CN219780407U - Wind measuring micro base station - Google Patents

Abstract

The utility model relates to the technical field of environmental monitoring, in particular to a wind measuring micro base station which comprises a micro base station body, a shell, a detachable connecting assembly, a power generating assembly, a central processing unit, a communication module and a power module, wherein the micro base station body is provided with a plurality of wind measuring grooves; the shell is connected with the micro base station body through a detachable connecting component, and a wind direction measuring component and a wind speed sensor for monitoring wind direction are arranged on the shell; the power generation assembly is arranged in the shell, and the rotating end of the power generation assembly is in transmission connection with the rotating end of the wind speed sensor; the central processing unit, the communication module and the power module are all arranged in the shell; the central processing unit is in communication connection with the wind direction measuring component, the wind speed sensor and the communication module; the power module is electrically connected with the power generation assembly, the central processing unit, the communication module, the wind direction measuring assembly and the wind speed sensor. The micro base station provided by the utility model combines the requirements of urban environment monitoring, and has various functions and convenient use.

Description

Wind measuring micro base station

Technical Field

The utility model relates to the technical field of environmental monitoring, in particular to a wind measuring micro base station.

Background

The 5G base station is core equipment of the 5G network, provides wireless coverage, and realizes wireless signal transmission between the wired communication network and the wireless terminal. The architecture, morphology of the base station directly affects how the 5G network is deployed. The higher the frequency, the greater the attenuation in the signal propagation process, and the higher the base station density of the 5G network will be. The 5G micro base station in the city is generally arranged on the roof, but the existing 5G micro base station can only carry out wireless coverage, so that a wireless signal transmission function between a wired communication network and a wireless terminal is realized, the roof space is occupied, and meanwhile, only the function can be provided, and the function is single.

Disclosure of Invention

The utility model aims to solve the problems in the background technology and provides a wind measuring micro base station.

The technical scheme of the utility model is as follows: a wind-measuring micro base station comprises a micro base station body, a shell, a detachable connecting assembly, a power generation assembly, a central processing unit, a communication module and a power supply module;

the shell is connected with the micro base station body through a detachable connecting component, and a wind direction measuring component and a wind speed sensor for monitoring wind direction are arranged on the shell;

the power generation assembly is arranged in the shell, and the rotating end of the power generation assembly is in transmission connection with the rotating end of the wind speed sensor;

the central processing unit, the communication module and the power module are all arranged in the shell; the central processing unit is in communication connection with the wind direction measuring component and the wind speed sensor, and the central processing unit is in communication connection with the communication module for establishing communication with the background terminal;

the power input end of the power module is electrically connected with the power output end of the power generation assembly, and the power output end of the power module is electrically connected with the central processing unit, the communication module, the wind direction measuring assembly and the wind speed sensor respectively.

Preferably, the detachable connecting assembly comprises a placing frame, a fastening piece and a limiting fixing frame;

the shell is connected with a placing frame, the placing frame stretches across and is sleeved outside two adjacent side end surfaces of the upper end surface of the micro base station body, and a threaded blind hole is formed in the outer peripheral surface of the placing frame; the threaded blind holes are provided with a plurality of blind holes;

the limiting fixing frame stretches across and is sleeved outside the lower end face of the micro base station body and two adjacent side end faces of the micro base station body, and openings for inserting the two ends of the side edges of the placing frame are formed in two sides of the limiting fixing frame; a mounting hole is arranged in the opening; the mounting holes are formed in a plurality of parts;

the fastening piece is provided with a plurality of fastening pieces; each fastening piece sequentially penetrates through the mounting hole and is screwed into the threaded blind hole to form a fixing structure.

Preferably, the placing frame is connected with the limiting fixing frame in a sliding manner.

Preferably, the wind direction measuring component comprises a wind vane, a rotating shaft a, an annular light sensing part and a data processor; a mounting rack is arranged in the shell;

the rotating shaft a is rotationally connected with the shell, one end of the rotating shaft a is connected with the wind vane, the rotating shaft a is L-shaped, the projection of the horizontal end of the rotating shaft a coincides with the projection of the wind vane, the horizontal end of the rotating shaft a is positioned in the shell and above the mounting frame, and the horizontal end of the rotating shaft a is provided with a radial lamp;

the annular light sensing part is arranged on the mounting frame and is positioned right below the ray lamp;

the data processor is arranged on the mounting frame and is in communication connection with the central processing unit.

Preferably, the power generation assembly comprises a generator, an accelerating structure and a rectifying module;

the generator is arranged in the shell and is in transmission connection with the rotating end of the wind speed sensor through the accelerating structure; the generator is electrically connected with the rectifying module; the rectifying module is electrically connected with the power supply module; the rectifying module is installed in the shell.

Preferably, the accelerating structure comprises a large gear and a small gear; the large gear is arranged at the rotating end of the wind speed sensor and is meshed with the small gear; the pinion is mounted on the shaft of the generator.

Preferably, the wind speed sensor is a three-cup type wind speed sensor.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial technical effects:

the micro base station provided by the utility model has the functions of wind direction and wind speed real-time monitoring, the detachable connecting component is convenient for the matching installation of the shell and the cabinet body of the micro base station body on the mounting rack, the wind direction measuring component and the wind speed sensor arranged on the shell can monitor the wind direction and the wind speed in real time, the wind power can be utilized to generate electricity in the wind speed monitoring process so as to improve the endurance capacity of the power supply module, the practicability is greatly improved, and the functions are various to meet the requirements of the multifunctional micro base station.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.

Fig. 2 is a schematic view of the structure of the wind direction measuring assembly of fig. 1.

FIG. 3 is a schematic view of the structure of the wind speed sensor and power generation assembly of FIG. 1 mounted in cooperation.

Reference numerals: 1. a micro base station body; 2. a placing rack; 3. a tightening piece; 4. limiting fixing frame; 5. a housing; 6. a wind direction measurement assembly; 61. a wind vane; 62. a rotating shaft a; 621. a radiation lamp; 63. a data processor; 64. an annular light sensing part; 7. a wind speed sensor; 8. a mounting frame; 9. a central processing unit; 10. a communication module; 11. a large gear; 12. a pinion gear; 13. a generator; 14. and a power supply module.

Detailed Description

Example 1

As shown in fig. 1, the wind measuring micro base station provided by the utility model comprises a micro base station body 1, a shell 5, a detachable connection assembly, a power generation assembly, a central processing unit 9, a communication module 10 and a power supply module 14;

the shell 5 is connected with the micro base station body 1 through a detachable connecting component, and a wind direction measuring component 6 and a wind speed sensor 7 for monitoring wind direction are arranged on the shell 5;

the power generation assembly is arranged in the shell 5, and the rotating end of the power generation assembly is in transmission connection with the rotating end of the wind speed sensor 7;

the central processing unit 9, the communication module 10 and the power module 14 are all arranged in the shell 5; the central processing unit 9 is in communication connection with the wind direction measuring component 6 and the wind speed sensor 7, and the central processing unit 9 is in communication connection with the communication module 10 for establishing communication with the background terminal;

the power input end of the power module 14 is electrically connected with the power output end of the power generation assembly, the power generation assembly is positioned at the power module 14 for supplying power, the power output end of the power module 14 is electrically connected with the central processing unit 9, the communication module 10, the wind direction measuring assembly 6 and the wind speed sensor 7 respectively, and the power module 14 supplies power for the central processing unit 9, the communication module 10, the wind direction measuring assembly 6 and the wind speed sensor 7.

Example two

As shown in fig. 1, in the wind-measuring micro base station according to the present utility model, compared with the first embodiment, the detachable connection assembly includes a placement frame 2, a fastening member 3 and a limiting fixing frame 4;

the shell 5 is connected with the placing frame 2, the placing frame 2 stretches across and is sleeved outside two side end faces adjacent to the upper end face of the micro base station body 1, and a threaded blind hole is formed in the outer peripheral face of the placing frame 2; the threaded blind holes are provided with a plurality of blind holes; the plurality of threaded blind holes are uniformly arranged along the height direction of the placement frame 2;

the limiting fixing frame 4 is sleeved outside two adjacent side end surfaces of the lower end surface of the micro base station body 1 in a crossing way, and openings for inserting two ends of the side edge of the placing frame 2 are formed in two sides of the limiting fixing frame 4; the placing frame 2 is connected with the limiting fixing frame 4 in a sliding way;

a mounting hole is arranged in the opening; the mounting holes are formed in a plurality of parts; the plurality of mounting holes are uniformly arranged along the height direction of the limit fixing frame 4;

the fastening piece 3 is provided with a plurality of fastening pieces; in the matched installation state of the placing frame 2 and the limiting fixing frame 4, the positions of the installation holes and the threaded blind holes matched with the fastening pieces 3 are selected according to the height of the micro base station body 1, and each fastening piece 3 sequentially penetrates through the installation holes and is screwed into the threaded blind holes to form a fixing structure so as to fix the placing frame 2 and the limiting fixing frame 4 on the micro base station body 1;

wherein, the projection shapes of the placing frame 2 and the limiting fixing frame 4 are U-shaped; the width value of the limiting fixing frame 4 is larger than that of the placing frame 2, so that the placing frame 2 can be inserted into openings at two sides of the limiting fixing frame 4 in a sliding mode;

the micro base station body 1 is fixed on a fixing frame on the roof, and the micro base station body 1 comprises a cabinet body and micro base station electric elements installed in the cabinet body, which are not described in detail in the prior art.

Example III

As shown in fig. 1-2, in comparison with the first embodiment, the wind direction measurement assembly 6 of the present embodiment includes a wind vane 61, a rotating shaft a62, an annular light sensing portion 64 and a data processor 63; a mounting rack 8 is arranged in the shell 5;

the rotating shaft a62 is rotationally connected with the shell 5, one end of the rotating shaft a62 is connected with the wind vane 61, the rotating shaft a62 is L-shaped, the projection of the horizontal end of the rotating shaft a62 coincides with the projection of the wind vane 61, the horizontal end of the rotating shaft a62 is positioned in the shell 5 and above the mounting frame 8, and the horizontal end of the rotating shaft a62 is provided with a radial lamp 621; the radiation lamp 621 is powered by the power module 14, and the radiation lamp 621 is powered by a conductive ring in the prior art, which is described in detail;

the annular light sensing part 64 is mounted on the mounting frame 8 and located right below the radiation lamp 621;

the data processor 63 is arranged on the mounting frame 8 and is in communication connection with the central processing unit 9; the data processor 63 is electrically connected to the power module 14, and supplies power to the power module 14.

Under the action of wind force, the rotating shaft a62 and the wind vane 61 rotate, the ray lamp 621 on the rotating shaft a62 vertically projects light onto the annular light sensing part 64 along with rotation, the wind direction signal is sent to the central processing unit 9 according to the sensing point position data processor 63, and the central processing unit 9 sends the received information to the background terminal through the communication module 10.

Example IV

As shown in fig. 1 and fig. 3, in the present embodiment, compared with the first embodiment, the power generation assembly includes a generator 13, an accelerating structure and a rectifying module;

the wind speed sensor 7 is a three-cup type wind speed sensor, and is provided with a rotating shaft b and a rotating connection shell 5; the wind speed sensor 7 is also powered by a power module 14 and is powered by a conductive ring;

the generator 13 is arranged in the shell 5, and the generator 13 is in transmission connection with the rotating end of the wind speed sensor 7 through an accelerating structure; the generator 13 is electrically connected with the rectifying module; the rectifying module is electrically connected with the power module 14 to store the electric energy generated by the generator 13 in the power module 14; the rectifying module is arranged in the shell 5;

the accelerating structure comprises a large gear 11 and a small gear 12; the large gear 11 is arranged on the rotating end of the wind speed sensor 7, namely on the rotating shaft b, and the large gear 11 is meshed with the small gear 12; pinion 12 is mounted on the shaft of generator 13.

The wind speed sensor 7 rotates to drive the large gear 11 and the small gear 12 to rotate, so that the generator 13 can be driven to operate to generate electricity, and generated electric energy can be stored in the power supply module after being processed by the rectifying module, so that the cruising ability of the power supply module is guaranteed.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. A wind-measuring micro base station, which comprises a micro base station body (1); the power generation device is characterized by further comprising a shell (5), a detachable connecting assembly, a power generation assembly, a central processing unit (9), a communication module (10) and a power supply module (14);

the shell (5) is connected with the micro base station body (1) through a detachable connecting component, and a wind direction measuring component (6) and a wind speed sensor (7) for monitoring wind direction are arranged on the shell (5);

the power generation assembly is arranged in the shell (5), and the rotating end of the power generation assembly is in transmission connection with the rotating end of the wind speed sensor (7);

the central processing unit (9), the communication module (10) and the power supply module (14) are all arranged in the shell (5); the central processing unit (9) is in communication connection with the wind direction measuring component (6) and the wind speed sensor (7), and the central processing unit (9) is in communication connection with the communication module (10) for establishing communication with the background terminal;

the power input end of the power module (14) is electrically connected with the power output end of the power generation assembly, and the power output end of the power module (14) is electrically connected with the central processing unit (9), the communication module (10), the wind direction measurement assembly (6) and the wind speed sensor (7) respectively.

2. The wind-measuring micro base station according to claim 1, wherein the detachable connection assembly comprises a placing frame (2), a fastening piece (3) and a limiting fixing frame (4);

the shell (5) is connected with the placing frame (2), the placing frame (2) is transversely sleeved outside two side end faces adjacent to the upper end face of the micro base station body (1), and a threaded blind hole is formed in the outer peripheral face of the placing frame (2); the threaded blind holes are provided with a plurality of blind holes;

the limiting fixing frame (4) is sleeved outside two adjacent side end surfaces of the lower end surface of the micro base station body (1) in a crossing way, and openings for inserting the two ends of the side edges of the placing frame (2) are formed in two sides of the limiting fixing frame (4); a mounting hole is arranged in the opening; the mounting holes are formed in a plurality of parts;

the fastening piece (3) is provided with a plurality of fastening pieces; each fastening piece (3) sequentially penetrates through the mounting hole and is screwed into the threaded blind hole to form a fixing structure.

3. A wind-finding micro base station according to claim 2, characterized in that the placing frame (2) is connected with the limit fixing frame (4) in a sliding way.

4. A wind-micro base station according to claim 1, wherein the wind-direction-measuring assembly (6) comprises a wind vane (61), a rotation shaft a (62), an annular light-sensing part (64) and a data processor (63); a mounting rack (8) is arranged in the shell (5);

the rotating shaft a (62) is rotationally connected with the shell (5), one end of the rotating shaft a (62) is connected with the wind vane (61), the rotating shaft a (62) is L-shaped, the projection of the horizontal end of the rotating shaft a (62) coincides with the projection of the wind vane (61), the horizontal end of the rotating shaft a (62) is positioned in the shell (5) and above the mounting frame (8), and the horizontal end of the rotating shaft a (62) is provided with a radial lamp (621);

the annular light sensing part (64) is arranged on the mounting frame (8) and is positioned right below the ray lamp (621);

the data processor (63) is arranged on the mounting frame (8) and is in communication connection with the central processing unit (9).

5. A wind-micro base station according to claim 1, characterized in that the power generation assembly comprises a generator (13), an accelerating structure and a rectifying module;

the generator (13) is arranged in the shell (5), and the generator (13) is connected with the rotating end of the wind speed sensor (7) through the acceleration structure in a transmission way; the generator (13) is electrically connected with the rectifying module; the rectifying module is electrically connected with the power supply module (14); the rectifying module is arranged in the shell (5).

6. A wind-finding micro base station according to claim 5, characterized in that the accelerating structure comprises a large gear (11) and a small gear (12); the large gear (11) is arranged at the rotating end of the wind speed sensor (7), and the large gear (11) is meshed with the small gear (12); the pinion (12) is mounted on the shaft of the generator (13).

7. The wind-measuring micro base station according to claim 6, wherein the wind speed sensor (7) is a three-cup type wind speed sensor.