optimization, the bottom that floats the seat is toper, and the spout that corresponds with the overcoat is seted up at the top that floats the seat, the overcoat rotates with the dwang to be connected, rotate wheel and dwang fixed connection, the main part that rotates wheel and overcoat is direct contact not, and coefficient of friction is little between the two, the cooling jacket is located the top rear side that rotates the wheel, and the cooling jacket parcel is in rotating the wheel outside, and filling paraffin in the cooling jacket, when the gasbag rotated to corresponding the setting, the heat in the gasbag of quick absorption melts, so the gasbag rotated cooling jacket department, and the volume reduces fast, can keep rotating wheel pivoted smoothness.

As the optimization, the annular intussuseption is filled with unsaturated solution, and the annular is for being annotated completely, reserves the inflation space for the gasbag, the gasbag passes through stay cord and annular inner wall connection, and the inside packing of gasbag has hydrogen, and when the temperature rose, hydrogen can expand fast and prop the gasbag big, leaves the inflation space between gasbag and the annular, light trap and convex lens all become "U" shape, and the parcel encircles at front, side, the back of rotating the wheel, and the position corresponds with the gasbag, makes illumination angle grow, and the toughened glass department at the lower left corner of sunlight accessible overcoat sees through convex lens and shines on the gasbag that corresponds the position, the outside of rotating the wheel is provided with stirs the tooth.

As the optimization, the rotation spout has been seted up in the rotation control device's the outside, the control sleeve has been placed to the inside of rotating the spout, oil storage cavity and flexible chamber have been seted up to the inside of control sleeve, the inside swing joint in flexible chamber has the catch bar, the closing plate is connected to catch bar one end, and the gag lever post is connected to the other end, backflow hole and oil filler point have been seted up between oil storage cavity and the flexible chamber, the sealing plug is installed to the top of backflow hole, fixedly connected with connects the rope between sealing plug and the closing plate, set up in the middle of the oil filler point and have the power oil pocket.

Preferably, the rotary sliding groove is annular, the inner ring wall and the outer ring wall are both provided with teeth which are densely arranged, the control sleeve and the push rod are both arc-shaped, the inner wall of the oil storage cavity is provided with an elastic rubber sleeve, when oil on the inner wall is reduced or increased, the elastic rubber sleeve expands along with expansion, the volume of the oil storage cavity is larger than that of the expansion cavity, an opening above the backflow hole and the sealing plug are both tapered, and the material density of the sealing plug is smaller than that of the oil.

As optimization, the sealing plate is located flexible intracavity, the gag lever post is located and rotates the spout, and the gag lever post has two, all rotates with the catch bar to be connected, and gag lever post one side and catch bar laminating, the gag lever post extends to in the tooth.

As optimization, the internally mounted of power oil pocket has two intermeshing power wheels, the place ahead the right side fixedly connected with connecting rod of power wheel, the connecting rod is connected with the dwang, and the connecting rod extends to the control cover outside from the power oil pocket, the dwang inserts in the rotation spout.

As optimization, the ball that extends to in the spout is installed to the bottom of overcoat, the inboard of overcoat and the top that is located the ball have seted up the mounting groove, the inner wall of mounting groove rotates and is connected with the kelly.

As optimization, the surface of the ball and the bottom of the clamping rod are provided with concave-convex stripes which are mutually clamped, the clamping rod extends into the poking teeth, and the mounting groove is provided with a space for the clamping rod to deflect.

The invention has the following beneficial effects:

1. this 5G communication float basic station, take place the skew when the sun, in the toughened glass department that partial sunshine passes through the lower left corner of overcoat jets into the overcoat, see through convex lens again and collect and shine on the gasbag of corresponding position, hydrogen in the gasbag is heated the inflation and is propped big the gasbag volume, so rotate the wheel and begin to deflect, the dwang passes through rotation control device and drives the overcoat rotation, until the sunlight no longer shines transparent toughened glass department, so guaranteed that solar panel is in the direct solar radiation state all the time, the solar utilization ratio has been improved, solar panel's laying area has been reduced, sufficient electric energy has also been provided for the basic station.

2. This 5G communication float basic station can make the overcoat rotate around self all the time through rotating control device, if the solar energy panel of falling mountain is partial to the west, rises from the east once more as the sun, and the gasbag is shone from the rear to the sunlight, and the rotating wheel rotates, takes the device deflection, so need not to reset, has guaranteed the continuity of device operation.

3. According to the 5G communication floater base station, oil is pumped to the telescopic cavity from the oil storage cavity through the power wheel, so that the oil passes through the power oil cavity and the oil injection hole, the oil is far away from the oil through hydraulic pressure, and the P is S1F1 and S2F2, the sectional area of the power oil cavity is far smaller than that of the telescopic cavity, so that the power of the rotating wheel is amplified, and the power of the rotating wheel is prevented from being insufficient.

4. This 5G communication float basic station, when overcoat and rotation wheel normally deflect, catch bar promotion control cover rotates, it dials the kelly through stirring the tooth to rotate the wheel, the kelly deflects and leaves the ball, the normal auxiliary device of ball rotates, when wind blows to the back from preceding again, because the dwang does not rotate, flexible intracavity fluid does not change, the catch bar is also restricted by the gag lever post, so control cover and dwang can't deflect, when wind blows to the front from the back, because the dwang does not rotate, kelly and ball contact, it is fixed with the ball through concave and convex stripe, the overcoat can't deflect, so play the effect of preventing wind.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the point A in FIG. 1;

FIG. 3 is a top view of the structural rotation control device of the present invention;

FIG. 4 is an enlarged view of the point B in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the interior of a structural power oil chamber of the present invention;

FIG. 6 is a side view of a rotating wheel of the present invention;

FIG. 7 is a side cross-sectional view of a structural jacket of the present invention;

FIG. 8 is an enlarged view of the invention at point C of the block diagram of FIG. 7;

FIG. 9 is an enlarged view of the invention at D in FIG. 8.

In the figure: 1. a floating seat; 2. a signal lever; 3. a rotation control device; 31. rotating the chute; 32. a control sleeve; 33. an oil storage cavity; 34. a telescoping chamber; 35. a push rod; 36. a limiting rod; 37. a return orifice; 38. a sealing plug; 39. connecting ropes; 310. an oil filler hole; 311. a power oil chamber; 4. rotating the rod; 41. a connecting rod; 42. a power wheel; 5. a jacket; 51. a ball bearing; 52. mounting grooves; 53. a clamping rod; 6. a rotating wheel; 61. a ring groove; 62. an air bag; 63. a light-transmitting hole; 64. a convex lens; 7. and (4) cooling the jacket.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Please refer to fig. 1 and 6-7, a 5G communication float base station, including floating seat 1, the top fixed connection of floating seat 1 is signal pole 2 again, rotation control device 3 has been cup jointed in the outside of signal pole 2, rotation control device 3's outside sliding connection has can be around self pivoted dwang 4, overcoat 5 and rotation wheel 6 are installed to the outside of dwang 4, overcoat 5 is spherical, and the front and the back of upper right side are solar panel, the front transparent toughened glass of left side below, the back is the dull polish board, when the sun squints, sunshine accessible transparent toughened glass part jets into in overcoat 5.

The rotating wheel 6 is positioned in the outer sleeve 5, the cooling sleeve 7 is arranged on the inner side of the outer sleeve 5 and on the outer side of the rotating wheel 6, the annular groove 61 is formed in the rotating wheel 6, the air bag 62 is fixedly connected to the inner portion of the annular groove 61, the light transmitting holes 63 are formed in the surface of the rotating wheel 6, and the convex lenses 64 are arranged in the light transmitting holes 63.

The bottom that floats seat 1 is conical, the spout that corresponds with overcoat 5 is seted up at the top that floats seat 1, overcoat 5 rotates with dwang 4 and is connected, rotate

wheel

6 and 4 fixed connection of dwang, the main part direct contact not of rotation wheel 6 and overcoat 5, and coefficient of friction is little between the two, cooling jacket 7 is located the top rear side of rotating wheel 6, cooling jacket 7 parcel is in the rotation wheel 6 outside, pack paraffin in the cooling jacket 7, gasbag 62 rotates when corresponding the setting, the heat in the quick absorption gasbag 62 of paraffin melts, so gasbag 62 rotates to cooling jacket 7 department, the volume reduces fast, can keep rotating wheel 6 pivoted smoothness.

The annular groove 61 intussuseption is filled with unsaturated sodium chloride solution, unsaturated sodium chloride solution physical and chemical properties is all very stable, can increase the density ratio of hydrogen and solution, it rotates to rotate the wheel 6 with higher speed, and annular groove 61 is for being annotated fully, reserve the inflation space for gasbag 62, gasbag 62 passes through stay cord and annular groove 61 inner wall connection, the inside packing of gasbag 62 has hydrogen, when the temperature risees, hydrogen can expand fast and prop gasbag 62 big, leave the inflation space between gasbag 62 and the annular groove 61, light trap 63 and convex lens 64 all become "U" shape, the parcel encircles the front at the rotation wheel 6, a side, the back, and the position corresponds with gasbag 62, make illumination angle grow, the toughened glass department of the lower left corner of sunlight accessible overcoat 5 sees through convex lens 64 shine on the gasbag 62 of corresponding position, the outside of rotating wheel 6 is provided with and dials the tooth.

Sunlight irradiates on a solar panel on the outer sleeve 5, the solar panel generates electricity for the signal rod 2 to use, when the sun deviates, partial sunlight is emitted into the outer sleeve 5 through the toughened glass at the lower left corner of the outer sleeve 5, and then is collected and irradiated on the air bag 62 at the corresponding position through the convex lens 64, the volume of the air bag 62 is expanded by heating the hydrogen in the air bag 62, the solution at the position is extruded by the expansion of the air bag 62, so that the volume ratio of the hydrogen to the solution at the position is larger than that at other positions, the position is the lightest position of the rotating wheel 6, the rotating wheel 6 starts to deflect, the position rotates to the topmost part of the rotating wheel 6, the rotating wheel 6 drives the rotating rod 4 to rotate in the process, the rotating rod 4 drives the outer sleeve 5 to rotate through the rotation control device 3, the heat in the air bag 62 is absorbed by paraffin in the cooling sleeve 7 after reaching the topmost part, and the air bag 62 at the next position absorbs heat and expands to move upwards, so repeatedly, no longer shine transparent toughened glass department until the sunlight, so guaranteed that solar panel is in the direct solar radiation state all the time, improved the solar utilization ratio, reduced solar panel's the area of laying, also provided sufficient electric energy for the basic station.

Example 2

Referring to fig. 1-5, a 5G communication float base station comprises a float seat 1, wherein the top of the float seat 1 is fixedly connected with a signal rod 2, the outside of the signal rod 2 is sleeved with a rotation control device 3, the outside of the rotation control device 3 is slidably connected with a rotating rod 4 capable of rotating around itself, the outside of the rotating rod 4 is provided with a jacket 5 and a rotating wheel 6, the jacket 5 is spherical, the front and the back of the upper right side are both a solar panel, the front of the lower left side is made of transparent toughened glass, and the back of the lower left side is made of a frosted plate.

Rotation spout 31 has been seted up in rotation control device 3's the outside, control sleeve 32 has been placed to the inside of rotation spout 31, oil storage chamber 33 and flexible chamber 34 have been seted up to the inside of control sleeve 32, the inside swing joint in flexible chamber 34 has catch bar 35, the closing plate is connected to catch bar 35 one end, gag lever post 36 is connected to the other end, return port 37 and oil filler point 310 have been seted up between oil storage chamber 33 and the flexible chamber 34, sealing plug 38 is installed to the top of return port 37, fixedly connected with connects rope 39 between sealing plug 38 and the closing plate, seted up in the middle of the oil filler point 310 has power oil chamber 311.

The rotary sliding groove 31 is annular, the inner ring wall and the outer ring wall are both provided with teeth which are densely arranged, the control sleeve 32 and the push rod 35 are both arc-shaped, the inner wall of the oil storage cavity 33 is provided with an elastic rubber sleeve, when oil on the inner wall is reduced or increased, the elastic rubber sleeve expands along with expansion, the volume of the oil storage cavity 33 is larger than that of the expansion cavity 34, an opening above the return hole 37 and the sealing plug 38 are both conical, and the material density of the sealing plug 38 is smaller than that of the oil.

The sealing plate is located flexible chamber 34, and gag lever post 36 is located and rotates spout 31, and gag lever post 36 has two, all rotates with catch bar 35 to be connected, 36 one sides of gag lever post and catch bar 35 laminating, so gag lever post 36 can only rotate to the direction of keeping away from catch bar 35, and gag lever post 36 extends to in the tooth.

Two power wheels 42 which are meshed with each other are installed inside the power oil cavity 311, a connecting rod 41 is fixedly connected to the right side of the front power wheel 42, the connecting rod 41 is connected with the rotating rod 4, the connecting rod 41 extends to the outer side of the control sleeve 32 from the power oil cavity 311, and the rotating rod 4 is inserted into the rotating chute 31.

When the rotating wheel 6 drives the rotating rod 4 to rotate, the rotating rod 4 provides the connecting rod 41 to drive the power wheel 42 to rotate, the two meshed power wheels 42 rotate to pump oil in the oil storage cavity 33 to the telescopic cavity 34 through the oil injection hole 310, at the moment, due to pressure, the sealing plug 38 is tightly attached to the return hole 37, the oil in the telescopic cavity 34 is increased to push the push rod 35 out, and the push rod 35 cannot rotate towards the push rod 35 because the limiting rod 36 cannot rotate towards the push rod 35, so the push rod 35 is clamped by the limiting rod 36 and the teeth to be incapable of moving, the control sleeve 32 moves at the moment, the push rod 35 starts to be far away from, so the push rod 35 drives the rotating rod 4 to rotate around the rotation control device 3, the rotating rod 4 drives the outer sleeve 5 to rotate, and the solar panel just faces the sun.

When the push rod 35 completely extends out of the telescopic cavity 34, the sealing plug 38 is pulled out of the return hole 37 by the sealing plate through the connecting rope 39, so that the elastic rubber sleeve which is contracted due to the fact that oil is pumped out in the oil storage cavity 33 begins to relax, oil in the telescopic cavity 34 is pumped back, the push rod 35 also slowly returns to the telescopic cavity 34 in the process, the sealing plug 38 always floats in the oil until the oil is emptied, the sealing plug 38 falls back to the return hole 37, the push rod 35 drags the limiting rod 36 to be close to the control sleeve 32, the rotating rod 4 continuously rotates, and the push rod 35 can push the control sleeve 32 to move again.

So can make overcoat 5 rotate around self all the time through rotating control device 3, if the solar mountain-falling solar panel is partial to the west, rises from the east again as the sun, and the sunlight shines gasbag 62 from the rear, rotates wheel 6 and rotates, takes the device to deflect, so need not to reset, has guaranteed the continuity of device operation.

Example 3

Referring to fig. 4-5, a power oil chamber 311 is formed in the middle of the oil injection hole 310, two power wheels 42 engaged with each other are installed inside the power oil chamber 311, a connecting rod 41 is fixedly connected to the right side of the front power wheel 42, the connecting rod 41 is connected to the rotating rod 4, the connecting rod 41 extends from the inside of the power oil chamber 311 to the outside of the control sleeve 32, and the rotating rod 4 is inserted into the rotating chute 31.

The oil is pumped from the oil storage chamber 33 to the telescopic chamber 34 through the power wheel 42, the oil passes through the power oil chamber 311 and the oil filling hole 310, the hydraulic pressure is far away from the P-S1F 1-S2F 2, and the sectional area of the power oil chamber 311 is far smaller than that of the telescopic chamber 34, so that the power of the rotating wheel 6 is amplified, and the power shortage of the rotating wheel 6 is prevented.

Example 4

Referring to fig. 3-9, a rotating chute 31 is formed in the outer side of the rotation control device 3, a control sleeve 32 is placed inside the rotating chute 31, an oil storage cavity 33 and a telescopic cavity 34 are formed in the control sleeve 32, a push rod 35 is movably connected inside the telescopic cavity 34, one end of the push rod 35 is connected with a sealing plate, the other end of the push rod 35 is connected with a limiting rod 36, a return hole 37 and an oil filling hole 310 are formed between the oil storage cavity 33 and the telescopic cavity 34, a sealing plug 38 is installed above the return hole 37, a connecting rope 39 is fixedly connected between the sealing plug 38 and the sealing plate, and a power oil cavity 311 is formed in the middle of the oil filling hole 310.

The sealing plate is located flexible chamber 34, and gag lever post 36 is located and rotates spout 31, and gag lever post 36 has two, all rotates with catch bar 35 to be connected, 36 one sides of gag lever post and catch bar 35 laminating, and gag lever post 36 extends to in the tooth.

The ball 51 that extends to in the spout is installed to the bottom of overcoat 5, and the inboard of overcoat 5 and the top that is located ball 51 have seted up mounting groove 52, and the inner wall of mounting groove 52 rotates and is connected with kelly 53.

The surface of ball 51 and the bottom of kelly 53 all set up the concave-convex stripe of mutual card and, kelly 53 extends to and dials in the tooth, and mounting groove 52 is provided with the space that can supply kelly 53 to deflect.

When overcoat 5 normally deflects with the rotation wheel 6, catch bar 35 promotion control cover 32 rotates, it dials rotation kelly 53 through stirring the tooth to rotate wheel 6, kelly 53 deflects and leaves ball 51, ball 51 normally auxiliary device rotates, when wind blows forward backward again, because dwang 4 does not rotate, fluid does not change in flexible chamber 34, catch bar 35 also is restricted by gag lever post 36, so control cover 32 and dwang 4 can't deflect, when wind blows forward from the back, because dwang 4 does not rotate, catch bar 53 contacts with ball 51, it is fixed with ball 51 through the concave-convex stripe, overcoat 5 can't deflect, so play windproof role.

Example 5

Referring to fig. 1-9, a 5G communication float base station includes a floating seat 1, a signal rod 2 is fixedly connected to the top of the floating seat 1, a rotation control device 3 is sleeved on the outer side of the signal rod 2, a rotation rod 4 capable of rotating around itself is slidably connected to the outer side of the rotation control device 3, an outer sleeve 5 and a rotation wheel 6 are installed on the outer side of the rotation rod 4, the outer sleeve 5 is spherical, the front and the back of the upper right side are solar panels, the front transparent tempered glass on the lower left side is a frosted plate, the rotation wheel 6 is located inside the outer sleeve 5, a cooling sleeve 7 is installed on the inner side of the outer sleeve 5 and located on the outer side of the rotation wheel 6, a ring groove 61 starts to be formed inside the rotation wheel 6, an air bag 62 is fixedly connected to the inside of the ring groove 61, a light hole 63 is formed in the surface of the rotation wheel 6, and a convex lens 64 is installed inside the light hole 63.

The bottom of the floating seat 1 is tapered, the top of the floating seat 1 is provided with a sliding groove corresponding to the outer sleeve 5, the outer sleeve 5 is rotatably connected with the rotating rod 4, the rotating wheel 6 is fixedly connected with the rotating rod 4, the main body part of the rotating wheel 6 is not directly contacted with the outer sleeve 5, the friction coefficient between the rotating wheel and the outer sleeve is small, the cooling sleeve 7 is positioned on the rear side of the top of the rotating wheel 6, and the cooling sleeve 7 is wrapped on the outer side of the rotating wheel 6.

The annular groove 61 intussuseption is filled with unsaturated solution, and annular groove 61 is for being annotated completely, gasbag 62 passes through stay cord and annular groove 61 inner wall connection, the inside packing of gasbag 62 has hydrogen, leave the inflation space between gasbag 62 and the annular groove 61, light trap 63 and convex lens 64 all become "U" shape, the parcel encircles at the front that rotates wheel 6, the side, the back, and the position corresponds with gasbag 62, the toughened glass department of the lower left corner of sunlight accessible overcoat 5 sees through convex lens 64 and shines on the gasbag 62 of corresponding position, the outside of rotating wheel 6 is provided with stirs the tooth.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a 5G communication float basic station, includes floating seat (1), the top fixedly connected with signal pole (2) of floating seat (1), its characterized in that: the rotation control device (3) is sleeved on the outer side of the signal rod (2), the outer side of the rotation control device (3) is connected with a rotating rod (4) which can rotate around the rotating rod, an outer sleeve (5) and a rotating wheel (6) are installed on the outer side of the rotating rod (4), the outer sleeve (5) is spherical, the front and the back of the upper right part are both solar panels, the front of the lower left part is transparent toughened glass, the back is a frosted plate, the rotating wheel (6) is positioned in the outer sleeve (5), a cooling sleeve (7) is arranged on the inner side of the outer sleeve (5) and on the outer side of the rotating wheel (6), a ring groove (61) is formed in the rotating wheel (6), an air bag (62) is fixedly connected in the ring groove (61), light holes (63) are formed in the surface of the rotating wheel (6), and convex lenses (64) are mounted inside the light holes (63).

2. The 5G communication float base station according to claim 1, characterized in that: the bottom of floating seat (1) is conical, and the spout that corresponds with overcoat (5) is seted up at the top of floating seat (1), overcoat (5) are rotated with dwang (4) and are connected, rotate wheel (6) and dwang (4) fixed connection, the main part that rotates wheel (6) and overcoat (5) is direct contact not, and coefficient of friction is little between the two, cooling jacket (7) are located the top rear partially of rotating wheel (6), and cooling jacket (7) parcel is in the rotation wheel (6) outside, and the intussuseption paraffin of cooling jacket (7).

3. The 5G communication float base station according to claim 1, characterized in that: the intussuseption of annular (61) is filled with unsaturated solution, and annular (61) is for being annotated completely, gasbag (62) are through stay cord and annular (61) inner wall connection, and the inside packing of gasbag (62) has hydrogen, leaves the inflation space between gasbag (62) and annular (61), light trap (63) and convex lens (64) all become "U" shape, and the parcel encircles in front, side, the back of rotating wheel (6), and the position corresponds with gasbag (62), and the toughened glass department of the lower left corner of sunlight accessible overcoat (5) sees through convex lens (64) and shines on gasbag (62) that correspond the position, the outside of rotating wheel (6) is provided with and dials the tooth.

4. The 5G communication float base station according to claim 1, characterized in that: rotation spout (31) have been seted up in the outside of rotation control device (3), control sleeve (32) have been placed to the inside of rotating spout (31), oil storage chamber (33) and flexible chamber (34) have been seted up to the inside of control sleeve (32), the inside swing joint in flexible chamber (34) has catch bar (35), the closing plate is connected to catch bar (35) one end, and gag lever post (36) are connected to the other end, return port (37) and oil filler point (310) have been seted up between oil storage chamber (33) and flexible chamber (34), sealing plug (38) are installed to the top of sealing plug return port (37), fixedly connected with connects rope (39) between (38) and the closing plate, power oil chamber (311) have been seted up in the middle of oil filler point (310).

5. The 5G communication float base station according to claim 4, wherein: the rotary sliding groove (31) is annular, teeth which are densely arranged are arranged on the inner annular wall and the outer annular wall, the control sleeve (32) and the push rod (35) are both arc-shaped, the elastic rubber sleeve is arranged on the inner wall of the oil storage cavity (33), when oil on the inner wall is reduced or increased, the elastic rubber sleeve expands along with expansion, the volume of the oil storage cavity (33) is larger than that of the expansion cavity (34), the upper opening of the return hole (37) and the sealing plug (38) are both conical, and the material density of the sealing plug (38) is smaller than that of the oil.

6. The 5G communication float base station according to claim 4, wherein: the sealing plate is located flexible chamber (34), gag lever post (36) are located and rotate spout (31), and gag lever post (36) have two, all rotate with catch bar (35) and be connected, and gag lever post (36) one side is laminated with catch bar (35), and gag lever post (36) extend to in the tooth.

7. The 5G communication float base station according to claim 4, wherein: the internally mounted of power oil chamber (311) has two intermeshing power wheel (42), the place ahead the right side fixedly connected with connecting rod (41) of power wheel (42), connecting rod (41) are connected with dwang (4), and connecting rod (41) extend to the control cover (32) outside in power oil chamber (311), dwang (4) insert in rotating spout (31).

8. The 5G communication float base station according to claim 1, characterized in that: ball (51) that extend to in the spout are installed to the bottom of overcoat (5), mounting groove (52) have been seted up to the inboard of overcoat (5) and the top that is located ball (51), the inner wall of mounting groove (52) rotates and is connected with kelly (53).

9. The 5G communication float base station according to claim 8, wherein: the surface of ball (51) and the bottom of kelly (53) all set up the concave-convex stripe of mutual card and, kelly (53) extend to dial in the tooth, mounting groove (52) are provided with the space that can supply kelly (53) to deflect.