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CN-224211280-U - Low-altitude frequency spectrum intelligent monitoring terminal

CN224211280UCN 224211280 UCN224211280 UCN 224211280UCN-224211280-U

Abstract

The utility model relates to the technical field of data acquisition, in particular to a low-altitude frequency spectrum intelligent monitoring terminal, which comprises an unmanned aerial vehicle and a frequency spectrum sensor, and further comprises a plurality of pressing connection mechanisms, wherein the frequency spectrum sensor is hoisted at the bottom of the unmanned aerial vehicle through the plurality of pressing connection mechanisms, each pressing connection mechanism comprises a hanging seat and a pressing rotating piece, the hanging seat is fixedly connected with the bottom of the unmanned aerial vehicle, the pressing rotating piece comprises a limiting seat, a stand column and a rotary driving piece, the limiting seat is fixedly connected with the frequency spectrum sensor, the stand column slides in the limiting seat in the vertical direction, the stand column is elastically connected with the limiting seat, the rotary driving piece is arranged on the stand column, a clamping groove with a T-shaped cross section is formed in the hanging seat, a rectangular opening is formed in the lower end of the clamping groove, a rectangular block is formed in the top of the stand column, and the frequency spectrum sensor is quickly disassembled and assembled through the pressing connection structure, so that the frequency spectrum sensor can be replaced in the later period.

Inventors

  • HAN LU
  • LIU TIANXING
  • DING WEIYANG
  • FENG ZHIYUAN

Assignees

  • 南京星谱智信息科技有限公司

Dates

Publication Date
20260508
Application Date
20250610

Claims (6)

  1. 1. The utility model provides a low latitude frequency spectrum intelligent monitoring terminal, including unmanned aerial vehicle (1) and frequency spectrum perceptron (2), a serial communication port, still include a plurality of press coupling mechanism (3), frequency spectrum perceptron (2) hoist and mount in the bottom of unmanned aerial vehicle (1) through a plurality of press coupling mechanism (3), every press coupling mechanism (3) include hanging seat (4) and press rotating member, hanging seat (4) link firmly with the bottom of unmanned aerial vehicle (1), press rotating member including spacing seat (5), stand (6) and rotary drive spare, spacing seat (5) link firmly with frequency spectrum perceptron (2), stand (6) slide in spacing seat (5) along vertical direction, and stand (6) link to each other with spacing seat (5) elasticity, rotary drive spare is located on stand (6), rotary drive spare is used for driving stand (6) rotatory, be equipped with on hanging seat (4) transversal draw-in groove (7) personally submitting T shape, the lower extreme of draw-in groove (7) is equipped with rectangle opening (8), the top of stand (6) is equipped with can upwards insert rectangular block (9) in draw-in groove (7) through rectangle opening (8).
  2. 2. The low-altitude spectrum intelligent monitoring terminal according to claim 1, wherein the limiting seat (5) comprises a first columnar sleeve (10) and a second columnar sleeve (11), the first columnar sleeve (10) is vertically fixed at the top of the spectrum sensor (2), the second columnar sleeve (11) is coaxially arranged above the first columnar sleeve (10), and a plurality of connecting pins (12) connected with the second columnar sleeve (11) are fixedly arranged on the first columnar sleeve (10).
  3. 3. The low-altitude spectrum intelligent monitoring terminal according to claim 2, wherein the bottom of the first column sleeve (10) is of a closed structure, a vertical spring (13) is arranged in the first column sleeve (10), the lower end of the upright post (6) coaxially penetrates through the second column sleeve (11) and then penetrates into the first column sleeve (10), and the lower end of the upright post (6) presses the spring (13) in the first column sleeve (10).
  4. 4. The low-altitude spectrum intelligent monitoring terminal according to claim 3, wherein four triangular blocks (14) which are in a circumferential array are formed at the top of a first cylindrical sleeve (10), one side edge of the first triangular block (14) is a long inclined surface (15), a groove (16) is formed between two adjacent triangular blocks (14), four triangular blocks (17) which are in a circumferential array are formed at the top of a second cylindrical sleeve (11), a groove (19) is formed between two adjacent triangular blocks (17), and a rotary driving piece comprises two limiting pins (20) which are in symmetrical states, each limiting pin (20) is located between the first cylindrical sleeve (10) and the second cylindrical sleeve (11), and each limiting pin (20) is fixedly connected with a stand column (6).
  5. 5. The low-altitude spectrum intelligent monitoring terminal according to claim 3, wherein a first circular plate (21) is coaxially arranged at the bottom of the upright post (6) in a rotating manner, the spring (13) is arranged below the first circular plate (21), and two ends of the spring (13) are respectively abutted against the bottom of the first circular plate (21) and the inner bottom wall of the first columnar sleeve (10).
  6. 6. The low-altitude spectrum intelligent monitoring terminal according to claim 1, wherein a second circular plate (22) is rotationally arranged in the hanging seat (4), the second circular plate (22) is coaxial with the corresponding upright post (6), a slot (23) which is vertical and penetrates the rectangular block (9) upwards is formed in the upper end of the upright post (6), and a plug pin (24) which is downwards inserted into the slot (23) is coaxially formed at the bottom of the second circular plate (22).

Description

Low-altitude frequency spectrum intelligent monitoring terminal Technical Field The utility model relates to the technical field of data acquisition, in particular to a low-altitude frequency spectrum intelligent monitoring terminal. Background The intelligent low-altitude spectrum monitoring terminal is intelligent monitoring equipment specially designed for the safety of the low-altitude field spectrum, and comprises a spectrum sensing module, an unmanned aerial vehicle monitoring module, an edge fusion module and a power module. The device can realize full-band spectrum data acquisition and analysis through a multi-mode sensing technology. When the low-altitude spectrum intelligent monitoring terminal is installed, the spectrum sensor serving as the spectrum sensing module needs to be fixed on the unmanned aerial vehicle, the traditional installation mode is mainly implemented by adopting screws for fixed installation, and the screw installation ensures the stability of the spectrum sensor, but when the spectrum sensor needs to be replaced, the screws are very troublesome to disassemble and assemble, and dust in the air can fall on the screws when the unmanned aerial vehicle flies, so that acidic substances in the dust can corrode the screws, thereby leading to screw rust and further leading to difficult screw disassembly. Therefore, it is necessary to provide a low-altitude spectrum intelligent monitoring terminal to solve the above problems. Disclosure of utility model The utility model aims to provide a low-altitude frequency spectrum intelligent monitoring terminal. To achieve the purpose, the utility model adopts the following technical scheme: The utility model provides a low latitude frequency spectrum intelligent monitoring terminal, including unmanned aerial vehicle and frequency spectrum perceptron, still include a plurality of and press coupling mechanism, frequency spectrum perceptron is pressed coupling mechanism through a plurality of and is hoisted in unmanned aerial vehicle's bottom, every presses coupling mechanism including the hanging seat and presses the rotating member, the hanging seat links firmly with unmanned aerial vehicle's bottom, press the rotating member to include spacing seat, stand and rotary drive spare, spacing seat links firmly with frequency spectrum perceptron, the stand slides in spacing seat along vertical direction, and stand links to each other with spacing seat elasticity, rotary drive spare is located on the stand, rotary drive spare is used for driving the stand rotation, be equipped with the draw-in groove of transversal personally submitting T shape on the hanging seat, the lower extreme of draw-in groove is equipped with the rectangle opening, the top of stand is equipped with the rectangle piece that can upwards insert in the draw-in groove through the rectangle opening. Preferentially, the limiting seat comprises a first columnar sleeve and a second columnar sleeve, the first columnar sleeve is vertically fixed at the top of the spectrum sensor, the second columnar sleeve is coaxially arranged above the first columnar sleeve, and a plurality of connecting pins connected with the second columnar sleeve are fixedly arranged on the first columnar sleeve. Preferentially, the bottom of the first columnar sleeve is of a closed structure, a vertical spring is arranged in the first columnar sleeve, the lower end of the upright post coaxially penetrates through the second columnar sleeve and then penetrates into the first columnar sleeve, and the lower end of the upright post presses the spring in the first columnar sleeve. Preferentially, the top shaping of a column cover has four triangle pieces that are circumference array, one of them side of triangle piece is a long inclined plane, be equipped with a recess between two adjacent triangle pieces, the top shaping of No. two column covers has four No. two triangle pieces that are circumference array, one of them side of No. two triangle pieces is a long inclined plane No. two, be equipped with No. two recesses between two adjacent triangle pieces, rotary driving piece includes two spacer pins that are symmetrical state, every spacer pin all is located between a column cover and No. two column covers, and every spacer pin all links firmly with the stand. Preferentially, the bottom of the upright post coaxially rotates to be provided with a circular plate, the spring is arranged below the circular plate, and two ends of the spring are respectively abutted against the bottom of the circular plate and the inner bottom wall of the columnar sleeve. Preferentially, the lifting seat is internally provided with a second circular plate in a rotating way, the second circular plate is coaxial with the corresponding upright post, the upper end of the upright post is internally provided with a slot which is vertical and penetrates through the rectangular block upwards, and the bottom of the second circular plate is coaxially p