CN217768956U - Unmanned aerial vehicle detection equipment with passive positioning technology - Google Patents

Abstract

The utility model discloses an unmanned aerial vehicle detection equipment with passive positioning technology, including receiving antenna and anticreep subassembly, the outside below of receiving antenna is provided with quick-witted case for prevent to drop the anticreep subassembly sets up in quick-witted incasement portion, the anticreep subassembly includes anticreep ring, axis of rotation, reset torsion spring, connecting block, connecting rod and wrench movement piece, anticreep ring left side is connected with the axis of rotation, and the axis of rotation both sides are provided with the connecting block, axis of rotation outer wall cover is equipped with reset torsion spring, and axis of rotation one end is connected with the connecting rod, the connecting rod is kept away from axis of rotation one end and is provided with the wrench movement piece. This unmanned aerial vehicle detection equipment with passive positioning technology can effectually avoid the thunder mo net twine to drop and lead to network data can't in time be transmitted, has further ensured the device can carry out real-time control to unmanned aerial vehicle when using, can conveniently install receiving antenna simultaneously, reduces complicated installation procedure, increases equipment self convenience.

Description

Unmanned aerial vehicle detection equipment with passive positioning technology

Technical Field

The utility model relates to an unmanned aerial vehicle field specifically is an unmanned aerial vehicle detection equipment with passive positioning technology.

Background

The unmanned plane is an unmanned plane controlled by radio remote control equipment and a self-contained program control device, or is completely or intermittently and autonomously operated by an on-board computer, and the unmanned plane detection system is an unmanned plane detection system integrating functions of detecting, identifying, positioning an unmanned plane and the like, is mainly suitable for detection of consumption-level 'low, slow and small' unmanned planes, protects important areas such as office places of party and administrative offices, airports, power plants, nuclear power stations and the like, and provides safety guarantee service for major activities such as large-scale competitions, international conferences, festival celebrations and the like.

The current detection equipment has the not good problem of connection port anticreep function, and different equipment transmission data are connected respectively at the connecting wire both ends, if connection port drops, can make data transmission failure, make equipment can't learn the concrete position of unmanned aerial vehicle, to above-mentioned problem, carries out technical innovation on current device basis.

Disclosure of Invention

An object of the utility model is to provide an unmanned aerial vehicle detection equipment with passive positioning technology to solve the problem of proposing in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an unmanned aerial vehicle detection equipment with passive positioning technology, includes receiving antenna and anticreep subassembly, the outside below of receiving antenna is provided with quick-witted case for prevent to drop the anticreep subassembly sets up in quick-witted incasement portion, the anticreep subassembly includes anticreep ring, axis of rotation, reset torsion spring, connecting block, connecting rod and wrench movement piece, anticreep ring left side is connected with the axis of rotation, and the axis of rotation both sides are provided with the connecting block, axis of rotation outer wall cover is equipped with reset torsion spring, and axis of rotation one end is connected with the connecting rod, the connecting rod is kept away from axis of rotation one end and is provided with the wrench movement piece.

Furthermore, the outer wall below the receiving antenna is fixedly provided with a fixing component, and the outer wall is provided with a Raymond wire.

Furthermore, a connecting plug is arranged at one end, far away from the receiving antenna, of the Raymond wire, and a ring groove is formed in the outer wall of the connecting plug.

Furthermore, a network cable interface is arranged on the outer wall of the front end of the case, and a power adapter interface is arranged on the right side of the network cable interface.

Furthermore, a Ramo interface is arranged on the right side of the power adapter interface, and the connecting plug is connected with the case in a clamping mode through the Ramo interface.

Furthermore, the fixing assembly comprises a mounting plate, a positioning block and an anti-slip pad, the positioning block is arranged on the inner side of the mounting plate, and the anti-slip pad is bonded to the top of the positioning block.

Furthermore, the fixed component further comprises a threaded rod and a screwing block, the threaded rod is connected to the bottom side of the positioning block, and the screwing block is arranged at the bottom end of the threaded rod.

Compared with the prior art, the beneficial effects of the utility model are that: the unmanned aerial vehicle detection equipment with the passive positioning technology can effectively avoid that the network data cannot be transmitted in time due to the fact that the Raymond network cable falls off, further guarantees that the unmanned aerial vehicle can be monitored in real time when the unmanned aerial vehicle detection equipment is used, meanwhile, the receiving antenna can be conveniently and fast installed, complex installation processes are reduced, and the convenience of the equipment is improved;

1. the utility model discloses in the thunder mo interface one side install prevent the accessory that the connecting plug drops, can use through rotating the piece of turning round, the operation mode is simple and convenient, can effectually avoid the thunder mo net twine to drop, lead to network data can't be in time transmitted, further ensured that the device can carry out real-time control to unmanned aerial vehicle when using, accord with market demand more;

2. the utility model discloses a fixed subassembly, the mounting panel, the locating piece, the slipmat, the threaded rod and the setting of twisting the piece, installation receiving antenna that can be convenient, when installing receiving antenna, place the avris in desktop or panel class fixed source with the mounting panel, block the locating piece, rotate afterwards and twist the piece, it drives the threaded rod and moves simultaneously to twist the piece, the threaded rod is threaded connection with the mounting panel, so the threaded rod upwards promotes the locating piece, the locating piece surface bonds there is the slipmat, can fix with the panel bottom, prevent wearing and tearing simultaneously, can conveniently effectively install receiving antenna, reduce the complicated installation flow of staff, increase equipment self convenience.

Drawings

Fig. 1 is a schematic view of a front view structure of an unmanned aerial vehicle detection device with passive positioning technology according to the present invention;

fig. 2 is a schematic three-dimensional structure diagram of the fixing component of the unmanned aerial vehicle detection device with passive positioning technology according to the present invention;

fig. 3 is a schematic top view of the anti-drop assembly of the unmanned aerial vehicle detection device with passive positioning technology according to the present invention;

in the figure: 1. a receiving antenna; 2. a fixing assembly; 201. mounting a plate; 202. positioning a block; 203. a non-slip mat; 204. a threaded rod; 205. screwing the block; 3. a Ramo screen wire; 4. a connecting plug; 5. a Remo interface; 6. a chassis; 7. a network cable interface; 8. a power adapter interface; 9. a ring groove; 10. an anti-drop component; 1001. a slip-ring prevention; 1002. a rotating shaft; 1003. a return torsion spring; 1004. connecting blocks; 1005. a connecting rod; 1006. the block is twisted.

Detailed Description

As shown in fig. 1-3, an unmanned aerial vehicle detection device with passive positioning technology, a case 6 is disposed below the outside of a receiving antenna 1, a fixing component 2 is fixedly disposed on the outer wall below the receiving antenna 1, a permanet wire 3 is disposed on the outer wall, a connecting plug 4 is disposed at one end of the permanet wire 3 away from the receiving antenna 1, a ring groove 9 is disposed on the outer wall of the connecting plug 4, a net wire interface 7 is disposed on the outer wall of the front end of the case 6, a power adapter interface 8 is disposed on the right side of the net wire interface 7, a permanet interface 5 is disposed on the right side of the power adapter interface 8, the connecting plug 4 is connected with the case 6 through the permanet interface 5 in a clamping manner, the fixing component 2 comprises a mounting plate 201, a positioning block 202 and a non-slip mat 203, a positioning block 202 is disposed on the inner side of the mounting plate 201, the anti-skid pad 203 is bonded to the top of the positioning block 202, the fixing assembly 2 further comprises a threaded rod 204 and a screwing block 205, the threaded rod 204 is connected to the bottom side of the positioning block 202, the screwing block 205 is arranged at the bottom end of the threaded rod 204, when the receiving antenna 1 is installed, the mounting plate 201 is placed on the side of a desktop or a plate fixing source, the positioning block 202 is clamped, then the screwing block 205 is rotated, the screwing block 205 drives the threaded rod 204 to move simultaneously, the threaded rod 204 is in threaded connection with the mounting plate 201, so that the positioning block 202 is pushed upwards by the threaded rod 204, the anti-skid pad 203 is bonded to the surface of the positioning block 202, the anti-skid pad 203 can be fixed to the bottom of a plate, meanwhile, abrasion is prevented, the receiving antenna 1 is conveniently and effectively installed, the complex installation process of workers is reduced, and the convenience of the equipment is improved;

as shown in fig. 3, the anti-drop assembly 10 for preventing dropping off is disposed inside the chassis 6, the anti-drop assembly 10 includes an anti-drop ring 1001, a rotating shaft 1002, a reset torsion spring 1003, a connecting block 1004, a connecting rod 1005 and a twisting block 1006, the rotating shaft 1002 is connected to the left side of the anti-drop ring 1001, the connecting blocks 1004 are disposed on two sides of the rotating shaft 1002, the reset torsion spring 1003 is sleeved on the outer wall of the rotating shaft 1002, the connecting rod 1005 is connected to one end of the rotating shaft 1002, the twisting block 1006 is disposed on one end of the connecting rod 1005 away from the rotating shaft 1002, an accessory for preventing the connecting plug 4 from dropping off is mounted on one side of the rema connector 5, when the connecting plug 4 at the end of the rema cable 3 is inserted into the rema connector 5, the connecting rod 1005 drives the rotating shaft 1002 to rotate by rotating the twisting block 1006, the anti-drop ring 1001 to rotate counterclockwise, the connecting plug 4 is conveniently inserted, the twisting block 1006 is released afterwards, the rotating shaft 1002 resets the anti-drop ring 1001 through the reset torsion spring 1003, the ring 9 on the outer wall of the connecting plug 4 is engaged with the anti-drop ring, the antenna 1001 can be used, the antenna 1001 can be conveniently and the unmanned aerial vehicle 1001, the unmanned aerial vehicle can be installed, the unmanned aerial vehicle 1001, the unmanned aerial vehicle can be installed conveniently and conveniently, the unmanned aerial vehicle 1001, and conveniently;

the safety monitoring technical method of the general aviation aircraft based on Beidou RNSS/GPSL1 positioning and RDSS and fusion ground cellular network message communication is characterized in that passive positioning equipment is arranged in the case 6, and is quoted in application number CN201610230347.4, so that the ground scheduling system can monitor state information such as the position, the speed and the like of the managed aircraft in real time and command and control the state information.

The working principle is as follows: when the unmanned aerial vehicle detection device with the passive positioning technology is used, an accessory for preventing the connecting plug 4 from falling off is installed on one side of the Remo interface 5, when the connecting plug 4 at the tail end of the Remo network cable 3 is inserted into the Remo interface 5, the connecting rod 1005 is rotated by rotating the twisting block 1006 to drive the rotating shaft 1002 to rotate, the anti-falling ring 1001 rotates anticlockwise to facilitate the connection of the connecting plug 4, the twisting block 1006 is loosened afterwards, the anti-falling ring 1001 is reset by the rotating shaft 1002 through the reset torsion spring 1003, the annular groove 9 on the outer wall of the connecting plug 4 is clamped with the anti-falling ring 1001, and the unmanned aerial vehicle detection device can be used.

Claims (7)

1. The utility model provides an unmanned aerial vehicle detection equipment with passive positioning technology, includes receiving antenna (1) and anticreep subassembly (10), its characterized in that, receiving antenna (1) outside below is provided with quick-witted case (6), is used for preventing to drop anticreep subassembly (10) set up inside quick-witted case (6), anticreep subassembly (10) are including anticreep ring (1001), axis of rotation (1002), reset torsion spring (1003), connecting block (1004), connecting rod (1005) and wrench movement piece (1006), anticreep ring (1001) left side is connected with axis of rotation (1002), and axis of rotation (1002) both sides are provided with connecting block (1004), axis of rotation (1002) outer wall cover is equipped with reset torsion spring (1003), and axis of rotation (1002) one end is connected with connecting rod (1005), axis of rotation (1002) one end is kept away from in connecting rod (1005) is provided with wrench movement piece (1006).

2. The unmanned aerial vehicle detection device with the passive positioning technology as claimed in claim 1, wherein a fixing component (2) is fixedly arranged on an outer wall below the receiving antenna (1), and a Raymond wire (3) is arranged on an outer wall.

3. The unmanned aerial vehicle detection device with the passive positioning technology as claimed in claim 2, wherein a connection plug (4) is disposed at an end of the permanet wire (3) away from the receiving antenna (1), and a ring groove (9) is formed in an outer wall of the connection plug (4).

4. The unmanned aerial vehicle detection device with the passive positioning technology as claimed in claim 1, wherein a network cable interface (7) is arranged on an outer wall of a front end of the case (6), and a power adapter interface (8) is arranged on a right side of the network cable interface (7).

5. The unmanned aerial vehicle detection device with the passive positioning technology as claimed in claim 4, wherein a Ramoph interface (5) is arranged on the right side of the power adapter interface (8), and the connection plug (4) is connected with the case (6) in a clamping manner through the Ramoph interface (5).

6. The unmanned aerial vehicle detection device with passive positioning technology as claimed in claim 2, wherein the fixing assembly (2) comprises a mounting plate (201), a positioning block (202) and a non-slip mat (203), the positioning block (202) is disposed on an inner side of the mounting plate (201), and the non-slip mat (203) is bonded to a top of the positioning block (202).

7. The unmanned aerial vehicle detection device with passive positioning technology as claimed in claim 6, wherein the fixing component (2) further comprises a threaded rod (204) and a screwing block (205), the threaded rod (204) is connected to the bottom side of the positioning block (202), and the screwing block (205) is arranged at the bottom end of the threaded rod (204).

Images