CN115665582A - 5G is fast connecing formula mobile base station for communication - Google Patents

Abstract

The invention relates to a quick-connect mobile base station for 5G communication, which relates to the technical field of mobile base stations and comprises a communication vehicle and a communication cabinet, wherein the bottom of the communication vehicle is provided with a brake wheel, an operation end box opening of the communication cabinet is hinged with two symmetrical box doors capable of being automatically opened outwards through a torsional spring hinge, a bracket mechanism is provided with a limiting mechanism corresponding to the outer sides of the box doors, the bottom of the bracket mechanism is provided with a transmission mechanism, the opened box doors can be quickly closed by adopting a remote control starting mode of the transmission mechanism and the limiting mechanism so as to quickly protect equipment in the cabinet in the first time, the communication vehicle arranged at the bottom is used for quickly transferring the equipment in the first time, and a linkage locking mode is adopted so that the bracket can be locked on the communication vehicle while the box doors are closed, and when the communication cabinet is transferred along with the communication vehicle, the communication cabinet can be prevented from generating violent vibration and shaking during the transfer along with the vehicle.

Description

5G is connect formula mobile base station soon for communication

Technical Field

The invention relates to the technical field of mobile base stations, in particular to a quick-connection mobile base station for 5G communication.

Background

With the fifth generation mobile communication technology; or the 5G network comes, various industries have more and more requirements on the 5G network, the 5G network is not deployed in a large area in the initial stage, the 5G services are all in a situation without network debugging, how to quickly respond to the requirements of a service department, the rapid network deployment in the debugging stage of the 5G application is met, and the 5G services are supported by market departments to develop, which is a main requirement of the current communication services, and an emergency communication vehicle is used as a guarantee of emergency service requirements, and a chinese patent with application number CN201921875482X discloses a movable base station, and a cabinet (referred to as a communication vehicle in the invention) which is used for quickly transferring the base station from one place to another place and is transferred by the base station (referred to as a communication cabinet in the invention) can be dismounted from the movable platform, that is when the base station is transferred to a new place, the cabinet can be dismounted and placed at the new place, and the cabinet is detachable, so that the cabinet has the following defects when being transferred along with the movable platform:

the operation end of communication cabinet all can have one to two cabinet doors through hinge connection, in order to reach relative theftproof and avoid the illegal operation of non-operating personnel to internal device, often can set up the lock between cabinet door and communication cabinet, utilize the operating means whether closing of this type of lock control cabinet door, need operating personnel to open the lock earlier, then with the cabinet door outwards open with manual rotation's mode from the communication cabinet, adopt the mode of same operation closed the cabinet door again, so loaded down with trivial details operating means, the phenomenon of catching fire appears in communication cabinet all ring edge borders or will bring inconvenience for the transfer when other abrupt finding factors need shift fast, and when proruption nature factor takes place, still there is the potential safety hazard when manual closing the cabinet door.

Disclosure of Invention

Based on the problems, the invention provides a quick-connection mobile base station for 5G communication, which can quickly lock the door of a communication cabinet during transfer, does not influence the convenient maintenance of the communication cabinet, and can ensure that the communication cabinet generates large vibration in the cabin during transfer along with the base station, so that accessories installed in the communication cabinet cannot be damaged due to long-time high-frequency vibration during the transfer process, and the communication cabinet can be separated from a communication vehicle during use when being transferred to a new place, thereby facilitating the maintenance.

In order to achieve the purpose, the invention provides the following technical scheme:

A5G communication connects the movable base station of the formula soon, including the communication car with brake wheel at the bottom, set up in the said communication car in the bracket mechanism and put the communication cabinet on the said bracket mechanism, the operation end box port of the said communication cabinet is articulated to have two door that symmetry each other and can open outwards automatically through the torsional spring type hinge, there are stop gears corresponding to outside of said door on the said bracket mechanism, the bottom of the said bracket mechanism has drive mechanisms, there are first fixed mounts to the opposite side of said door on the said communication cabinet on the said bracket mechanism correspondingly, said first fixed mount is fixed with the starting mechanism, one end of the said drive mechanism is from the bottom transmission of the bracket mechanism to connect to stop gear, the other end of the said drive mechanism is from the bottom transmission of the bracket mechanism to connect to said starting mechanism, make the starting mechanism drive the synchronous forward or reverse rotation of drive mechanism when the power-on work, thus force the drive mechanism to drive the stop gear to make the linear motion in the direction far away from or close to the door, thus make the door on the communication cabinet finish locking or releasing;

bracket mechanism include the top by iron and steel welded bracket with weld in bracket bottom and bottom are located the at least tube that props of communication car everywhere, and the communication cabinet supports on the bracket, is close to all still sliding fit has the inserted bar that can follow its lumen and reciprocate in propping intraductal the symmetry of two places around chamber door one end, the inserted bar transmission in stop gear, stop gear can drive the inserted bar along the lumen downstream of propping the pipe when moving towards the direction of chamber door to and the bottom surface of communication car between form anti-skidding friction effect.

As further preferred: actuating mechanism is including welding the second mount on first mount, installing the motor at second mount top surface middle part, drive mechanism is including fixing bearing, the screw rod of cooperation on the bearing on the bracket bottom surface, stop gear is including corresponding the displacement pole and setting on the screw rod of fitting through the screw thread cover in chamber door outside and middle part position displacement pole top surface both sides just correspond two check lock levers in two chamber door outsides respectively, connect in the screw rod through taking the transmission mode transmission on the output shaft of motor to move towards the direction of chamber door through two check lock levers on driving displacement pole and the displacement pole on the rotatory mode of screw rod, and be used for exerting pressure and make its locking from the outside with the chamber door after closing.

As further preferred: triangular angle steel is arranged between the two box doors and the inner face of the hinged end of the communication cabinet, one face of the angle steel faces towards the box opening of the communication cabinet and is positioned on the same horizontal plane with the box opening of the communication cabinet, and therefore the two box doors are limited on the same plane by the angle steel when being closed.

As further preferred: the bracket is provided with a continuous extending section towards one end of the box door, the extending section is provided with a first sliding groove along the length direction, and the bottom surfaces of the two ends of the displacement rod are provided with sliding rails matched in the first sliding groove in a sliding mode.

As further preferred: the two sides of the top surface of the displacement rod are provided with second sliding grooves which are symmetrical to each other, and the bottom ends of the two locking rods slide in the two second sliding grooves respectively.

As further preferred: a plurality of locking holes are formed in the two box doors from top to bottom, and a plurality of locking columns corresponding to the locking holes are arranged on the two locking rods in the outer sides of the two box doors from top to bottom.

As further preferred: the top of inserted bar is equipped with the wedge lug that is located the stay tube along with it, the bottom of the slide rail at displacement pole both ends respectively is equipped with one and corresponds and is in extend section below and towards the trigger bar that props the extension of tub direction, prop and seted up on the pipe and correspond the socket in the wedge lug outside and towards the trigger bar, the end of trigger bar is equipped with forms the extrusion with the shape of shape lug and forces the inserted bar along the pressure-bearing arch that props tub downstream.

As further preferred: the bottom surface of the communication vehicle is provided with an anti-skid groove corresponding to the inserted bar, and the two sides of the bracket are provided with lifting bars.

Compared with the prior art, the invention has the following beneficial effects:

the communication cabinet is placed on the communication vehicle through a bracket mechanism, when the communication cabinet is transferred to a new base station position along with the communication vehicle for use, the communication cabinet can be detached together with the bracket mechanism, namely the communication cabinet can be conveniently transferred along with the communication vehicle and also can be detached from the vehicle and placed in a new base station environment for continuous use after reaching a new base station point, the bracket mechanism is provided with a locking type positioning structure consisting of a limiting mechanism and a transmission mechanism at the operation end and the other end back to the operation end of the communication cabinet together to replace the existing door lock structure, so that the cabinet door can be quickly opened or closed when the communication cabinet is normally used, when some sudden events occur in the surrounding environment of the base station, the opened cabinet door can be quickly closed by adopting a mode of remotely starting the transmission mechanism and the limiting mechanism, the equipment in the cabinet door can be quickly protected in the first time, the communication vehicle arranged at the bottom can be quickly transferred in the first time, and the cabinet door can be locked in a linkage mode, so that the communication cabinet can be locked on the communication vehicle, the communication cabinet body can be prevented from being shaken when the communication cabinet is closed.

Drawings

Fig. 1 is a schematic structural view of a communication cabinet of the present invention, which is placed on a communication vehicle, and the cabinet door is removed so as to view the angle steel inside the communication cabinet;

fig. 2 is a schematic view of the relationship between the locking lever and the cabinet door of the communication cabinet shown in fig. 1 when the cabinet door is opened (the communication car is removed in the figure);

FIG. 3 is a bottom view from below of the structure shown in FIG. 2;

FIG. 4 is a bottom perspective view of the present invention from FIG. 1

FIG. 5 is a schematic plan view of the insertion rod of the present invention, with a lock tension spring on the top;

FIG. 6 is a schematic structural diagram of the present invention taken from FIG. 1 at a rear view;

FIG. 7 is a schematic view of the communication cabinet of FIG. 1, showing the communication cabinet in a closed state;

fig. 8 is a top plan view of the displacement rod of the present invention for viewing the locking tension spring located in the second sliding slot and connected between the two locking rods.

Description of the main reference numerals:

1. a communication vehicle; 101. an anti-slip groove; 2. a carriage mechanism; 21. a bracket; 211. an extension section; 212. a first chute; 22. supporting a pipe; 221. inserting a rod; 2211. a wedge-shaped projection; 2212. a socket; 3. a communication cabinet; 4. a box door; 41. angle steel; 42. a locking hole; 5. a limiting mechanism; 51. a displacement rod; 511. a slide rail; 5111. a trigger lever; 5112. a pressure bearing bulge; 512. a second chute; 52. a locking lever; 521. a lock cylinder; 6. a transmission mechanism; 61. a bearing; 62. a screw; 7. a first fixing frame; 8. a starting mechanism; 81. a second fixing frame; 82. a motor; 9. lifting the rod; 10. and locking the tension spring.

Detailed Description

The technical solutions of the present invention will be described in detail and fully with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments, but not all embodiments, of the present invention. 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.

In the description of the present invention, it should be noted that the orientations or positional relationships indicated as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., appear based on the orientations or positional relationships shown in the drawings only for the convenience of describing the present invention and simplifying the description, but not for indicating or implying that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be specifically understood by those skilled in the art.

Referring to fig. 1-7, a 5G communication quick-connect mobile base station includes a communication vehicle 1 with casters at the bottom, the structure of the communication vehicle 1 does not exclude that a traction mechanism for driving the communication vehicle to transfer quickly is mounted on the communication vehicle 1, the traction mechanism is, for example, an engine driving the casters to drive the communication vehicle 1 to transfer freely through a belt transmission relationship, and the like. The top of the communication vehicle 1 is provided with the bracket mechanism 2, and the core component communication cabinet 3 of the base station is placed on the bracket mechanism 2, namely, the communication cabinet 3 is not directly placed on the communication vehicle 1, but is placed on the bracket mechanism 2, when the communication vehicle 1 is used for transferring the communication cabinet 3 into a certain environment, or the communication cabinet can be directly used with a vehicle, or the communication cabinet 3 is transferred from the communication vehicle 1 to an installation environment according to installation and power distribution requirements, and the mode of vehicle-mounted transfer and vehicle-mounted use is adopted, when the surrounding environment of the communication cabinet 3 is constructed or other environmental factors are changed, the communication cabinet can be quickly transferred with the vehicle, so that the use is more flexible.

In addition to the above-mentioned features of use, the communication cabinet 3 further changes its specific structure and function, and at first, two doors 4 that are symmetrical to each other and can be automatically opened outward are hinged on the operation port of the communication cabinet 3 through a torsion spring hinge, and the purpose of using the torsion spring hinge (not shown, prior art, also called as torsion spring hinge) is as follows: the door 4 can be automatically rotated outwards from the operation end of the communication cabinet 3 to be opened when the locking limit is lost (for example, the door is locked and closed).

Secondly, a limiting mechanism 5 corresponding to the outer side of the box door 4 is arranged on a bracket mechanism 2 where the communication cabinet 3 is arranged, a transmission mechanism 6 is arranged at the bottom of the bracket mechanism 2, a first fixing frame 7 is arranged on the bracket mechanism 2, the first fixing frame 7 is positioned at one side of the communication cabinet 3 back to the box door 4, a starting mechanism 8 is fixed on the first fixing frame 7, one end of the transmission mechanism 6 is in transmission connection with the limiting mechanism 5 from the bottom of the bracket mechanism 2, and the other end of the transmission mechanism 6 is in transmission connection with the starting mechanism 8 from the bottom of the bracket mechanism 2, so that the starting mechanism 8 drives the transmission mechanism 6 to synchronously rotate forwards or reversely when being electrified to work, the transmission mechanism 6 is forced to drive the limiting mechanism 5 to do linear motion in the direction far away from or close to the box door 4, and the box door 4 is locked or released on the communication cabinet 3 by utilizing whether the limiting mechanism 5 is in relation with the box door 4 or not. The carrier mechanism 2, the limiting mechanism 5, the transmission mechanism 6 and the actuating mechanism 8 will be described in a developed manner.

The bracket mechanism 2 comprises a bracket 21 welded by iron steel at the top and at least four supporting tubes 22 welded at the bottom of the bracket 21 and with the bottom ends located in the communication vehicle 1, the communication cabinet 3 is supported on the bracket 21, and two sides of the bracket 21 are provided with lifting rods 9 for integrally removing the communication cabinet 3 from the communication vehicle 1 along with the bracket mechanism 2. The two symmetrical stay tubes 22 at the front and the back close to one end of the box door 4 are internally provided with the inserted rods 221 which can move up and down along the tube cavities of the stay tubes, the inserted rods 221 are connected with the limiting mechanism 5 in a transmission way, and when the limiting mechanism 5 moves towards the direction of the box door 4, the limiting mechanism can drive the inserted rods 221 to move down along the tube cavities of the stay tubes 22 and form an anti-skid friction effect with the bottom surface of the inner cavity of the communication vehicle 1. The actuating mechanism 8 includes a second fixing frame 81 welded on the first fixing frame 7, and a motor 82 installed in the middle of the top surface of the second fixing frame 81, the transmission mechanism 6 includes a bearing 61 fixed on the bottom surface of the bracket 21, and a screw 62 engaged with the bearing 61, the limiting mechanism 5 includes a displacement rod 51 engaged with the screw 62 through a screw bushing at the middle position corresponding to the outer side of the door 4, and two locking rods 52 disposed at the two sides of the top surface of the displacement rod 51 and corresponding to the outer sides of the two doors 4, respectively, the output shaft of the motor 82 is connected to the screw 62 through a belt transmission manner, so as to drive the displacement rod 51 and the two locking rods 52 on the displacement rod 51 to move toward the door 4 by driving the screw 62 to rotate, and to press and lock the closed door 4 from the outside, a remote module for controlling the motor 82 to work is included in the communication cabinet 3, and a remote control device for realizing remote control with the remote module is provided outside.

The working principle is as follows: when daily operation or maintenance is required to be carried out on devices in the communication cabinet 3, a door lock is not required to be opened, the two box doors 4 can be quickly opened only by a remote control mode in the invention, and the specific operation process is as follows: the remote control device sends a remote signal to a remote module in the communication cabinet 3, so that the remote module sends an instruction to the motor 82 to instruct the motor 82 to work by electrifying the motor 82, the screw 62 is driven to rotate by a belt transmission mode when the motor 82 works by electrifying, the screw 62 moves in the direction away from the communication cabinet 3 by driving the displacement rod 51 matched with the screw 62 by the external thread when rotating, and the slide rail 511 moves stably along the first slide groove 212 when moving, so that the two locking rods 52 on the displacement rod 51 are gradually separated from the outer wall surface of the box door 4, and because the two box doors 4 are hinged on the communication cabinet 3 by the torsion spring type hinge, under the elastic supporting action of the torsion spring of the hinge and the cabinet wall, the two doors 4 whose outer ends are no longer limited are forced to rotate outwards and open, so that it can be seen that the two doors 4 in the present invention are convenient to open quickly, and because the two sides of the top surface of the displacement rod 51 are provided with the second sliding grooves 512 which are symmetrical to each other, the bottom ends of the two locking rods 52 respectively slide in the two second sliding grooves 512, that is, when an operator maintains or operates the devices in the doors, the doors can rotate outwards to open to the maximum extent, and the locking rods 52 on the same side of the doors 4 can slide to the end of the displacement rod 51 along the second sliding grooves 512 by using the pushing force when the doors 4 rotate outwards (as shown in fig. 2), so as to ensure that the locking rods 52 do not form an obstacle effect on the outward rotation opening of the doors 4.

When two doors 4 need to be closed quickly, the displacement rod 51 drives the two locking rods 52 to move towards the communication cabinet 3 by means of the reverse rotation of the remote control command motor 82, and when the two locking rods 52 are driven by the displacement rod 51 to move towards the communication cabinet 3, the two locking rods 52 are restricted from pressing the doors 4, and the displacement rod 51 drives the locking rods 52 to move linearly towards the communication cabinet 3, so that the two locking rods 52 force the two doors 4 to be closed on the communication cabinet 3 again. Especially when the surrounding environment of the base station has an emergency (such as fire, etc.), the mode of quickly closing the box door 4 can prevent the personal safety from being threatened when people approach the cabinet, and can quickly protect the devices in the cabinet. In order to form an inner layer clamping force and an outer layer clamping force when the box door 4 is closed and prevent the box door 4 from vibrating when being transferred along with the cabinet, triangular angle steel 41 is further arranged between the inner surfaces of the hinged ends of the two box doors 4 and the communication cabinet 3, one surface of the angle steel 41 faces towards the box opening of the communication cabinet 3 and is positioned on the same horizontal plane with the box opening of the communication cabinet 3, and therefore when the two box doors 4 are closed, the angle steel 41 is limited on the same plane to enable the two box doors 4 to be closed, and then internal limitation is achieved.

It needs to be further explained that: as shown in fig. 1, 7 and 8, a plurality of locking holes 42 are formed in each of the two doors 4 from top to bottom, a locking extension spring 10 having a tension strength smaller than that of a torsion spring on the hinge is connected between the two locking levers 52, a plurality of locking posts 521 corresponding to the locking holes 42 are respectively disposed on the two locking levers 52 on the outer sides of the two doors 4 from top to bottom, when the two doors 4 are opened, the doors 4 can be rotated outward from the operation end of the communication cabinet 3 under the action of the torsion spring on the hinge, and when the two doors 4 are rotated outward, the outward torsion force of the torsion spring is greater than the tension of the locking extension spring 10, so that the pushing force of the two doors 4 when the two doors 4 are rotated outward can be satisfied as the two locking levers 52 are displaced toward the end of the displacement lever 51 along the second sliding groove 512, so as to open the communication cabinet 3, and when the displacement lever 51 displaces toward the operation end of the communication cabinet 3 with the locking lever 52, the locking lever 52 on the side of the door 4 when the door 4 is opened, the locking lever 52 presses the locking lever 4 along the linear movement direction of the displacement lever 51, and the locking lever 52 is pressed toward the end of the locking lever 521, so that the locking lever 52 is pressed toward the inside of the communication cabinet 4, and the locking lever 4 is pressed by the tension spring 41, and the locking lever 52 is pressed toward the locking lever 4, so that the locking lever 4 is pressed toward the locking lever 52, and the locking lever 4 is pressed toward the locking lever 4, and the locking lever 4 is moved downward direction of the door 4, and the door 4 is pressed toward the door 4, and the locking lever 41, and the door 4 is pressed toward the door 4 is closed, and the door 4 is moved toward the door 4 is closed. Therefore, if the surrounding environment of the base station is in a sudden situation, the communication cabinet 3 can be quickly closed in a remote control mode, and can also be quickly opened when the fire phenomenon happens inside the communication cabinet 3, the whole process does not need manual approach operation, the devices in the communication cabinet 3 can be isolated from the situation factors during quick closing, the devices in the communication cabinet 3 can be exposed during quick opening, so that the safety hidden danger can be quickly solved in the cabinet, and when the communication vehicle 1 is installed in the base station environment for use, the communication vehicle can be quickly transferred from the situation environment.

As shown in fig. 3 and 5: because the two symmetrical support tubes 22 at the front and the rear near one end of the box door 4 are also provided with the inserted rod 221 capable of moving up and down along the tube cavity in a sliding fit manner, the top end of the inserted rod 221 is provided with the wedge-shaped projection 2211 positioned in the support tube 22 along with the inserted rod, the bottom ends of the sliding rails 511 at the two ends of the displacement rod 51 are respectively provided with a trigger rod 5111 which corresponds to the lower part of the extension section 211 and extends towards the direction of the support tube 22, the support tube 22 is provided with the socket 2212 which corresponds to the outer side of the wedge-shaped projection 2211 and faces the trigger rod 5111, the tail end of the trigger rod 5111 is provided with a pressure-bearing projection 5112 which forms extrusion with the wedge-shaped projection 2211, the trigger rod 5111 can force the inserted rod 221 to move downwards along the support tube 22 by extruding the pressure-bearing projection 5112, and the bottom surface of the communication vehicle 1 is provided with the anti-slip groove 101 corresponding to the inserted rod 221. The above objects are achieved by: when the displacement rod 51 moves towards the direction of the communication cabinet 3 and the two locking rods 52 moving along with the displacement rod move to close the box door 4, the sliding rail 511 moving along with the displacement rod 51 can also bring the trigger rod 5111 and the pressure-bearing protrusion 5112 at the tail end of the trigger rod 5111 into the support tube 22 along the socket 2212 and press the wedge-shaped projection 2211 in the support tube 22, and one end of the wedge-shaped projection 2211 facing the pressure-bearing protrusion 5112 is an arc-shaped surface, so that when the pressure-bearing protrusion 5112 contacts with the arc-shaped surface of the wedge-shaped projection 2211 according to the cam contact principle, the wedge-shaped projection 2211 is forced to push the insertion rod 221 to downwards along the support tube 22 into the anti-slip groove 101, and because the anti-slip groove 101 is a structure on the communication vehicle 1, the bracket mechanism 2 can be firmly fixed on the communication vehicle 1 in this way, so that when the communication cabinet 3 placed on the bracket mechanism 2 is transferred along with the communication vehicle 1, besides quickly closing the box door 4 on the communication cabinet 3, the bracket 2 can not freely swing, and the functionality is improved. Of course, the anti-slip groove 101 formed in the communication vehicle 1 may be formed by welding a welded pipe corresponding to the bottom end of the anti-slip groove 101 to the bottom surface of the communication vehicle 1, and inserting the insertion rod 221 into the welded pipe along the anti-slip groove 101 to perform the anti-shaking operation on the carriage mechanism 2.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (8)

1. A5G is fast-connected mobile base station for communication, characterized in that: the communication vehicle comprises a communication vehicle (1) with brake wheels at the bottom, a bracket mechanism (2) arranged in the communication vehicle (1) and a communication cabinet (3) placed on the bracket mechanism (2), wherein two symmetrical and automatically outward-openable box doors (4) are hinged to an operation end box opening of the communication cabinet (3) through torsion spring type hinges, a limiting mechanism (5) corresponding to the outer side of the box door (4) is arranged on the bracket mechanism (2), a transmission mechanism (6) is arranged at the bottom of the bracket mechanism (2), a first fixing frame (7) is arranged on the bracket mechanism (2), the first fixing frame (7) is positioned on one side, opposite to the box door (4), of the communication cabinet (3), a starting mechanism (8) is fixed on the first fixing frame (7), the transmission mechanism (6) is positioned at the bottom of the bracket mechanism (2), one end of the transmission mechanism is connected to the limiting mechanism (5), and the other end of the transmission mechanism (6) is in transmission connection with the starting mechanism (8); bracket mechanism (2) include the top by iron and steel welded bracket (21) with weld in bracket (21) bottom and bottom be located communication car (1) at least branch pipe (22) everywhere, communication cabinet (3) support on bracket (21), all still sliding fit has inserted bar (221) that can follow its lumen and reciprocate in being close to in branch pipe (22) of two symmetries of front and back of chamber door (4) one end, inserted bar (221) are connected in stop gear (5), stop gear (5) can drive inserted bar (221) and move down along the lumen of branch pipe (22) when moving towards the direction of chamber door (4), and form anti-skidding friction effect between the bottom surface with communication car (1).

2. The fast-connect mobile base station for 5G communication according to claim 1, wherein: the starting mechanism (8) comprises a second fixing frame (81) welded on the first fixing frame (7), and a motor (82) installed in the middle of the top surface of the second fixing frame (81), the transmission mechanism (6) comprises a bearing (61) fixed on the bottom surface of the bracket (21), and a screw (62) matched on the bearing (61), the limiting mechanism (5) comprises a displacement rod (51) matched on the screw (62) through a thread sleeve at the outer side and the middle position of the box door (4), two locking rods (52) arranged at two sides of the top surface of the displacement rod (51) and respectively corresponding to the outer sides of the two box doors (4), an output shaft of the motor (82) is in transmission connection with the screw (62) in a belt transmission mode, so that the displacement rod (51) and the two locking rods (52) on the displacement rod (51) are driven to move towards the direction of the box door (4) in a mode of driving the screw (62) to rotate, the closed box door (4) is pressed from the outside and locked, a remote control module for controlling the work of the remote control device is arranged outside, and a remote control module is arranged in the communication cabinet (3).

3. The fast-connect mobile base station for 5G communication according to claim 2, wherein: triangular angle steel (41) is arranged between the inner faces of the hinged ends of the two box doors (4) and the communication cabinet (3), one face of the angle steel (41) faces towards the box opening of the communication cabinet (3) and is positioned on the same horizontal plane with the box opening of the communication cabinet (3), and therefore the two box doors (4) are limited on the same plane by the angle steel (41) when being closed.

4. The fast-connect mobile base station for 5G communication according to claim 2, wherein: an extension section (211) is arranged at one end, facing the box door (4), of the bracket (21), a first sliding groove (212) is formed in the extension section (211) along the length direction of the extension section, and sliding rails (511) matched with the first sliding groove (212) in a sliding mode are arranged on the bottom faces of the two ends of the displacement rod (51).

5. The fast connect mobile base station for 5G communication according to claim 4, wherein: two sides of the top surface of the displacement rod (51) are provided with second sliding grooves (512) which are symmetrical to each other, and the bottom ends of the two locking rods (52) respectively slide in the two second sliding grooves (512).

6. The 5G communication-use quick connect mobile base station as claimed in claim 5, wherein: a plurality of locking holes (42) are formed in each of the two box doors (4) from top to bottom, a locking tension spring (10) with the tensile strength smaller than the torsional strength of a torsion spring on the hinged hinge is connected between the two locking rods (52), and a plurality of locking columns (521) with the number corresponding to the locking holes (42) are arranged on each of the two locking rods (52) from top to bottom.

7. The fast connect mobile base station for 5G communication according to claim 4, wherein: the top of inserted bar (221) is equipped with wedge lug (2211) that is located prop pipe (22), the bottom of slide rail (511) at displacement pole (51) both ends respectively is equipped with one and corresponds in extension section (211) below and towards trigger bar (5111) direction extension, prop and offer socket (2212) that correspond in wedge lug (2211) outside and towards trigger bar (5111) on pipe (22), the end of trigger bar (5111) is equipped with pressure-bearing arch (5112), pressure-bearing arch (5112) are through extrusion wedge lug (2211) with forcing inserted bar (221) along propping pipe (22) downstream.

8. The fast-connect mobile base station for 5G communication according to claim 1, wherein: the bottom surface of the communication vehicle (1) is provided with an anti-skid groove (101) corresponding to the inserted rod (221), and two sides of the bracket (21) are provided with lifting rods (9).

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