CN218272711U - Laser anemometry radar intelligent monitoring device based on cloud service - Google Patents

Abstract

The utility model discloses a laser anemometry radar intelligent monitoring device based on cloud in wind-force monitoring field, peg graft on mount pad upper portion radar anemoscope body, radar anemoscope body includes fixing base and second pole, the fixing base is inside through spring movable mounting the second pole, mount pad upper portion fixed connection lead electrical pillar, it passes through another spring movable mounting to lead electrical pillar the closing plate, it has first pole still through another spring movable mounting to lead electrical pillar inside. The utility model discloses lead electrical pillar through another spring movable mounting closing plate, lead the electrical pillar inside still through another spring movable mounting have first pole, first pole movable contact second pole for only install completely to make the second pole can insert and lead electrical pillar in, just can contact with first pole, the base is when not using, and the closing plate is isolated the operation, prevents the short circuit damage.

Description

Laser anemometry radar intelligent monitoring device based on cloud service

Technical Field

The utility model relates to a wind-force monitoring field specifically is a laser anemometry radar intelligent monitoring device based on cloud.

Background

The laser wind measuring radar is an active three-dimensional wind measuring remote sensing radar, adopts a Doppler heterodyne method, measures parameters such as wind speed and wind direction according to Doppler frequency shift of laser back scattering echoes of particulate matters (dust, cloud mist water drops, salt crystals, polluted aerosol, biological combustion aerosol, high-rise cirrus and the like) in air, has the characteristics of small detection blind area, high precision, high stability, small volume, light weight and the like, and is mainly applied to the fields of air pollution tracking, atmospheric research, meteorological climate detection, airport weather detection, wind energy utilization and the like.

The laser wind-finding radar supports measurement modes such as plane position, distance height, vertical profile, continuous fixed sight line and the like, and provides a spatial three-dimensional wind field with high space-time resolution. Compared with a wind profile radar, the laser wind measuring radar has higher detection accuracy on a low-altitude wind field and lower minimum measurable height, can effectively monitor wind shear, low-altitude torrent, clear-air turbulence and other dangerous weather which affect aviation safety, and guarantees the take-off and landing safety of an airplane, for example, a light path adjusting device and the laser wind measuring radar with the application number of CN215116777U, comprise: the wind speed measuring device comprises a laser source, a lens and a light path adjusting module, wherein the light path adjusting module is arranged between the laser source and the lens and used for refracting a laser beam emitted by the laser source to the lens to change the light path of the laser beam, namely, the equivalent light path between the lens and the laser source is changed, so that the wind speed of measured points at different distances can be measured by the laser wind radar more conveniently. The embodiment of the application is widely applied to the technical field of laser wind measuring radars.

However, the traditional laser wind-measuring radar base is poor in waterproof performance and cannot work in rainy days, so that technical personnel in the field provide an intelligent laser wind-measuring radar monitoring device based on cloud service to solve the problems in the background technology.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a laser anemometry radar intelligent monitoring device based on cloud to solve the problem that provides in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a laser anemometry radar intelligent monitoring device based on cloud, includes the mount pad, leads electrical pillar, first pole, closing plate and radar anemoscope body, peg graft on mount pad upper portion radar anemoscope body, radar anemoscope body includes fixing base and second pole, the fixing base is inside through spring movable mounting the second pole, mount pad upper portion fixed connection lead electrical pillar, it is through another spring movable mounting to lead electrical pillar the closing plate, it is inside still through another spring movable mounting first pole to lead electrical pillar, first pole movable contact the second pole.

As a further aspect of the present invention: the mounting base one side fixedly connected with connecting wire, the connecting wire electricity is connected first pole.

As a further aspect of the present invention: the radar anemoscope body further comprises a first motor and a support frame, the first motor is fixedly mounted on the upper portion of the fixing seat, and the output end of the first motor is fixedly connected with the support frame.

As a further aspect of the present invention: the radar anemoscope body further comprises a second motor, a transmission part, a spherical shell and a wind-measuring remote sensing radar, the second motor is fixedly installed inside the support frame, the spherical shell is rotatably installed on the upper portion of the support frame, and the spherical shell is driven to rotate by the second motor through the transmission part.

As a further aspect of the present invention: the wind measuring remote sensing radar is fixedly installed in the spherical shell, the transmission part comprises a rotating shaft, a first rotating wheel, a second rotating wheel and a rotating rod, the rotating shaft is arranged in the second motor, and two ends of the rotating shaft are fixedly connected with the first rotating wheel respectively.

As the utility model discloses further scheme again: the first rotating wheel is connected with the second rotating wheel in a transmission mode through a transmission belt, the second rotating wheel is rotatably installed on the upper portion of the supporting frame, rotating rods are fixedly connected to the inner sides of the two second rotating wheels respectively, and the inner sides of the two rotating rods are fixedly connected with the spherical shell.

As the utility model discloses further scheme again: the wind-measuring remote sensing radar is characterized in that a control panel is fixedly mounted inside the fixing base, a control chip, a data acquisition module and a wireless module are fixedly mounted on the upper portion of the control panel, the control chip is electrically connected with the first motor and the second motor, the control chip is electrically connected with the data acquisition module, the data acquisition module is electrically connected with the wind-measuring remote sensing radar, the control chip is electrically connected with the wireless module, and the wireless module receives chip data information and sends the chip data information to the high in the clouds.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a mount pad upper portion radar anemoscope body of pegging graft, radar anemoscope body includes fixing base and second pole, the inside spring movable mounting second pole that passes through of fixing base, make the user can peg graft radar anemoscope body on the mount pad fast and carry out the electricity through the second pole and connect the transmission, it has first pole through another spring movable mounting closing plate to lead electrical pillar, it has first pole still to lead electrical pillar inside through another spring movable mounting, first pole movable contact second pole, make only anemoscope body installs completely and make the second pole can insert and lead electrical pillar in, just can contact with first pole, the base is when not using, the closing plate completely isolates the operation, prevent short circuit damage.

2. The utility model discloses a mount pad one side fixedly connected with connecting wire, first pole is connected to the connecting wire electricity, can be right the utility model discloses supply power, still include first motor and support frame through radar anemoscope body, the first motor of fixing base upper portion fixed mounting, first motor output fixed connection support frame for the user can rotate by first motor control support frame.

3. The utility model discloses a radar anemoscope body still includes second motor, driving medium, spherical shell and anemometry remote sensing radar, the inside fixed mounting second motor of support frame, and the installation spherical shell is rotated on support frame upper portion, and the second motor rotates through driving medium drive spherical shell, and the inside fixed mounting anemometry remote sensing radar of spherical shell for the user can carry out vertical rotation through second motor control anemometry remote sensing radar.

4. The utility model discloses an inside fixed mounting of fixing base has the control panel, control panel upper portion fixed mounting has control chip, data acquisition module and wireless module, first motor and second motor are connected to the control chip electricity, carry out angle modulation, connect data acquisition module through the control chip electricity, anemometry remote sensing radar is connected to the data acquisition module electricity, data acquisition module gives control chip with data collection transmission, wireless module is connected to the control chip still electricity for wireless module receives chip data information and sends to the high in the clouds.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is an explosion structure diagram of the radar wind meter body of the present invention;

FIG. 3 is a schematic structural view of the mounting base of the present invention;

fig. 4 is a schematic view of the conductive column structure of the present invention;

fig. 5 is a schematic structural view of the internal part of the radar anemometer body of the utility model;

fig. 6 is a schematic diagram of the structure of the control panel of the present invention.

In the figure: 1. a mounting seat; 2. a connecting wire; 3. a conductive post; 4. a first electric pole; 5. a radar anemoscope body; 501. a fixed seat; 502. a first motor; 503. a support frame; 504. a spherical shell; 505. a wind measuring remote sensing radar; 506. a second motor; 507. a rotating shaft; 508. a first runner; 509. a second runner; 510. A rotating rod; 511. a control panel; 512. a control chip; 513. a data acquisition module; 514. a wireless module; 515. a second pole; 6. and (7) sealing the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-6, in the embodiment of the utility model, a laser anemometry radar intelligent monitoring device based on cloud, including mount pad 1, lead electrical pillar 3, first pole 4, closing plate 6 and radar anemoscope body 5, 1 upper portion grafting radar anemoscope body 5 of mount pad, radar anemoscope body 5 includes fixing base 501 and second pole 515, fixing base 501 is inside through spring movable mounting second pole 515, 1 upper portion fixed connection of mount pad leads electrical pillar 3, it passes through another spring movable mounting closing plate 6 to lead electrical pillar 3, it still has first pole 4 through another spring movable mounting to lead electrical pillar 3 inside, 4 movable contact second poles 515 of first pole.

Through 1 upper portion grafting radar anemoscope body 5 of mount pad, radar anemoscope body 5 includes fixing base 501 and second pole 515, fixing base 501 is inside through spring movable mounting second pole 515, make the user can peg graft radar anemoscope body 5 on the mount pad fast and carry out the electricity through second pole 515 and connect the transmission, it has first pole 4 through another spring movable mounting to lead electrical pillar 3, it still has first pole 4 through another spring movable mounting to lead electrical pillar 3 inside, 4 movable contact second poles 515 of first pole, make only anemoscope body installs completely and make second pole 515 can insert and lead electrical pillar 3, could contact with first pole 4, the base is when not using, closing plate 6 completely cuts off the operation, prevent short circuit damage.

In this embodiment, mount pad 1 one side fixedly connected with connecting wire 2, connecting wire 2 electricity are connected first pole 4, and radar anemoscope body 5 still includes first motor 502 and support frame 503, the first motor 502 of fixing base 501 upper portion fixed mounting, first motor 502 output fixed connection support frame 503.

Through 1 one side fixedly connected with connecting wire 2 of mount pad, 2 electricity of connecting wire are connected first pole 4, can be right the utility model discloses supply power, still include first motor 502 and support frame 503 through radar anemoscope body 5, the first motor 502 of fixing base 501 upper portion fixed mounting, first motor 502 output fixed connection support frame 503 for the user can be rotatory by first motor 502 control support frame 503.

In this embodiment, the radar wind meter body 5 further includes a second motor 506, a transmission member, the spherical shell 504 and the wind-measuring remote sensing radar 505, the second motor 506 is fixedly installed inside the supporting frame 503, the spherical shell 504 is rotatably installed on the upper portion of the supporting frame 503, the second motor 506 drives the spherical shell 504 to rotate through the transmission member, the wind-measuring remote sensing radar 505 is fixedly installed inside the spherical shell 504, the transmission member includes a rotating shaft 507, a first rotating wheel 508, a second rotating wheel 509 and a rotating rod 510, the rotating shaft 507 is arranged inside the second motor 506, two ends of the rotating shaft 507 are respectively fixedly connected with the first rotating wheel 508, the first rotating wheel 508 is connected with the second rotating wheel 509 through a transmission belt, the second rotating wheel 509 is rotatably installed on the upper portion of the supporting frame 503, the rotating rods 510 are respectively fixedly connected to the inner sides of the two second rotating wheels 509, and the spherical shell 504 is fixedly connected to the inner sides of the two rotating rods 510.

Through radar anemoscope body 5 still include second motor 506, driving medium, spherical shell 504 and anemometry remote sensing radar 505, the inside fixed mounting second motor 506 of support frame 503, support frame 503 upper portion is rotated and is installed spherical shell 504, second motor 506 rotates through driving medium drive spherical shell 504, the inside fixed mounting anemometry remote sensing radar 505 of spherical shell 504 for the user can carry out vertical rotation through second motor 506 control anemometry remote sensing radar 505.

In this embodiment, a control panel 511 is fixedly mounted inside the fixing base 501, a control chip 512, a data acquisition module 513 and a wireless module 514 are fixedly mounted on the upper portion of the control panel 511, the control chip 512 is electrically connected with the first motor 502 and the second motor 506, the control chip 512 is electrically connected with the data acquisition module 513, the data acquisition module 513 is electrically connected with the wind-measuring remote sensing radar 505, the control chip 512 is further electrically connected with the wireless module 514, and the wireless module 514 receives chip data information and sends the chip data information to the cloud.

There is control panel 511 through the inside fixed mounting of fixing base 501, control panel 511 upper portion fixed mounting has control chip 512, data acquisition module 513 and wireless module 514, first motor 502 and second motor 506 are connected to control chip 512 electricity, carry out angle modulation, connect data acquisition module 513 through control chip 512 electricity, survey wind remote sensing radar 505 is connected to data acquisition module 513 electricity, data acquisition module 513 transmits data collection for control chip 512, control chip 512 still electricity connects wireless module 514, make wireless module 514 receive chip data information and send to high in the clouds.

The utility model discloses a theory of operation is: through 1 upper portion grafting radar anemoscope body 5 of mount pad, radar anemoscope body 5 includes fixing base 501 and second pole 515, fixing base 501 is inside through spring movable mounting second pole 515, make the user can peg graft radar anemoscope body 5 on the mount pad fast and carry out the electricity through second pole 515 and connect the transmission, it has first pole 4 through another spring movable mounting to lead electrical pillar 3, it still has first pole 4 through another spring movable mounting to lead electrical pillar 3 inside, 4 movable contact second poles 515 of first pole, make only anemoscope body installs completely and make second pole 515 can insert and lead electrical pillar 3, could contact with first pole 4, the base is when not using, closing plate 6 completely cuts off the operation, prevent short circuit damage.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a laser anemometry radar intelligent monitoring device based on cloud, includes mount pad (1), leads electrical pillar (3), first pole (4), closing plate (6) and radar anemoscope body (5), its characterized in that: mounting seat (1) upper portion is pegged graft radar anemoscope body (5), radar anemoscope body (5) are including fixing base (501) and second pole (515), fixing base (501) are inside through spring movable mounting second pole (515), mounting seat (1) upper portion fixed connection lead electrical pillar (3), it is through another spring movable mounting to lead electrical pillar (3) closing plate (6), it still has first pole (4) through another spring movable mounting to lead electrical pillar (3) inside, first pole (4) movable contact second pole (515).

2. The intelligent monitoring device for the laser wind-finding radar based on the cloud service is characterized in that: mount pad (1) one side fixedly connected with connecting wire (2), connecting wire (2) electricity is connected first pole (4).

3. The intelligent monitoring device for laser wind finding radar based on cloud service as claimed in claim 1, wherein: the radar anemoscope body (5) further comprises a first motor (502) and a support frame (503), the first motor (502) is fixedly mounted on the upper portion of the fixing seat (501), and the output end of the first motor (502) is fixedly connected with the support frame (503).

4. The intelligent monitoring device for the laser wind-finding radar based on the cloud service is characterized in that: the radar wind meter body (5) further comprises a second motor (506), a transmission piece, a spherical shell (504) and a wind-measuring remote sensing radar (505), the second motor (506) is fixedly installed inside the supporting frame (503), the spherical shell (504) is installed on the upper portion of the supporting frame (503) in a rotating mode, and the second motor (506) drives the spherical shell (504) to rotate through the transmission piece.

5. The intelligent monitoring device for the laser wind-finding radar based on the cloud service is characterized in that: the wind-measuring remote sensing radar (505) is fixedly installed inside the spherical shell (504), the transmission piece comprises a rotating shaft (507), a first rotating wheel (508), a second rotating wheel (509) and a rotating rod (510), the rotating shaft (507) is arranged inside the second motor (506), and two ends of the rotating shaft (507) are fixedly connected with the first rotating wheel (508) respectively.

6. The intelligent monitoring device for the laser wind-finding radar based on the cloud service is characterized in that: the first rotating wheel (508) is connected with the second rotating wheel (509) through transmission of a transmission belt, the second rotating wheel (509) is rotatably installed on the upper portion of the supporting frame (503), rotating rods (510) are fixedly connected to the inner sides of the second rotating wheels (509) respectively, and the inner sides of the two rotating rods (510) are fixedly connected with the spherical shell (504).

7. The intelligent monitoring device for the laser wind-finding radar based on the cloud service is characterized in that: the utility model discloses a wind measurement remote sensing radar, including fixing base (501), fixing base (501) inside fixed mounting has control panel (511), control panel (511) upper portion fixed mounting has control chip (512), data acquisition module (513) and wireless module (514), control chip (512) electricity is connected first motor (502) and second motor (506), control chip (512) electricity is connected data acquisition module (513), data acquisition module (513) electricity is connected wind measurement remote sensing radar (505), control chip (512) still electricity is connected wireless module (514), wireless module (514) are received chip data message sends to the high in the clouds.

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