CN111641888A

CN111641888A - 5G micro base station

Info

Publication number: CN111641888A
Application number: CN202010518654.9A
Authority: CN
Inventors: 王明程
Original assignee: Harbin Nongcai Technology Co ltd
Current assignee: Harbin Nongcai Technology Co ltd
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2020-09-08

Abstract

The invention relates to a base station, in particular to a 5G micro base station which comprises a cover box, vent holes and a groove box. The cover box is hollow structure, and the right side of cover box is from last to being provided with a plurality of air vents down, and the groove box is cuboid box-like, the vertical sliding connection of groove box in the lower part of cover box. The 5G micro base station further comprises a vertical plate, vertical holes, transverse moving rods, sliding sleeves and stop blocks, wherein the vertical holes are formed in the vertical plate, two sliding sleeves are connected to the vertical holes in a sliding mode, two stop blocks are fixedly connected to the front side of each sliding sleeve, the two stop blocks on the same sliding sleeve are respectively located on the left side and the right side of the vertical plate, the transverse moving rods are connected to the two sliding sleeves in a sliding mode, and the sliding sleeves and the transverse moving rods are fixedly connected through screws in a pressing mode.

Description

5G micro base station

Technical Field

The invention relates to a base station, in particular to a 5G micro base station.

Background

The micro base station, the user terminal, and the wireless communication method disclosed in application No. CN201480052816.7 introduce a signal for measurement and detection of a micro cell without affecting the conventional system. A micro cell covered by a micro base station is arranged in a macro cell M covered by a macro base station, a user terminal exists in the micro cell, the micro base station generates a detection measurement signal for a new detection process different from the existing detection process of the micro cell using a synchronization signal, the detection measurement signal is mapped to avoid the synchronization signal and transmitted to the user terminal, and the user terminal receives the detection measurement signal from the micro base station and detects the micro cell. However, the patent cannot control the placing mode and the heat dissipation mode of the circuit box of the base station.

Disclosure of Invention

The invention provides a 5G micro base station, which has the beneficial effect that the arrangement mode and the heat dissipation mode of a circuit box of the base station can be controlled.

The invention relates to a base station, in particular to a 5G micro base station which comprises a cover box, vent holes and a groove box.

The cover box is hollow structure, and the right side of cover box is from last to being provided with a plurality of air vents down, and the groove box is cuboid box-like, the vertical sliding connection of groove box in the lower part of cover box.

The 5G micro base station further comprises a vertical plate, vertical holes, transverse moving rods, sliding sleeves and stop blocks, wherein the vertical holes are formed in the vertical plate, two sliding sleeves are connected to the vertical holes in a sliding mode, two stop blocks are fixedly connected to the front side of each sliding sleeve, the two stop blocks on the same sliding sleeve are respectively located on the left side and the right side of the vertical plate, the transverse moving rods are connected to the two sliding sleeves in a sliding mode, and the sliding sleeves and the transverse moving rods are fixedly connected through screws in a pressing mode.

The 5G micro base station further comprises a pressing strip, a square column and a convex seat, the rear side of each vertical plate is fixedly connected with the convex seat, the convex seat is slidably connected with the square column in the front-rear direction, the square column and the convex seat are fixedly connected through a screw, the front end of the square column is fixedly connected with the pressing strip, and the pressing strip is pressed on the rear sides of the two sliding sleeves.

The little basic station of 5G still includes end swivel mount, electric putter I, slide opening I, smooth cylinder, L shape pole, the camera, lever and sideslip strip, the lower extreme fixed connection of riser has end swivel mount, horizontal sliding connection has the sideslip strip on the end swivel mount, the articulated right-hand member of connecting at the sideslip strip in middle part of lever, fixedly connected with electric putter I on the end swivel mount, electric putter I's expansion end fixed connection is on the sideslip strip, the upper portion of lever is provided with slide opening I, fixedly connected with L shape pole on the end swivel mount, the smooth cylinder of right-hand member fixedly connected with of L shape pole, smooth cylinder sliding connection is on slide opening I, the lower part fixedly connected with camera of lever.

The 5G micro base station further comprises a fixed shaft, a gear I, a door-shaped frame and a gear II, wherein the lower end of the bottom rotating seat is fixedly connected with the fixed shaft, the lower end of the fixed shaft is fixedly connected with the gear I, the fixed shaft is rotatably connected to the door-shaped frame, the door-shaped frame is provided with the gear II driven by a motor, and the gear II is in meshing transmission with the gear I.

The 5G little basic station still includes the rectangle frame, the spliced pole, the back curb girder, electric putter II, three angle irons and flute profile post, the equal fixedly connected with spliced pole in the left and right sides of door-shaped frame lower part, the outer end of two spliced poles is fixed connection both ends about the rectangle frame respectively, the equal fixedly connected with flute profile post in both sides about the back curb girder front side, the equal fixedly connected with three angle irons in both ends around two flute profile posts, the vertical sliding connection of rectangle frame is between four three angle irons, fixedly connected with electric putter II on the back curb girder, electric putter II's expansion end fixed connection is on the rectangle frame.

The 5G micro base station further comprises a bottom support, transverse rotating strips, antennas and front and rear moving frames, wherein the front and rear moving frames are connected between the two groove-shaped columns in a sliding mode in the front and rear direction, the transverse rotating strips are arranged on the lower portions of the front and rear moving frames, the antennas are uniformly distributed on the transverse rotating strips from left to right, and the bottom support is fixedly connected to the left end and the right end of the rear side beam.

The 5G micro base station further comprises an inclined pull rod, the lower end of the inclined pull rod is hinged to the front and rear moving frame, and the upper end of the inclined pull rod is hinged to the rectangular frame.

The 5G little basic station still includes side shaft, slide hole pole, slide hole I, decides cylinder and lower pole that stretches, and the equal fixedly connected with side shaft in both ends about the horizontal rotation strip, two side shafts rotate respectively to be connected and move the frame around and both ends about, lie in the fixedly connected with slide hole pole on the side shaft of right-hand member, are provided with slide hole I on the slide hole pole, and fixedly connected with stretches the pole down on the flute profile post that lies in the right-hand member, and the cylinder is decided to the lower extreme fixedly connected with of lower pole, decides cylinder sliding connection on slide hole I.

The 5G micro base station has the beneficial effects that:

the invention relates to a G micro base station, which can control the arrangement mode and the heat dissipation mode of a circuit box of the base station. The groove box is used for placing circuit equipment in the base station, can slide on the cover box, further adjusts the extension degree of the groove box, and can be pulled out when the quick heat dissipation is needed in the groove box; when the groove box does not need to be rapidly cooled, the groove box is completely inserted into the groove box, and the plurality of vent holes can also introduce air into the groove box and the cover box to help the groove box and the cover box to dissipate heat

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic overall structure diagram of a 5G micro base station according to the present invention;

fig. 2 is a schematic diagram of an overall structure of a 5G micro base station according to the present invention;

FIG. 3 is a first schematic structural view of a riser and a bottom turret;

FIG. 4 is a second schematic structural view of the vertical plate and the bottom turret;

FIG. 5 is a schematic structural view of the housing;

FIG. 6 is a schematic structural diagram of a rectangular frame;

fig. 7 is a schematic structural view of the rear side member.

In the figure: a vertical plate 1; a vertical hole 101; a compression bar 102; a square column 103; a boss 104; a bottom swivel mount 2; an electric push rod I201; a slide hole I202; a sliding cylinder 203; an L-shaped rod 204; a camera 205; a lever 206; a fixed shaft 207; gear I208; a traverse bar 209; a housing case 3; a vent hole 301; a pod 302; a traverse bar 303; a sliding sleeve 304; a stopper 305; a rectangular frame 4; a connecting column 401; a gantry 402; gear II 403; a side shaft 404; a slide hole rod 405; a slide hole I406; a diagonal member 407; a transverse bar 408; an antenna 409; a forward and backward movement frame 410; a rear side member 5; an electric push rod II 501; a triangular iron 502; a trough-shaped post 503; a bottom bracket 504; a fixed cylinder 505; a lower boom 506.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The first embodiment is as follows:

the present invention is described below with reference to fig. 1 to 7, and the present invention relates to a base station, and more specifically, to a 5G micro base station, which includes a cover case 3, a vent hole 301, and a slot case 302.

The cover box 3 is hollow structure, and the right side of cover box 3 is from last to being provided with a plurality of air vents 301 down, and the groove box 302 is cuboid box-like, and the vertical sliding connection of groove box 302 is in the lower part of cover box 3. The groove box 302 is used for placing circuit equipment in a base station, the groove box 302 can slide on the cover box 3, the extension degree of the groove box 302 is further adjusted, and when the groove box 302 needs to be quickly cooled, the groove box 302 can be pulled out; when the groove box 302 does not need to be rapidly cooled, the groove box 302 is completely inserted into the groove box 302, and the plurality of vent holes 301 can also vent air into the groove box 302 and the cover box 3 to help the groove box 302 and the cover box 3 to cool.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 7, the 5G micro base station further includes a vertical plate 1, vertical holes 101, a traverse rod 303, sliding sleeves 304 and stoppers 305, the vertical plate 1 is provided with vertical holes 101, the vertical holes 101 are vertically and slidably connected with two sliding sleeves 304, the front side of each sliding sleeve 304 is fixedly connected with two stoppers 305, the two stoppers 305 on the same sliding sleeve 304 are respectively located at the left and right sides of the vertical plate 1, the two sliding sleeves 304 are transversely and slidably connected with the traverse rod 303, and the sliding sleeves 304 and the traverse rod 303 are fixedly connected in a screw compression manner. The two sliding sleeves 304 can vertically slide on the vertical hole 101, so as to adjust the height of the two sliding sleeves 304 and the distance between the two sliding sleeves 304, wherein the distance between the two sliding sleeves 304 determines the volume of the groove box 302 pulled out from the housing box 3; the two traverse rods 303 can slide left and right on the two sliding sleeves 304 respectively, so as to adjust the left and right positions of the whole arrangement of the cover box 3 and the groove box 302 and the inclination of the whole arrangement of the cover box 3 and the groove box 302.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 7, where the 5G micro base station further includes a pressing strip 102, a square column 103 and a boss 104, the boss 104 is fixedly connected to the rear side of the riser 1, the square column 103 in the front-rear direction is slidably connected to the boss 104, the square column 103 and the boss 104 are fixedly connected by a screw pressing method, the pressing strip 102 is fixedly connected to the front end of the square column 103, and the pressing strip 102 is pressed on the rear sides of the two sliding sleeves 304. The square column 103 can drive the pressing strip 102 to slide back and forth when sliding back and forth on the boss 104, and the two sliding sleeves 304 can be fixed on the vertical plate 1 when the pressing strip 102 is pressed on the rear sides of the two sliding sleeves 304.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 7, the 5G micro base station further includes a bottom swivel base 2, an electric push rod I201, a sliding hole I202, a sliding cylinder 203, an L-shaped rod 204, a camera 205, a lever 206 and a sliding bar 209, the lower end of the vertical plate 1 is fixedly connected to the bottom swivel base 2, the bottom swivel base 2 is transversely slidably connected to the sliding bar 209, the middle of the lever 206 is hinged to the right end of the sliding bar 209, the bottom swivel base 2 is fixedly connected to the electric push rod I201, the movable end of the electric push rod I201 is fixedly connected to the sliding bar 209, the upper portion of the lever 206 is provided with the sliding hole I202, the bottom swivel base 2 is fixedly connected to the L-shaped rod 204, the right end of the L-shaped rod 204 is fixedly connected to the sliding cylinder 203, the sliding cylinder 203 is slidably connected to the sliding hole I. When the electric push rod I201 stretches, the transverse moving bar 209 can be driven to slide left and right on the bottom swivel base 2, and further the sliding cylinder 203 is driven to move left and right relative to the lever 206, so that when the transverse moving bar 209 moves left, the camera 205 moves left, and meanwhile, the camera 205 also rotates clockwise; when the traverse bar 209 moves rightward, the camera 205 also rotates counterclockwise while the camera 205 moves rightward. The camera 205 is used for monitoring the periphery of the 5G emergency base station, and the camera 205 is moved in a manner such that the camera 205 obtains a larger field of view.

The fifth concrete implementation mode:

referring to fig. 1 to 7, the embodiment is described, the 5G micro base station further includes a fixing shaft 207, a gear I208, a door frame 402 and a gear II403, the fixing shaft 207 is fixedly connected to the lower end of the bottom rotating base 2, the gear I208 is fixedly connected to the lower end of the fixing shaft 207, the fixing shaft 207 is rotatably connected to the door frame 402, the door frame 402 is provided with the gear II403 driven by a motor, and the gear II403 is in meshing transmission with the gear I208. When the gear II403 rotates, the gear I208 and the fixing shaft 207 can be driven to rotate, and the cover case 3, the groove case 302 and the camera 205 are driven to face each other. Facilitating reception of signals by the base station and facilitating monitoring of the surrounding environment by the camera 205.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 7, the 5G micro base station further includes a rectangular frame 4, a connection column 401, a rear side beam 5, an electric push rod II501, triangular iron 502 and a groove-shaped column 503, the connection column 401 is fixedly connected to both sides of the lower portion of the portal frame 402, the outer ends of the two connection columns 401 are respectively and fixedly connected to both ends of the rectangular frame 4, the groove-shaped column 503 is fixedly connected to both sides of the front side of the rear side beam 5, the triangular iron 502 is fixedly connected to both ends of the front and rear sides of the two groove-shaped columns 503, the rectangular frame 4 is vertically and slidably connected between the four triangular iron 502, the electric push rod II501 is fixedly connected to the rear side beam 5, and the movable end of the electric push. When the electric push rod II501 stretches out and draws back, the rectangular frame 4 can be driven to lift between the four triangular irons 502, and the heights of the cover box 3 and the groove box 302 are adjusted.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 7, where the 5G micro base station further includes a bottom bracket 504, a transverse bar 408, an antenna 409, and a front and rear moving frame 410, the front and rear moving frame 410 is slidably connected between the two groove-shaped columns 503 in the front and rear direction, the transverse bar 408 is disposed at the lower portion of the front and rear moving frame 410, a plurality of antennas 409 are uniformly distributed on the transverse bar 408 from left to right, and the left and right ends of the rear side beam 5 are fixedly connected to the bottom bracket 504. The front and rear moving frame 410 can slide front and rear, so as to drive the transverse rotating strip 408 and the plurality of antennas 409 to move front and rear, and the plurality of antennas 409 are convenient for receiving signals on the ground. The plurality of antennas 409 move back and forth so that the plurality of antennas 409 obtain a larger signal receiving range.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 7, the 5G micro base station further includes a diagonal member 407, a lower end of the diagonal member 407 is hinged to the front and rear moving frame 410, and an upper end of the diagonal member 407 is hinged to the rectangular frame 4. When the rectangular frame 4 moves up and down, the diagonal draw bar 407 can drive the front and rear moving frame 410 to move back and forth.

The specific implementation method nine:

the present embodiment is described below with reference to fig. 1 to 7, the 5G micro base station further includes a side shaft 404, a slide hole rod 405, a slide hole I406, a fixed cylinder 505, and a downward extending rod 506, the left and right ends of the transverse bar 408 are fixedly connected with the side shaft 404, the two side shafts 404 are respectively rotatably connected to the left and right ends of the front and rear moving frame 410, the slide hole rod 405 is fixedly connected to the side shaft 404 located at the right end, the slide hole I406 is provided on the slide hole rod 405, the downward extending rod 506 is fixedly connected to the grooved column 503 located at the right end, the fixed cylinder 505 is fixedly connected to the lower end of the downward extending rod 506, and the fixed cylinder 505 is slidably connected to the slide hole I406. When the front and rear moving frame 410 moves forward and backward, the fixed cylinder 505 moves forward and backward relative to the slide hole rod 405, so that the slide hole rod 405 is driven to rotate forward and backward when moving forward and backward, and then the plurality of antennas 409 are driven to swing forward and backward to rotate, so that the plurality of antennas 409 also swing forward and backward while moving forward and backward, and the plurality of antennas 409 obtain a larger signal receiving range.

The working principle of the invention is as follows: the groove box 302 is used for placing circuit equipment in a base station, the groove box 302 can slide on the cover box 3, the extension degree of the groove box 302 is further adjusted, and when the groove box 302 needs to be quickly cooled, the groove box 302 can be pulled out; when the groove box 302 does not need to be rapidly cooled, the groove box 302 is completely inserted into the groove box 302, and the plurality of vent holes 301 can also vent air into the groove box 302 and the cover box 3 to help the groove box 302 and the cover box 3 to cool. The two sliding sleeves 304 can vertically slide on the vertical hole 101, so as to adjust the height of the two sliding sleeves 304 and the distance between the two sliding sleeves 304, wherein the distance between the two sliding sleeves 304 determines the volume of the groove box 302 pulled out from the housing box 3; the two traverse rods 303 can slide left and right on the two sliding sleeves 304 respectively, so as to adjust the left and right positions of the whole arrangement of the cover box 3 and the groove box 302 and the inclination of the whole arrangement of the cover box 3 and the groove box 302. The square column 103 can drive the pressing strip 102 to slide back and forth when sliding back and forth on the boss 104, and the two sliding sleeves 304 can be fixed on the vertical plate 1 when the pressing strip 102 is pressed on the rear sides of the two sliding sleeves 304. When the electric push rod I201 stretches, the transverse moving bar 209 can be driven to slide left and right on the bottom swivel base 2, and further the sliding cylinder 203 is driven to move left and right relative to the lever 206, so that when the transverse moving bar 209 moves left, the camera 205 moves left, and meanwhile, the camera 205 also rotates clockwise; when the traverse bar 209 moves rightward, the camera 205 also rotates counterclockwise while the camera 205 moves rightward. The camera 205 is used for monitoring the periphery of the 5G emergency base station, and the camera 205 is moved in a manner such that the camera 205 obtains a larger field of view. When the gear II403 rotates, the gear I208 and the fixing shaft 207 can be driven to rotate, and the cover case 3, the groove case 302 and the camera 205 are driven to face each other. Facilitating reception of signals by the base station and facilitating monitoring of the surrounding environment by the camera 205. When the electric push rod II501 stretches out and draws back, the rectangular frame 4 can be driven to lift between the four triangular irons 502, and the heights of the cover box 3 and the groove box 302 are adjusted. The front and rear moving frame 410 can slide front and rear, so as to drive the transverse rotating strip 408 and the plurality of antennas 409 to move front and rear, and the plurality of antennas 409 are convenient for receiving signals on the ground. The plurality of antennas 409 move back and forth so that the plurality of antennas 409 obtain a larger signal receiving range. When the rectangular frame 4 moves up and down, the diagonal draw bar 407 can drive the front and rear moving frame 410 to move back and forth. When the front and rear moving frame 410 moves forward and backward, the fixed cylinder 505 moves forward and backward relative to the slide hole rod 405, so that the slide hole rod 405 is driven to rotate forward and backward when moving forward and backward, and then the plurality of antennas 409 are driven to swing forward and backward to rotate, so that the plurality of antennas 409 also swing forward and backward while moving forward and backward, and the plurality of antennas 409 obtain a larger signal receiving range.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. A5G micro base station, comprising a cover case (3), a vent hole (301) and a groove case (302), characterized in that: the cover box (3) is of a hollow structure, the right side of the cover box (3) is provided with a plurality of vent holes (301) from top to bottom, the groove box (302) is of a cuboid box shape, and the groove box (302) is vertically connected to the lower portion of the cover box (3) in a sliding mode.

2. The 5G micro base station of claim 1, wherein: the 5G micro base station further comprises a vertical plate (1), vertical holes (101), a transverse rod (303), sliding sleeves (304) and stoppers (305), wherein the vertical holes (101) are formed in the vertical plate (1), two sliding sleeves (304) are vertically and slidably connected to the vertical holes (101), two stoppers (305) are fixedly connected to the front side of each sliding sleeve (304), the two stoppers (305) on the same sliding sleeve (304) are respectively located on the left side and the right side of the vertical plate (1), the transverse rod (303) is transversely and slidably connected to the two sliding sleeves (304), and the sliding sleeves (304) and the transverse rod (303) are fixedly connected through screws in a pressing mode.

3. A 5G micro base station according to claim 2, characterized in that: the 5G micro base station further comprises a pressing strip (102), square columns (103) and bosses (104), the rear sides of the risers (1) are fixedly connected with the bosses (104), the bosses (104) are connected with the square columns (103) in the front-rear direction in a sliding mode, the square columns (103) and the bosses (104) are fixedly connected in a screw pressing mode, the front ends of the square columns (103) are fixedly connected with the pressing strip (102), and the pressing strip (102) is pressed on the rear sides of the two sliding sleeves (304).

4. A 5G micro base station according to claim 3, wherein: the 5G micro base station also comprises a bottom rotary seat (2), an electric push rod I (201), a sliding hole I (202), a sliding column (203), an L-shaped rod (204), a camera (205), a lever (206) and a transverse moving strip (209), lower extreme fixed connection of riser (1) has end swivel mount (2), horizontal sliding connection has sideslip strip (209) on end swivel mount (2), the articulated right-hand member of connecting in sideslip strip (209) in the middle part of lever (206), fixedly connected with electric putter I (201) on end swivel mount (2), the expansion end fixed connection of electric putter I (201) is on sideslip strip (209), the upper portion of lever (206) is provided with slide opening I (202), fixedly connected with L shape pole (204) on end swivel mount (2), the right-hand member fixedly connected with smooth cylinder (203) of L shape pole (204), smooth cylinder (203) sliding connection is on slide opening I (202), the lower part fixedly connected with camera (205) of lever (206).

5. The 5G micro base station as claimed in claim 4, wherein: the 5G micro base station further comprises a fixing shaft (207), a gear I (208), a door-shaped frame (402) and a gear II (403), the fixing shaft (207) is fixedly connected to the lower end of the bottom rotating base (2), the gear I (208) is fixedly connected to the lower end of the fixing shaft (207), the fixing shaft (207) is rotatably connected to the door-shaped frame (402), the gear II (403) driven by a motor is arranged on the door-shaped frame (402), and the gear II (403) is in meshing transmission with the gear I (208).

6. A5G micro base station according to claim 5, characterized in that: the 5G little basic station still includes rectangle frame (4), spliced pole (401), back curb girder (5), electric putter II (501), three angle iron (502) and flute profile post (503), equal fixedly connected with spliced pole (401) in the left and right sides of door-shaped frame (402) lower part, the outer end difference fixed connection of two spliced poles (401) is at both ends about rectangle frame (4), equal fixedly connected with flute profile post (503) in both sides about back curb girder (5) front side, equal fixedly connected with three angle iron (502) in both ends around two flute profile posts (503), the vertical sliding connection of rectangle frame (4) is between four three angle iron (502), fixedly connected with electric putter II (501) on back curb girder (5), the expansion end fixed connection of electric putter II (501) is on rectangle frame (4).

7. The 5G micro base station as claimed in claim 6, wherein: the 5G micro base station further comprises a bottom support (504), a transverse rotating strip (408), an antenna (409) and a front and rear moving frame (410), wherein the front and rear moving frame (410) is connected between the two groove-shaped columns (503) in a sliding mode in the front and rear direction, the transverse rotating strip (408) is arranged on the lower portion of the front and rear moving frame (410), the plurality of antennas (409) are uniformly distributed on the transverse rotating strip (408) from left to right, and the left end and the right end of the rear side beam (5) are fixedly connected with the bottom support (504).

8. The 5G micro base station of claim 7, wherein: the 5G micro base station further comprises a diagonal draw bar (407), the lower end of the diagonal draw bar (407) is hinged to the front and rear moving frame (410), and the upper end of the diagonal draw bar (407) is hinged to the rectangular frame (4).

9. The 5G micro base station of claim 8, wherein: the 5G micro base station further comprises a side shaft (404), a sliding hole rod (405), a sliding hole I (406), a fixed cylinder (505) and a downward extending rod (506), the left end and the right end of a transverse rotating strip (408) are fixedly connected with the side shaft (404), the two side shafts (404) are respectively rotatably connected with the left end and the right end of a front moving frame (410) and a rear moving frame (410), the sliding hole rod (405) is fixedly connected onto the side shaft (404) at the right end, the sliding hole I (406) is arranged on the sliding hole rod (405), the downward extending rod (506) is fixedly connected onto a groove-shaped column (503) at the right end, the fixed cylinder (505) is fixedly connected onto the lower end of the downward extending rod (506), and the fixed cylinder (505) is slidably connected onto the sliding hole I (406.