CN111600111A - 5G small-sized base station - Google Patents

Abstract

The invention relates to a base station, in particular to a 5G small-sized base station which comprises a supporting plate, a trapezoidal sliding rail, a translation rod, a convex pin, a toothed ring, a sleeve cylinder, a top antenna and a transverse rotating column. The upside of layer board is provided with the trapezoidal slide rail of horizontal setting, respectively be provided with one about the translation pole, the lower part difference sliding connection of two translation poles both ends about trapezoidal slide rail, the equal vertical sliding connection in upper portion of two translation poles has set cylinder, all rotate on two set cylinders and be connected with the ring gear, two equal two protruding pins of fixedly connected with on two set cylinders, two protruding pins on the same set cylinder are located the upper and lower both sides of ring gear respectively, equal fixedly connected with violently changes the post on two ring gears, the upper portion of two violently changeing the post all is provided with a plurality of top antennas.

Description

5G small-sized base station

Technical Field

The invention relates to a base station, in particular to a 5G small-sized base station.

Background

The application number is CN201920371334.8 discloses a building emergency guarantee 5G base station capable of being vertically deployed at a high speed, and the building emergency guarantee 5G base station capable of being vertically deployed at a high speed comprises a drainage vertical pipe, a 5G base station self-inflating rubber ball and a system controller; the 5G base station self-inflating rubber balls are stacked inside the drainage vertical pipe, and the lower part of the base station self-inflating rubber balls is supported by an electric release plate; an electric air release valve, a 5G base station, a compressed air steel cylinder, a short-distance radio frequency emission module and a pressure sensor are arranged in the 5G base station self-inflating rubber ball; and radio frequency identification modules are arranged on the top plates of all floors, which are adjacent to the drainage vertical pipe. When personnel are evacuated in an emergency, when the evacuation mouth parts or the channels are accessed in a large number instantly, the emergency coverage 5G base stations can be rapidly arranged vertically along the building, and emergency signal coverage or encrypted signal coverage can be carried out on the vertical channel positions such as staircases covered by 5G signals without the base stations at ordinary times and the evacuation mouth parts which are allowed to be accessed with a large number of devices at ordinary times. But this patent does not disperse and gather antennas as needed.

Disclosure of Invention

The invention provides a 5G small-sized base station, which has the beneficial effect that the invention can disperse and gather antennas according to the requirement.

The invention relates to a base station, in particular to a 5G small-sized base station which comprises a supporting plate, a trapezoidal sliding rail, a translation rod, a convex pin, a toothed ring, a sleeve cylinder, a top antenna and a transverse rotating column.

The upside of layer board is provided with the trapezoidal slide rail of horizontal setting, respectively be provided with one about the translation pole, the lower part difference sliding connection of two translation poles both ends about trapezoidal slide rail, the equal vertical sliding connection in upper portion of two translation poles has set cylinder, all rotate on two set cylinders and be connected with the ring gear, two equal two protruding pins of fixedly connected with on two set cylinders, two protruding pins on the same set cylinder are located the upper and lower both sides of ring gear respectively, equal fixedly connected with violently changes the post on two ring gears, the upper portion of two violently changeing the post all is provided with a plurality of top antennas.

The small-size basic station of 5G still includes waiting the stock, erects slider, center pillar and electric putter I, and the middle part fixedly connected with center pillar of layer board, vertical sliding connection has perpendicular slider on the center pillar, erects the slider about both ends all articulated stock such as being connected with, the other end of two stocks such as articulates respectively and connects on two translation poles, fixedly connected with electric putter I on the layer board, electric putter I's expansion end fixed connection is on erecting the slider.

The small-size basic station of 5G still includes rack, connection piece, sleeve and bead, and the upper end sliding connection of center pillar has the sleeve, and the mode that compresses tightly through the screw between sleeve and the center pillar is fixed, telescopic upper end fixedly connected with connection piece, the horizontal rack that sets up of fixedly connected with on the connection piece, both ends respectively with two ring gear meshing transmissions about the rack, the lower limb fixedly connected with bead of rack, two rings of teeth are all taken the upside of bead.

The small-size basic station of 5G still includes the screw thread post, hollow post, adduction antenna, the slide, the oblique connecting rod, sliding sleeve and spout, the inner fixedly connected with screw thread post of two horizontal rotary posts, the upper end of two hollow posts rotates respectively and connects on two screw thread posts, the front end of two screw thread posts all has the nut through threaded connection, two nuts press respectively on two hollow posts, the outside of two hollow posts all is provided with the spout, equal sliding connection has the slide in two spouts, the equal fixedly connected with adduction antenna of lower extreme of two slides, all articulated being connected with the oblique connecting rod on two slides, equal sliding connection has the sliding sleeve on two horizontal rotary posts, it is fixed through the mode that the screw compressed tightly between sliding sleeve and the horizontal rotary post, the other end of two oblique connecting rods articulates respectively and connects on two sliding sleeves.

The small-size basic station of 5G still includes equipment box, horizontal pole, cross bore and poker rod, and the equal fixedly connected with poker rod of the outer end downside of two traverse posts, both ends all articulate about the layer board downside and are connected with the horizontal pole, all are provided with the cross bore on two horizontal poles, and the lower part of two poker rods is sliding connection respectively on two cross bores, the equal fixedly connected with equipment box in outer end of two horizontal poles.

The small-size basic station of 5G still includes the ventilation hole, all is provided with a plurality of ventilation holes on two equipment casees.

The small-size basic station of 5G still includes bottom plate and support column, the upper end fixedly connected with support column of bottom plate, layer board fixed connection is in the upper end of support column.

The 5G small-size basic station still includes door-shaped wheel carrier, universal wheel and hinge post, and both ends are all articulated to be connected with the hinge post about the bottom plate downside, and two hinge posts all rotate through motor drive level, and the equal fixedly connected with hinge post of the other end of two hinge posts, both ends all are provided with the universal wheel around every hinge post lower part.

The 5G small-sized base station further comprises bottom antennas, and a plurality of bottom antennas are arranged on the two door-shaped wheel carriers.

The small-size basic station of 5G still includes the slide opening, the runner, hollow slider, electric putter II, the erector frame and electric putter III, be provided with the slide opening on the bottom plate, transverse sliding connection has hollow slider on the slide opening, vertical sliding connection has the erector frame on the hollow slider, the lower part of erector frame rotates and is connected with the runner, fixedly connected with electric putter III on the hollow slider, electric putter III's expansion end fixed connection is in the lower part of erector frame, fixedly connected with electric putter II on the bottom plate, electric putter II's expansion end fixed connection is on hollow slider.

The 5G small-sized base station has the beneficial effects that:

the invention provides a 5G small-sized base station, which can disperse and gather antennas according to requirements. The two translation rods can slide left and right on the trapezoidal slide rail, so that the distance between the two sleeve cylinders is adjusted, the two sleeve cylinders can slide up and down to adjust positions, the two toothed rings can rotate on the two sleeve cylinders respectively, the two transverse rotating cylinders and the top antennas on the two transverse rotating cylinders can rotate along with the two transverse rotating cylinders, so that the two transverse rotating cylinders can rotate to point ahead, and when the two translation rods are close to each other, the top antennas on the two transverse rotating cylinders are gathered together; rotate two horizontal rotation posts to directional left and right sides respectively to when two translation poles separate, a plurality of top antennas on two horizontal rotation posts are dispersed.

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 small base station according to the present invention;

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

FIG. 3 is a schematic structural view of a pallet;

FIG. 4 is a schematic view of the structure of the translating bar and hollow post;

FIG. 5 is a schematic structural view of a rack;

FIG. 6 is a first schematic structural diagram of a base plate;

fig. 7 is a second structural diagram of the base plate.

In the figure: a pallet 1; an equipment box 101; a vent hole 102; a cross bar 103; a cross bore 104; a trapezoidal slide rail 105; an elongate rod 106; a vertical slider 107; a center pillar 108; an electric push rod I109; a translation rod 2; a threaded post 201; a boss pin 202; a toothed ring 203; a sleeve cylinder 204; a top antenna 205; a traverse column 206; a tap lever 207; a hollow column 3; an adduction antenna 301; a slider 302; an inclined link 303; a sliding sleeve 304; a chute 305; a rack 4; a connecting piece 401; a sleeve 402; a rib 403; a bottom plate 5; a portal wheel frame 501; a bottom antenna 502; a universal wheel 503; a slide hole 504; a reel 505; a hollow slider 506; an electric push rod II 507; a vertical wheel frame 508; a support column 509; a hinge post 510; and an electric push rod III 511.

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 small-sized base station, which includes a supporting plate 1, a trapezoidal sliding rail 105, a translation rod 2, a convex pin 202, a toothed ring 203, a sleeve cylinder 204, a top antenna 205, and a transverse rotation column 206.

The upside of layer board 1 is provided with the trapezoidal slide rail 105 of horizontal setting, respectively be provided with one about translation pole 2, sliding connection is at both ends about trapezoidal slide rail 105 respectively for the lower part of two translation poles 2, the equal vertical sliding connection in upper portion of two translation poles 2 has set cylinder 204, all rotate on two set cylinders 204 and be connected with ring gear 203, two protruding round pins 202 of equal fixedly connected with on two set cylinders 204, two protruding round pins 202 on the same set cylinder 204 are located the upper and lower both sides of ring gear 203 respectively, equal fixedly connected with violently changes post 206 on two ring gear 203, the upper portion of two violently change post 206 all is provided with a plurality of top antennas 205. The two translation rods 2 can slide left and right on the trapezoidal slide rail 105, so that the distance between the two sets of cylinders 204 is adjusted, the two sets of cylinders 204 can slide up and down to adjust positions, the two toothed rings 203 can rotate on the two sets of cylinders 204 respectively, the two transverse rotating columns 206 and the plurality of top antennas 205 on the two transverse rotating columns 206 rotate along with the two sets of cylinders, so that the two transverse rotating columns 206 are rotated to point ahead, and when the two translation rods 2 approach, the plurality of top antennas 205 on the two transverse rotating columns 206 are gathered; when the two transverse columns 206 are rotated to point to the left and right, respectively, and the two translation rods 2 are separated, the plurality of top antennas 205 on the two transverse columns 206 are dispersed.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 7, the 5G small-sized base station further includes an equal-length rod 106, a vertical slider 107, a middle column 108 and an electric push rod I109, the middle portion of the supporting plate 1 is fixedly connected with the middle column 108, the vertical slider 107 is vertically slidably connected to the middle column 108, the equal-length rod 106 is hinged to both ends of the vertical slider 107, the other ends of the two equal-length rods 106 are respectively hinged to the two translation rods 2, the electric push rod I109 is fixedly connected to the supporting plate 1, and the movable end of the electric push rod I109 is fixedly connected to the vertical slider 107. The electric putter I109 drives the slider 107 to vertically slide on the center pillar 108 when stretching out and drawing back, and then the slider 107 drives two translation rods 2 through two equal-length rods 106 respectively and is close to or keeps away from each other, realizes that two translation rods 2 of control are close to or keep away from each other.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 7, the 5G small-sized base station further includes a rack 4, a connecting piece 401, a sleeve 402 and a rib 403, the sleeve 402 is slidably connected to the upper end of the center pillar 108, the sleeve 402 and the center pillar 108 are fixed by being pressed by screws, the connecting piece 401 is fixedly connected to the upper end of the sleeve 402, the rack 4 is fixedly connected to the connecting piece 401, the rack 4 is transversely disposed, the left end and the right end of the rack 4 are respectively engaged with the two toothed rings 203 for transmission, the rib 403 is fixedly connected to the lower edge of the rack 4, and the two toothed rings 203 are overlapped on the upper side of. The sleeve 402 can slide vertically on the center post 108 to adjust the height, and thus adjust the height of the rack 4 and the rib 403, and the rib 403 can drive the two toothed rings 203 to move up and down simultaneously when moving up and down, thereby adjusting the height of the two cross-rotating posts 206 and the top antennas 205 on the upper sides of the two cross-rotating posts 206. When the two translation rods 2 are far away from each other, the two toothed rings 203 are also far away from each other and roll on the rack 4, and at the moment, the two toothed rings 203 can rotate outwards, so that the two transverse rotation columns 206 are driven to rotate to point to the left side and the right side respectively; similarly, when the two translation rods 2 approach each other, the two transverse rotation columns 206 both rotate to point forward, and the two translation rods 2 approach each other.

The fourth concrete implementation mode:

in the following, referring to fig. 1 to 7, the 5G small-sized base station further includes a threaded column 201, a hollow column 3, and an adduction antenna 301, slide 302, oblique connecting rod 303, sliding sleeve 304 and spout 305, the inner fixedly connected with screw post 201 of two horizontal rotary posts 206, the upper end of two hollow posts 3 is rotated respectively and is connected on two screw posts 201, the front end of two screw posts 201 all has the nut through threaded connection, two nuts press respectively on two hollow posts 3, the outside of two hollow posts 3 all is provided with spout 305, equal sliding connection has slide 302 in two spout 305, the equal fixedly connected with adduction antenna 301 of lower extreme of two slide 302, all articulated being connected with oblique connecting rod 303 on two slide 302, equal sliding connection has sliding sleeve 304 on two horizontal rotary posts 206, it is fixed through the mode that the screw compressed tightly between sliding sleeve 304 and the horizontal rotary post 206, the other end of two oblique connecting rod 303 articulates respectively on two sliding sleeves 304. The adduction antenna 301 is a relatively expensive antenna and needs to be accommodated in the hollow column 3 when not in use; the hollow column 3 can rotate on the threaded column 201 to adjust the angle of the internal antenna 301, and when the sliding sleeve 304 slides on the transverse rotating column 206, the sliding sleeve 302 can be driven by the inclined connecting rod 303 to slide on the sliding groove 305, so as to control the extension and retraction of the internal antenna 301.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 7, the 5G small-sized base station further includes an equipment box 101, two cross rods 103, two cross holes 104 and a poke rod 207, the poke rods 207 are fixedly connected to the lower sides of the outer ends of the two cross rotating columns 206, the cross rods 103 are hinged to the left and right ends of the lower side of the supporting plate 1, the two cross rods 103 are respectively provided with the cross holes 104, the lower portions of the two poke rods 207 are respectively connected to the two cross holes 104, and the outer ends of the two cross rods 103 are fixedly connected to the equipment box 101. Be used for placing 5G correlation technique equipment in the equipment box 101, two traverse columns 206 drive two poker bars 207 respectively and rotate when rotating, can drive two horizontal poles 103 and rotate when two poker bars 207 rotate, and then make two equipment boxes 101 be located the below of two traverse columns 206 all the time, provide support for a plurality of top antennas 205 on two traverse columns 206.

The sixth specific implementation mode:

in the following, referring to fig. 1 to 7, the 5G small-sized base station further includes a vent hole 102, and a plurality of vent holes 102 are provided in both of the two equipment boxes 101. The plurality of vent holes 102 facilitates the same-side heat dissipation of the equipment cabinet 101.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 7, the 5G small-sized base station further includes a bottom plate 5 and a supporting column 509, the supporting column 509 is fixedly connected to the upper end of the bottom plate 5, and the supporting plate 1 is fixedly connected to the upper end of the supporting column 509.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1 to 7, the 5G small-sized base station further includes a portal wheel frame 501, a universal wheel 503 and hinge columns 510, the hinge columns 510 are hinged to the left and right ends of the lower side of the bottom plate 5, the two hinge columns 510 are both driven by a motor to horizontally rotate, the other ends of the two hinge columns 510 are both fixedly connected with the hinge columns 510, and the universal wheel 503 is disposed at the front and rear ends of the lower portion of each hinge column 510. The two portal wheel frames 501 can rotate at the lower side of the bottom plate 5, so that the distance between the two portal wheel frames 501 can be adjusted, and the two portal wheel frames 501 can be retracted into the lower side of the bottom plate 5 when needed. Universal wheels 503 at the lower end of portal wheel frame 501 facilitate the movement of the device.

The specific implementation method nine:

in the following, referring to fig. 1 to 7, the 5G small-sized base station further includes a bottom antenna 502, and a plurality of bottom antennas 502 are disposed on both of the two portal frames 501. The plurality of bottom antennas 502 receive and transmit signals at the lower part, when the two portal-shaped wheel frames 501 are both retracted into the lower side of the bottom plate 5, the plurality of bottom antennas 502 on the two portal-shaped wheel frames 501 are gathered, and when the two portal-shaped wheel frames 501 are both rotated to the outside of the bottom plate 5, the plurality of bottom antennas 502 on the two portal-shaped wheel frames 501 are dispersed.

The detailed implementation mode is ten:

the embodiment is described below with reference to fig. 1 to 7, the 5G small-sized base station further includes a sliding hole 504, a rotating wheel 505, a hollow sliding block 506, an electric push rod II507, a vertical wheel frame 508 and an electric push rod III511, the bottom plate 5 is provided with the sliding hole 504, the sliding hole 504 is transversely slidably connected with the hollow sliding block 506, the hollow sliding block 506 is vertically slidably connected with the vertical wheel frame 508, the lower portion of the vertical wheel frame 508 is rotatably connected with the rotating wheel 505, the hollow sliding block 506 is fixedly connected with the electric push rod III511, the movable end of the electric push rod III511 is fixedly connected to the lower portion of the vertical wheel frame 508, the bottom plate 5 is fixedly connected with the electric push rod II507, and the movable end of the electric push rod II. When the device is required to span a large gully, both the two portal wheel frames 501 are rotated to the outside of the bottom plate 5, so that when the device spans the large gully, the rotating wheel 505 and the hollow sliding block 506 play a supporting role in the middle of the bottom plate 5, and the electric push rod II507 drives the hollow sliding block 506 to slide on the sliding hole 504, so as to adjust the supporting position. When the electric push rod III511 extends and retracts, the rotating wheel 505 and the vertical wheel frame 508 are driven to move up and down to control whether the rotating wheel 505 is supported on the ground or not.

The working principle of the invention is as follows: the two translation rods 2 can slide left and right on the trapezoidal slide rail 105, so that the distance between the two sets of cylinders 204 is adjusted, the two sets of cylinders 204 can slide up and down to adjust positions, the two toothed rings 203 can rotate on the two sets of cylinders 204 respectively, the two transverse rotating columns 206 and the plurality of top antennas 205 on the two transverse rotating columns 206 rotate along with the two sets of cylinders, so that the two transverse rotating columns 206 are rotated to point ahead, and when the two translation rods 2 approach, the plurality of top antennas 205 on the two transverse rotating columns 206 are gathered; when the two transverse columns 206 are rotated to point to the left and right, respectively, and the two translation rods 2 are separated, the plurality of top antennas 205 on the two transverse columns 206 are dispersed. The electric putter I109 drives the slider 107 to vertically slide on the center pillar 108 when stretching out and drawing back, and then the slider 107 drives two translation rods 2 through two equal-length rods 106 respectively and is close to or keeps away from each other, realizes that two translation rods 2 of control are close to or keep away from each other. The sleeve 402 can slide vertically on the center post 108 to adjust the height, and thus adjust the height of the rack 4 and the rib 403, and the rib 403 can drive the two toothed rings 203 to move up and down simultaneously when moving up and down, thereby adjusting the height of the two cross-rotating posts 206 and the top antennas 205 on the upper sides of the two cross-rotating posts 206. When the two translation rods 2 are far away from each other, the two toothed rings 203 are also far away from each other and roll on the rack 4, and at the moment, the two toothed rings 203 can rotate outwards, so that the two transverse rotation columns 206 are driven to rotate to point to the left side and the right side respectively; similarly, when the two translation rods 2 approach each other, the two transverse rotation columns 206 both rotate to point forward, and the two translation rods 2 approach each other. The adduction antenna 301 is a relatively expensive antenna and needs to be accommodated in the hollow column 3 when not in use; the hollow column 3 can rotate on the threaded column 201 to adjust the angle of the internal antenna 301, and when the sliding sleeve 304 slides on the transverse rotating column 206, the sliding sleeve 302 can be driven by the inclined connecting rod 303 to slide on the sliding groove 305, so as to control the extension and retraction of the internal antenna 301. Be used for placing 5G correlation technique equipment in the equipment box 101, two traverse columns 206 drive two poker bars 207 respectively and rotate when rotating, can drive two horizontal poles 103 and rotate when two poker bars 207 rotate, and then make two equipment boxes 101 be located the below of two traverse columns 206 all the time, provide support for a plurality of top antennas 205 on two traverse columns 206. The plurality of vent holes 102 facilitates the same-side heat dissipation of the equipment cabinet 101. The two portal wheel frames 501 can rotate at the lower side of the bottom plate 5, so that the distance between the two portal wheel frames 501 can be adjusted, and the two portal wheel frames 501 can be retracted into the lower side of the bottom plate 5 when needed. Universal wheels 503 at the lower end of portal wheel frame 501 facilitate the movement of the device. The plurality of bottom antennas 502 receive and transmit signals at the lower part, when the two portal-shaped wheel frames 501 are both retracted into the lower side of the bottom plate 5, the plurality of bottom antennas 502 on the two portal-shaped wheel frames 501 are gathered, and when the two portal-shaped wheel frames 501 are both rotated to the outside of the bottom plate 5, the plurality of bottom antennas 502 on the two portal-shaped wheel frames 501 are dispersed. When the device is required to span a large gully, both the two portal wheel frames 501 are rotated to the outside of the bottom plate 5, so that when the device spans the large gully, the rotating wheel 505 and the hollow sliding block 506 play a supporting role in the middle of the bottom plate 5, and the electric push rod II507 drives the hollow sliding block 506 to slide on the sliding hole 504, so as to adjust the supporting position. When the electric push rod III511 extends and retracts, the rotating wheel 505 and the vertical wheel frame 508 are driven to move up and down to control whether the rotating wheel 505 is supported on the ground or not.

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 (10)

1. The utility model provides a 5G small-size basic station, includes layer board (1), trapezoidal slide rail (105), translation pole (2), protruding round pin (202), ring gear (203), cover cylinder (204), top antenna (205) and violently rotate post (206), its characterized in that: the upside of layer board (1) is provided with trapezoidal slide rail (105) of horizontal setting, respectively be provided with one about translation pole (2), both ends about trapezoidal slide rail (105) are connected to the lower part difference sliding connection of two translation poles (2), the equal vertical sliding connection in upper portion of two translation poles (2) has set cylinder (204), it is connected with ring gear (203) all to rotate on two set cylinder (204), two protruding round pins (202) of equal fixedly connected with on two set cylinder (204), two protruding round pins (202) on the same set cylinder (204) are located the upper and lower both sides of ring gear (203) respectively, equal fixedly connected with horizontal rotary column (206) on two ring gear (203), the upper portion of two horizontal rotary column (206) all is provided with a plurality of top antenna (205).

2. A 5G small base station as claimed in claim 1, wherein: the small-size basic station of 5G still includes when stock (106), erect slider (107), center pillar (108) and electric putter I (109), the middle part fixedly connected with center pillar (108) of layer board (1), vertical sliding connection has perpendicular slider (107) on center pillar (108), both ends all articulate about perpendicular slider (107) and are connected with when stock (106), the other end of two when stock (106) articulates respectively and connects on two translation pole (2), fixedly connected with electric putter I (109) on layer board (1), the expansion end fixed connection of electric putter I (109) is on erecting slider (107).

3. A 5G small base station as claimed in claim 2, wherein: the small-size basic station of 5G still includes rack (4), connection piece (401), sleeve (402) and bead (403), the upper end sliding connection of center pillar (108) has sleeve (402), it is fixed through the mode that the screw compressed tightly between sleeve (402) and center pillar (108), upper end fixedly connected with connection piece (401) of sleeve (402), rack (4) that fixedly connected with transversely set up on connection piece (401), both ends respectively with two rings of teeth (203) meshing transmission about rack (4), lower limb fixedly connected with bead (403) of rack (4), two rings of teeth (203) are all taken on the upside of bead (403).

4. A 5G small base station as claimed in claim 3, wherein: the 5G small-sized base station further comprises threaded columns (201), hollow columns (3), adduction antennas (301), sliding seats (302), inclined connecting rods (303), sliding sleeves (304) and sliding grooves (305), the inner ends of the two transverse rotating columns (206) are fixedly connected with the threaded columns (201), the upper ends of the two hollow columns (3) are respectively rotatably connected to the two threaded columns (201), the front ends of the two threaded columns (201) are respectively connected with nuts through threads, the two nuts are respectively pressed on the two hollow columns (3), the outer sides of the two hollow columns (3) are respectively provided with the sliding grooves (305), the sliding seats (302) are respectively and slidably connected in the two sliding grooves (305), the lower ends of the two sliding seats (302) are respectively and fixedly connected with the adduction antennas (301), the inclined connecting rods (303) are respectively and hingedly connected to the two sliding columns (206), the sliding sleeves (304) are respectively and slidably connected to the two transverse rotating columns (206), and the sliding sleeves (304) are fixed in a screw compression mode, the other ends of the two inclined connecting rods (303) are respectively hinged on the two sliding sleeves (304).

5. A5G small-scale base station as claimed in claim 4, wherein: the 5G small-sized base station further comprises an equipment box (101), transverse rods (103), transverse holes (104) and poke rods (207), the poke rods (207) are fixedly connected to the lower sides of the outer ends of the two transverse rotating columns (206), the transverse rods (103) are hinged to the left end and the right end of the lower side of the supporting plate (1), the transverse holes (104) are formed in the two transverse rods (103), the lower portions of the two poke rods (207) are connected to the two transverse holes (104) in a sliding mode respectively, and the equipment box (101) is fixedly connected to the outer ends of the two transverse rods (103).

6. A5G small-scale base station as claimed in claim 5, wherein: the 5G small-sized base station further comprises a plurality of vent holes (102), and the two equipment boxes (101) are provided with the vent holes (102).

7. A5G small-scale base station as claimed in claim 6, wherein: the small-size basic station of 5G still includes bottom plate (5) and support column (509), the upper end fixedly connected with support column (509) of bottom plate (5), and layer board (1) fixed connection is in the upper end of support column (509).

8. A 5G small base station as claimed in claim 7, wherein: the 5G small-sized base station further comprises a portal wheel frame (501), universal wheels (503) and hinged columns (510), the hinged columns (510) are hinged to the left end and the right end of the lower side of the bottom plate (5), the two hinged columns (510) are horizontally driven to rotate through a motor, the hinged columns (510) are fixedly connected to the other ends of the two hinged columns (510), and the universal wheels (503) are arranged at the front end and the rear end of the lower portion of each hinged column (510).

9. A 5G small base station as claimed in claim 8, wherein: the 5G small-sized base station further comprises bottom antennas (502), and a plurality of bottom antennas (502) are arranged on the two portal wheel frames (501).

10. A 5G small base station as claimed in claim 9, wherein: the 5G small-sized base station further comprises a sliding hole (504), a rotating wheel (505), a hollow sliding block (506), an electric push rod II (507), a vertical wheel frame (508) and an electric push rod III (511), the sliding hole (504) is formed in the bottom plate (5), the hollow sliding block (506) is connected to the sliding hole (504) in a transverse sliding mode, the vertical sliding block (506) is connected to the vertical wheel frame (508) in a vertical sliding mode, the rotating wheel (505) is connected to the lower portion of the vertical wheel frame (508) in a rotating mode, the electric push rod III (511) is fixedly connected to the hollow sliding block (506), the movable end of the electric push rod III (511) is fixedly connected to the lower portion of the vertical wheel frame (508), the electric push rod II (507) is fixedly connected to the bottom plate (5), and the movable end of the.

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