CN115388937A

CN115388937A - Environmental monitoring early warning monitoring device

Info

Publication number: CN115388937A
Application number: CN202210799855.XA
Authority: CN
Inventors: 龙彦庆; 卫东锋; 吴勇; 李宁; 张涵奕
Original assignee: Sinohydro Corp Engineering Bureau 15 Co Ltd
Current assignee: Sinohydro Corp Engineering Bureau 15 Co Ltd
Priority date: 2022-07-06
Filing date: 2022-07-06
Publication date: 2022-11-25
Anticipated expiration: 2042-07-06
Also published as: CN115388937B

Abstract

The utility model provides an environmental monitoring early warning monitoring device, relates to environmental monitoring technical field, specifically includes: the bottom mounting mechanism comprises a shell, a first motor is fixedly mounted in the shell, a first bevel gear is fixedly mounted at the output end of the first motor, the first bevel gear is meshed with a plurality of second bevel gears, a threaded shaft is fixedly mounted on one side of each of the second bevel gears, the threaded shaft is rotatably connected with the shell, and the threaded shaft is connected with a support frame which is in sliding connection with the shell; the bearing box is fixedly connected with the shell; the monitoring device is arranged in the bearing box and comprises a lifting mechanism fixedly arranged in the bearing box, the lifting mechanism is connected with a lifting platform, and the lifting platform is connected with a monitoring part through a rotating structure. According to the invention, the monitoring device is installed in the measuring vehicle main body through the bottom installation mechanism, so that the original fixed monitoring is replaced by flexible monitoring, and the accurate monitoring of the area is completed under the condition of not increasing the number of devices.

Description

Environmental monitoring early warning monitoring device

Technical Field

The invention relates to the technical field of environmental monitoring, in particular to an environmental monitoring and early warning monitoring device.

Background

The environmental monitoring means that the environmental quality and the change trend thereof are determined by measuring the representative value of the factors affecting the environmental quality. The main means of environmental monitoring include physical means, chemical means and biological means.

The existing environment monitoring and early warning monitoring device mostly adopts a large-distance fixed installation mode to continuously monitor, the larger the distance between the fixedly installed monitoring devices is, the more inaccurate the obtained environment data between monitoring points are, and the accurate acquisition of the data is influenced.

Therefore, the environmental monitoring and early warning monitoring device is provided for the people in the field to solve the problems in the background.

Disclosure of Invention

The invention aims to provide an environment monitoring, early warning and monitoring device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an environment monitoring early warning monitoring device comprises a vehicle main body, wherein a bottom mounting mechanism is arranged on the vehicle main body and comprises a shell, a first motor is fixedly mounted in the shell, a first bevel gear is fixedly mounted at the output end of the first motor, a plurality of second bevel gears are meshed and connected with the first bevel gears, threaded shafts are fixedly mounted on one sides of the second bevel gears and are rotationally connected with the shell, and the threaded shafts are connected with a supporting frame which is in sliding connection with the shell; fixedly connected with bears the weight of the case on the casing, bear the weight of the case open end and install a plurality of mechanisms that shelter from, install monitoring device in the bearing box, monitoring device includes the lifting mechanism of fixed mounting in bearing the weight of the case, lifting mechanism is connected with the elevating platform, the elevating platform is connected with monitoring portion through rotating-structure.

As a further improvement of the invention: the monitoring part comprises a supporting column connected with a rotating structure, the supporting column is connected with a wind direction measurer through a connecting frame, the supporting column is connected with a wind speed measurer through a connecting frame II, a box body is fixedly mounted on one side of the supporting column, and a carbon dioxide measurer and a humidity measurer are mounted in the box body.

As a further improvement of the invention: the box fixedly connected with a plurality of filter screens, a plurality of fans are fixedly mounted in the box.

As a further improvement of the invention: the lifting mechanism comprises second motors symmetrically installed in the bearing box, fixing frames are fixedly installed on the inner side bearing box of the two second motors, a first lifting frame is connected to the inner sides of the two fixing frames in a sliding mode, a second lifting frame is connected to the inner sides of the two lifting frames in a sliding mode, a lifting platform is fixedly installed between the lower ends of the two lifting frames, a wire wheel is fixedly installed at the output end of the two second motors, one end of a wire on the wire wheel is fixed to a lower end wire post of the first lifting frame, one end of the wire is fixed to the lower end wire post of the fixing frame, and the other end of the wire is fixed to a wire post of the lower end of the two lifting frames after the wire post of the first lifting frame is wound.

As a further improvement scheme of the invention: the rotating structure comprises a third motor fixedly connected with the lifting platform, a rotating platform is fixedly mounted at the output end of the third motor, and the rotating platform is fixedly connected with the supporting column.

As a further improvement scheme of the invention: the shielding mechanism comprises a gear carrier fixedly connected with the bearing box, a gear carrier fixedly connected with column gear is rotatably connected with a rotating frame, a rotating frame fixedly connected with cover plate is fixedly connected with a fourth motor, a driving wheel is fixedly mounted at the output end of the fourth motor, the driving wheel is connected with a driven wheel through a driving belt, the driven wheel is rotatably connected with the rotating frame, the driving belt is fixedly connected with a connecting block, the connecting block is fixedly connected with a rack matched with the column gear, a sliding plate is fixedly connected with the connecting block, and the sliding plate is slidably connected with the cover plate.

As a further improvement scheme of the invention: the support column fixedly connected with lightning rod, the lightning rod is connected with the grounding piece through the wire.

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

when the monitoring device is installed in the vehicle body, the bottom installation mechanism is installed in the hopper by adjusting the width of the bottom installation mechanism, so that the installation of the monitoring device is completed, the position where the monitoring device is not installed is measured along with the change of the position of the vehicle body, the accuracy of the obtained data is increased along with the reduction of the distance between the measurement points, and the monitoring device is installed in the vehicle body in a measuring mode, so that the monitoring device is flexibly replaced by the monitoring device, the monitoring device is flexibly and accurately monitored in the condition that the number of monitoring devices is not increased.

Drawings

FIG. 1 is a schematic structural diagram of the present invention:

FIG. 2 is a partial schematic structural view of the present invention;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a schematic view of the structure at A of the present invention;

FIG. 5 is a schematic structural view of the mounting mechanism 1 of the present invention;

fig. 6 is a schematic view of the internal structure of a case 4046 of the present invention.

In the figure: 1. an installation mechanism; 101. a housing; 102. a first motor; 103. a first bevel gear; 104. a second bevel gear; 105. a threaded shaft; 106. a support frame; 2. a carrying case; 3. a shielding mechanism; 301. a gear carrier; 302. a column gear; 303. a rotating frame; 304. a cover plate; 305. a fourth motor; 306. a drive wheel; 307. a transmission belt; 308. a driven wheel; 309. connecting blocks; 3010. a slide plate; 3011. a rack; 4. a monitoring device; 401. a lifting mechanism; 4011. a second motor; 4012. a wire wheel; 4013. pulling a first wire; 4014. lifting a first frame; 4015. a fixed mount; 4016. a second lifting frame; 4017. pulling a second wire; 402. a lifting platform; 403. a rotating structure; 4031. a third motor; 4032. a rotating table; 404. a monitoring section; 4041. a support pillar; 4042. a first connecting frame; 4043. a first wind direction measurer; 4044. a second connecting frame; 4045. a second wind speed measurer; 4046. a box body; 4047. a carbon dioxide measurer; 4048. a humidity measurer; 4049. filtering with a screen; 40410. a fan; 5. a lightning rod; 6. a wire; 7. a ground block; 8. a solar panel; 9. a vehicle body.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

In one embodiment, referring to fig. 1 to 6, an environmental monitoring and early warning monitoring device includes a vehicle body 9, an independent energy supply device such as an engine or a motor is installed in the vehicle body 9 to drive the vehicle body 9 to move, an bottom mounting mechanism 1 is installed on the vehicle body, the bottom mounting mechanism 1 includes a housing 101, a first motor 102 is fixedly installed in the housing 101, the first motor 102 may preferably be a servo motor or a stepping motor, an output end of the first motor 102 is fixedly installed with a first bevel gear 103, the first bevel gear 103 is in meshing connection with a plurality of second bevel gears 104, the second bevel gears 104 may be two or four, a threaded shaft 105 is fixedly installed on one side of the second bevel gears 104, the threaded shaft 105 is in rotational connection with the housing 101, and the threaded shaft 105 is connected with a support frame 106 in sliding connection with the housing 101; fixedly connected with bearer box 2 on the casing, a plurality of mechanisms 3 that shelter from are installed to the 2 open ends of bearer box, install monitoring device 4 in the bearer box 2, monitoring device 4 includes lifting mechanism 401 of fixed mounting in the bearer box, lifting mechanism 401 is connected with elevating platform 402, elevating platform 402 is connected with monitoring portion 404 through rotating-structure 403.

When the monitoring device is installed, the first motor 102 drives the first bevel gear 103 to rotate, the first bevel gear 103 drives the second bevel gear 104 to rotate, the second bevel gear 104 drives the threaded shaft 105 to rotate, the supporting frames 106 are far away from each other until the supporting frames 106 are abutted to a hopper of the vehicle body 9, so that the monitoring device is stably installed in the vehicle body 9, the vehicle body 9 is stably transferred to the monitoring device 4, the shielding mechanism 3 shields the bearing box 2 to protect the monitoring device 4 in the bearing box 2, when the vehicle body 9 moves to a point to be monitored, the shielding mechanism 3 is opened, the lifting mechanism 401 lifts the monitoring part 404 connected with the rotating structure 403 out of the bearing box 2 through the lifting platform 402 to collect data for environmental monitoring, then the monitoring part 404 is reset, the vehicle body 9 moves to a next point to be monitored, the bottom installation 1 is installed in the hopper by adjusting the width of the bottom installation mechanism 1, so that the installation of the monitoring device 4 is completed, and the installation of the monitoring device 4 is completed in a mode that the position of the vehicle body 9 is changed, the data obtained by adjusting the bottom installation mechanism 1 is accurately installed in the monitoring device, and the installation mechanism is flexibly replaced by the original installation method of the installation device, and the installation device is flexibly installed in the mode that the installation of the installation device without the installation device.

In one aspect of this embodiment, the monitoring unit 404 includes a supporting column 4041 connected to the rotating structure 403, the supporting column 4041 is connected to a first wind direction measurer 4043 through a first connecting frame 4042, the supporting column 4041 is connected to a second wind speed measurer 4045 through a second connecting frame 4044, a box 4046 is fixedly installed on one side of the supporting column 4041, and a carbon dioxide measurer 4047 and a humidity measurer 4048 are installed in the box 4046. The second wind speed measurer 4045, the first wind direction measurer 4043, the carbon dioxide measurer 4047 and the humidity measurer 4048 are used for measuring wind speed, wind direction, carbon dioxide content and humidity respectively.

In one aspect of this embodiment, a plurality of filter screens 4049 of box 4046 fixedly connected with, filter screen 4049 can be two sets of, also can be three sets of, fixed mounting has a plurality of fans 40410 in box 4046, and fan 40410 can be two sets of, also can be three sets of. Under the filtration of filter screen 4049 and the drive of fan 40410, carbon dioxide gauge 4047 and humidity gauge 4048 are not easily covered by sand in the flowing air, which can cause instrument failure.

In one aspect of this embodiment, the lifting mechanism 401 includes second motors 4011 installed symmetrically in the carrier 2, the second motors 4011 may preferably be servo motors, and may also preferably be step motors, fixed mounts 4015 are all fixedly installed on the inner side carrier 2 of the two second motors 4011, first lifting rack 4014 is all slidably connected to the inner sides of the two fixed mounts 4015, second lifting rack 4016 is all slidably connected to the inner sides of the two first lifting rack 4014, a lifting platform 402 is fixedly installed between the lower ends of the two lifting rack 4016, wire wheels 4012 are all fixedly installed at the output ends of the two second motors 4011, the end portion of a first pulling wire 4013 on each wire wheel 4012 is fixed on the lower terminal post of the first lifting rack 4014, one end of each second pulling wire 4017 is fixed on the lower terminal post of the fixed mount 4015, the other end of each pulling wire is fixed on the lower terminal post of the second lifting rack 4016 by bypassing the wire post at the upper end of the first lifting rack 4014, the second motor 4011 drives the wire wheels 4012 to be pulled up and pulled up along the lifting rack 4016, and the lifting rack 4014 is pulled up along the lifting rack 4016, thereby the lifting rack 4016.

In one aspect of this embodiment, the rotating structure 403 includes a third motor 4031 fixedly connected to the lifting platform 402, the third motor 4031 may preferably be a servo motor, and may also preferably be a stepping motor, an output end of the third motor 4031 is fixedly mounted with a rotating platform 4032, and the rotating platform 4032 is fixedly connected to the support column 4041. The third motor 4031 is used to drive the rotation of the rotating table 4032, and the rotating table 4032 adjusts the orientation of the monitoring unit 404.

In one case of this embodiment, the shielding mechanism 3 includes a gear carrier 301 fixedly connected to the carrier 2, the gear carrier 301 is fixedly connected to a column gear 302, the gear carrier 301 is rotatably connected to a rotating frame 303, the rotating frame 303 is fixedly connected to a cover plate 304, the rotating frame 303 is fixedly connected to a fourth motor 305, the fourth motor 305 may preferably be a servo motor or a stepping motor, an output end of the fourth motor 305 is fixedly mounted with a driving wheel 306, the driving wheel 306 is connected to a driven wheel 308 through a driving belt 307, the driven wheel 308 is rotatably connected to the rotating frame 303, the driving belt 307 is fixedly connected to a connecting block 309, the connecting block 309 is fixedly connected to a rack 3011 adapted to the column gear 302, the connecting block 309 is fixedly connected to a sliding plate 3010, and the sliding plate 3010 is slidably connected to the cover plate 304. The fourth motor 305 drives the driving belt 307 to move through the driving wheel 306, the driving belt 307 drives the connecting block 309 to move towards the column gear 302, the connecting block 309 drives the sliding plate 3010 to slide towards the cover plate 304, after the rack 3011 is meshed with the column gear 302, the column gear 302 is fixed along with the gear rack 301, so that the column gear 302 applies a reaction force to the rack 3011, the rack 3011 rotates along the column gear 302, and the rotating rack 303, the cover plate 304, the fourth motor 305, the driving wheel 306, the driving belt 307, the driven wheel 308, the connecting block 309 and the sliding plate 3010 are turned over together, thereby realizing that the shielding mechanism 3 releases shielding of the bearing box 2.

In one aspect of this embodiment, the support posts 4041 are fixedly attached to the solar panel 8. The solar panel 8 is used for converting solar energy to generate electricity.

In one aspect of this embodiment, the supporting post 4041 is fixedly connected with a lightning rod 5, and the lightning rod 5 is connected with a grounding block 7 through a wire 6. The grounding block 7 is grounded, and the lightning rod 5 guides the thunder and lightning power to the ground so as to prevent the lightning-struck grounding block from being damaged when field measurement is carried out.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. An environment monitoring, early warning and monitoring device comprises a vehicle main body and is characterized in that a bottom mounting mechanism is arranged on the vehicle main body and comprises a shell, a first motor is fixedly mounted in the shell, a first bevel gear is fixedly mounted at the output end of the first motor, a plurality of second bevel gears are meshed and connected with the first bevel gear, a threaded shaft is fixedly mounted on one side of each of the second bevel gears and is in rotating connection with the shell, and the threaded shaft is connected with a supporting frame in sliding connection with the shell; the utility model discloses a monitoring device, including bearing case, lifting mechanism, elevating platform, fixed connection has the bearing case on the casing, a plurality of mechanisms of sheltering from are installed to the bearing case open end, install monitoring device in the bearing case, monitoring device includes the lifting mechanism of fixed mounting in the bearing case, lifting mechanism is connected with the elevating platform, the elevating platform is connected with monitoring portion through rotating-structure.

2. The environmental monitoring, early warning and monitoring device according to claim 1, wherein the monitoring portion comprises a support column connected with the rotating structure, the support column is connected with a wind direction measurer through a connecting frame, the support column is connected with a wind speed measurer through a connecting frame II, a box body is fixedly installed on one side of the support column, and a carbon dioxide measurer and a humidity measurer are installed in the box body.

3. The environmental monitoring, pre-warning and monitoring device according to claim 2, wherein the box body is fixedly connected with a plurality of filter screens, and a plurality of fans are fixedly installed in the box body.

4. The environmental monitoring, early warning and monitoring device according to claim 1, wherein the lifting mechanism comprises second motors symmetrically installed in the carrying boxes, fixed frames are fixedly installed on the inner carrying boxes of the two second motors, first lifting frames are slidably connected to the inner sides of the two fixed frames, second lifting frames are slidably connected to the inner sides of the two first lifting frames, a lifting table is fixedly installed between the lower ends of the two second lifting frames, wire wheels are fixedly installed at the output ends of the two second motors, one end of a stay wire on each wire wheel is fixed on a lower terminal post of the first lifting frame, one end of the stay wire is fixed on the lower terminal post of the fixed frame, and the other end of the stay wire is fixed on a terminal post at the lower end of the second lifting frame by bypassing the upper terminal post of the first lifting frame.

5. The environmental monitoring, early warning and monitoring device according to claim 2, wherein the rotating structure comprises a third motor fixedly connected with the lifting platform, a rotating platform is fixedly mounted at an output end of the third motor, and the rotating platform is fixedly connected with the supporting column.

6. The environmental monitoring and early warning monitoring device according to claim 1, wherein the shielding mechanism comprises a gear carrier fixedly connected with the bearing box, a column gear is fixedly connected to the gear carrier, a rotating frame is rotatably connected to the gear carrier, a cover plate is fixedly connected to the rotating frame, a fourth motor is fixedly connected to the rotating frame, a driving wheel is fixedly mounted at an output end of the fourth motor, the driving wheel is connected with a driven wheel through a driving belt, the driven wheel is rotatably connected with the rotating frame, the driving belt is fixedly connected with a connecting block, the connecting block is fixedly connected with a rack matched with the column gear, a sliding plate is fixedly connected with the connecting block, and the sliding plate is slidably connected with the cover plate.

7. The environmental monitoring, early warning and monitoring device according to claim 2, wherein the support column is fixedly connected with a lightning rod, and the lightning rod is connected with a grounding block through a wire.