CN111242485A - Comprehensive monitoring method for forest health-care environment - Google Patents
Comprehensive monitoring method for forest health-care environment Download PDFInfo
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Abstract
The invention discloses a comprehensive monitoring method for a forest health-care environment, and belongs to the technical field of forest environment monitoring. The method of the invention comprises the following steps: s100, selecting blocks, namely selecting a plurality of square forest blocks with the area of A square meter; s200, selecting points, wherein the square forest blocks selected in the step S100 are provided with environment detection points; s300, performing point connection, namely networking the environment monitoring points established in the step S200 and establishing a database; s400, analyzing, namely analyzing the data in the database in the step S300 to obtain a forest health-care environment result; s500, visualization, namely performing visualization presentation on the result obtained in the step S400 and uploading the result to a cloud database; s600, sharing is carried out, the cloud database in the step 5400 is associated with the mobile handheld device, a user can conveniently inquire, and the detection result can be visually fed back to a person in need by drawing a forest map model, marking the forest health environment as one of poor, good and excellent in different areas of the model and distinguishing the forest health environment by different colors.
Description
Technical Field
The invention belongs to the technical field of forest environment monitoring, and particularly relates to a comprehensive monitoring method for a forest health-care environment.
Background
The forest health-care environment monitoring refers to the activities of monitoring and measuring the forest environment quality condition by an environment monitoring organization, the environment monitoring is realized by monitoring and measuring indexes reflecting the environment quality to determine the environment pollution condition and the environment quality, the content of the environment monitoring mainly comprises the monitoring of physical indexes, the monitoring of chemical indexes and the monitoring of an ecosystem, the environment monitoring is the basis of scientific management environment and environment law enforcement supervision and is the essential basic work of environment protection, the core target of the environment monitoring is to provide data of the current situation and the change trend of the environment quality, the environment quality is judged, the current main environmental problems are evaluated, and the environment management service is provided. The existing comprehensive monitoring of the forest health environment mainly detects environment data by arranging various detection instruments at fixed points and compares the data records to obtain an environment data structure, but the technical means can not visually and conveniently display the detection result for people in need.
Disclosure of Invention
1. Technical problem to be solved by the invention
The invention aims to solve the problem that the existing comprehensive monitoring of the forest health-care environment is difficult to visually and conveniently display the detection result to people in need.
2. Technical scheme
In order to achieve the purpose, the technical scheme provided by the invention is as follows:
the invention discloses a comprehensive monitoring method for a forest health-care environment, which comprises the following steps:
s100, selecting blocks, namely selecting a plurality of square forest blocks with the area of A square meter;
s200, selecting points, wherein the square forest blocks selected in the step S100 are provided with environment detection points;
s300, performing point connection, namely networking the environment monitoring points established in the step S200 and establishing a database;
s400, analyzing, namely analyzing the data in the database in the step S300 to obtain a forest health-care environment result;
s500, visualization, namely performing visualization presentation on the result obtained in the step S400 and uploading the result to a cloud database;
and S600, sharing, namely associating the cloud database in the step 5400 with the mobile handheld device, so that a user can conveniently inquire.
Preferably, the block selection of step S100 specifically includes: the method comprises the steps of selecting square forest blocks with the area of A square meters in different forest environments respectively, wherein the square forest blocks comprise mountains, swamps, lakes, grasslands and other terrains, the area A is selected according to the terrains, when the terrains are the mountains, the area A ranges from 50 to 100, when the terrains are the swamps, the area A ranges from 30 to 50, when the terrains are the lakes, the area A ranges from 100 to 200, and when the terrains are the grasslands, the area A ranges from 200 to 400.
Preferably, in step S200, the environment detection point is set to be located at a position capable of simultaneously detecting weather, soil, terrain, geology, biology, moisture, tree species, underlying surface, reflected sunlight object, and shadow of an obstacle projected onto the light receiving surface of the instrument in the base station.
Preferably, in step S300, networking and establishing the database specifically includes setting wireless signal transmitters at all environment monitoring points, connecting the database with a wireless signal receiver, transmitting data to the database through the wireless signal transmitters and the wireless signal receiver, and acquiring data by the environment monitoring points every 15S and transmitting data to the database every 3 minutes.
Preferably, in the step S400, the specific process of analyzing is to analyze the environmental data in a past period of time, calculate an average value B every 3 minutes, set an optimal value of the forest health environment health as C, where B divided by C equals D, and when D is less than 0.7, the forest health environment is poor; when D is more than or equal to 0.7 and less than 0.8, the forest health-care environment is poor; when D is more than or equal to 0.8 and less than 0.9, the forest health-care environment is good; when D is more than or equal to 9, the forest health-care environment is excellent.
Preferably, in the step S500, the visualization specifically includes drawing a forest map model, marking the forest health environment as one of poor, good and good on different areas of the model, and distinguishing the forest health environment with different colors.
Preferably, in the step S600, associating the cloud database in the step S500 with the mobile handheld device may be through an APP, an applet, a web page, a short message, or the like.
Preferably, the environment detection point employs the following detection device, and the detection device includes: the equipment body, first cardboard, the nut cover, the connecting plate, the bottom plate, the fixed plate, the reinforcing plate, the rotor plate, the dwang, fixed gear, the roof, the baffle, the spring housing, compression spring, the pull rod, the slip hole, the baffle, the drawing disk, the fresh air inlet, the rotation hole, keep off the dish, the screw hole, the screw thread post, the rubber pad, the second cardboard, the monitoring system control panel, power module, environment receiving module, environment measuring module, environment assessment module, the WIFI module, information transmission module, the atmospheric environment monitor body, water quality monitor body and sound environment monitor body, its characterized in that: the monitoring system comprises an equipment body, and is characterized in that a monitoring system control panel is arranged in the equipment body, a power supply module is arranged on one side of the bottom of the monitoring system control panel, one end of the power supply module is connected with the equipment body through a wire, an environment receiving module is arranged on one side of the top of the monitoring system control panel, the environment receiving module is connected with the power supply module, an environment measuring module is arranged at the center of the bottom of the monitoring system control panel, an environment assessment module is arranged at the center of the top of the monitoring system control panel, the environment receiving module, the environment measuring module and the environment assessment module are connected through signal lines, a WIFI module is arranged on the other side of the bottom of the monitoring system control panel, an information transmission module is arranged on the other side of the top of the monitoring system control panel, the environment assessment, The water quality monitor comprises a water quality monitor body and an acoustic environment monitor body, wherein the atmospheric environment monitor body, the water quality monitor body and the acoustic environment monitor body are connected with an environment measuring module through signal wires, a reinforcing plate is welded at the center of the bottom of the equipment body, rotating plates are welded at the two sides of the center of the bottom of the reinforcing plate, rotating rods are welded inside the rotating plates, a fixed plate is sleeved outside the center of the rotating rods, a rotating hole is formed in the center of the top of the fixed plate and sleeved outside the rotating rods, a bottom plate is welded at the bottom of the fixed plate, a partition plate is welded at the center of one end of the fixed plate, a sliding hole is formed in the center of the partition plate, a pull rod is sleeved inside the sliding hole, a baffle is welded at the top of the pull rod, a top plate is welded at the, the baffle bottom all has the spring housing through the screw fixation with the baffle top, the inside compression spring that has cup jointed of spring housing, and compression spring is located the pull rod both sides, the welding of pull rod bottom has the drawing dish, and draws the dish to be located the baffle bottom, the welding of bottom plate one end has the connecting plate, the welding of connecting plate one end has the second cardboard, the welding of connecting plate one side has the screw thread post, first cardboard has been cup jointed to screw thread post one end, first cardboard all bonds with the second cardboard inner wall and has the rubber pad, threaded hole has been seted up to first cardboard bottom, and the screw hole cup joints in the screw thread post outside, screw thread post one end has cup jointed the nut cover, and the nut cover is located first cardboard one side.
Preferably, the atmospheric environment monitor body measures air temperature, humidity, wind direction, wind speed, atmospheric radiation, atmospheric pressure, negative oxygen ions, PM2.5、PM10、TSP、O3、CO、SO2、NO2And the water quality monitor body dissolves and measures the data of oxygen, chemical oxygen demand, five-day biochemical oxygen demand, ammonia nitrogen, total phosphorus, total nitrogen, copper, zinc, fluoride, selenium, arsenic, mercury, cadmium, chromium (hexavalent), lead, cyanide, volatile phenol, anionic surfactant, sulfide, faecal coliform and the like.
3. Advantageous effects
Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:
the invention discloses a comprehensive monitoring method for a forest health-care environment, which comprises the following steps: s100, selecting blocks, namely selecting a plurality of square forest blocks with the area of A square meter; s200, selecting points, wherein the square forest blocks selected in the step S100 are provided with environment detection points; s300, performing point connection, namely networking the environment monitoring points established in the step S200 and establishing a database; s400, analyzing, namely analyzing the data in the database in the step S300 to obtain a forest health-care environment result; s500, visualization, namely performing visualization presentation on the result obtained in the step S400 and uploading the result to a cloud database; s600, sharing is carried out, the cloud database in the step 5400 is associated with the mobile handheld device, a user can conveniently inquire, and the detection result can be visually fed back to a person in need by drawing a forest map model, marking the forest health environment as one of poor, good and excellent in different areas of the model and distinguishing the forest health environment by different colors.
Drawings
FIG. 1 is a flow chart of a comprehensive monitoring method for forest health care environment according to the present invention;
FIG. 2 is a schematic diagram of the overall structure of a detection device of the comprehensive monitoring method for forest health environment of the present invention;
FIG. 3 is a side view of the overall structure of the detection device of the comprehensive forest health environment monitoring method of the present invention;
FIG. 4 is an enlarged view of a fixing plate of the detection device of the comprehensive forest health environment monitoring method of the present invention;
FIG. 5 is a front view of the overall structure of the detection device of the comprehensive monitoring method for forest health environment of the present invention;
FIG. 6 is an enlarged view of a part of a bottom plate diagram of the detection equipment of the comprehensive forest health environment monitoring method;
FIG. 7 is a schematic structural diagram of a monitoring system control board of the detection device of the comprehensive forest health environment monitoring method of the invention;
FIG. 8 is a sectional view of a detection device of the comprehensive forest health environment monitoring method of the present invention.
The reference numerals in the schematic drawings illustrate:
1. a monitoring system body; 2. a first clamping plate; 3. a nut sleeve; 4. a connecting plate; 5. a base plate; 6. a fixing plate; 7. a reinforcing plate; 8. a rotating plate; 9. rotating the rod; 10. fixing a gear; 11. a top plate; 12. a baffle plate; 13. a spring housing; 14. a compression spring; 15. a pull rod; 16. a slide hole; 17. a partition plate; 18. pulling the disc; 19. an air inlet hole; 20. rotating the hole; 21. a catch tray; 22. a threaded hole; 23. a threaded post; 24. a rubber pad; 25. a second clamping plate; 26. monitoring a system control panel; 27. a power supply module; 28. an environment receiving module; 29. an environment measurement module; 30. an environment evaluation module; 31. a WIFI module; 32. an information transmission module; 33. an atmospheric environment monitor body; 34. a water quality monitor body; 35. an acoustic environment monitor body.
Detailed Description
In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in many different forms and are not limited to the embodiments described herein, but rather are provided for the purpose of providing a more thorough disclosure of the invention.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present; when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present; the terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
Example 1
Referring to fig. 1-8, the method for comprehensively monitoring the forest health-preserving environment of the embodiment includes:
s100, selecting blocks, namely selecting a plurality of square forest blocks with the area of A square meter;
s200, selecting points, wherein the square forest blocks selected in the step S100 are provided with environment detection points;
s300, performing point connection, namely networking the environment monitoring points established in the step S200 and establishing a database;
s400, analyzing, namely analyzing the data in the database in the step S300 to obtain a forest health-care environment result;
s500, visualization, namely performing visualization presentation on the result obtained in the step S400 and uploading the result to a cloud database;
and S600, sharing, namely associating the cloud database in the step 5400 with the mobile handheld device, so that a user can conveniently inquire.
The block selection in step S100 in this embodiment is specifically: the square forest block with the area of A square meter is selected in different forest environments respectively and comprises mountain land, marsh, lakes, grasslands and other terrains, the area A is selected according to the terrains, when the terrains are mountain land, the area A ranges from 50 to 100, when the terrains are marsh, the area A ranges from 30 to 50, when the terrains are lakes, the area A ranges from 100 to 200, and when the terrains are grasslands, the area A ranges from 200 to 400.
In step S200 of this embodiment, the environmental detection point is set to be able to detect weather, soil, terrain, geology, creatures, moisture, tree species, underlying surface, reflected sunlight object, and shadow of obstacle projected on the light receiving surface of the instrument in the base station at the same time.
In step S300 of this embodiment, networking and establishing the database specifically includes setting wireless signal transmitters at all environment monitoring points, connecting the database with wireless signal receivers, transmitting data to the database through the wireless signal transmitters and the wireless signal receivers, and acquiring data by the environment monitoring points every 15S and transmitting data to the database every 3 minutes.
In step S400 of this embodiment, the specific process of analysis is to analyze environmental data in a past period of time, calculate an average value B every 3 minutes, set an optimal value of health of the forest health environment as C, where B divided by C equals D, and when D is less than 0.7, the forest health environment is poor; when D is more than or equal to 0.7 and less than 0.8, the forest health-care environment is poor; when D is more than or equal to 0.8 and less than 0.9, the forest health-care environment is good; when D is more than or equal to 9, the forest health-care environment is excellent.
In step S500 of this embodiment, the visualization specifically includes that the forest map model is drawn, the forest health environment is marked in different areas of the model as one of poor, good and good, and the forest health environment is distinguished by different colors, so that the monitoring result can be visually fed back to the people in need.
In step S600 of this embodiment, associating the cloud database in step S500 with the mobile handheld device may be through an APP, an applet, a web page, a short message, or others.
The environment detection point of this embodiment adopts following check out test set, and check out test set includes: equipment body 1, first cardboard 2, nut cover 3, connecting plate 4, bottom plate 5, fixed plate 6, reinforcing plate 7, rotor plate 8, dwang 9, fixed gear 10, roof 11, baffle 12, spring housing 13, compression spring 14, pull rod 15, slide opening 16, baffle 17, drawing disk 18, fresh air inlet 19, rotation hole 20, drawing disk 21, screw hole 22, threaded column 23, rubber pad 24, second cardboard 25, monitoring system control panel 26, power module 27, environment receiving module 28, environment measuring module 29, environment evaluation module 30, WIFI module 31, information transmission module 32, atmospheric environment monitor body 33, water quality monitor body 34 and acoustic environment monitor body 35, its characterized in that: a monitoring system control board 26 is arranged in the device body 1, a power supply module 27 is arranged on one side of the bottom of the monitoring system control board 26, one end of the power supply module 27 is connected with the device body 1 through a lead, an environment receiving module 28 is arranged on one side of the top of the monitoring system control board 26, the environment receiving module 28 is connected with the power supply module 27, an environment measuring module 29 is arranged at the center of the bottom of the monitoring system control board 26, an environment evaluating module 30 is arranged at the center of the top of the monitoring system control board 26, the environment receiving module 28, the environment measuring module 29 and the environment evaluating module 30 are connected through signal lines, a WIFI module 31 is arranged on the other side of the bottom of the monitoring system control board 26, an information transmission module 32 is arranged on the other side of the top of the monitoring system control board 26, and the, an atmospheric environment monitor body 33, a water quality monitor body 34 and an acoustic environment monitor body 35 are arranged inside the equipment body 1, the atmospheric environment monitor body 33, the water quality monitor body 34 and the acoustic environment monitor body 35 are connected with an environment measuring module 29 through signal lines, a reinforcing plate 7 is welded at the center of the bottom of the equipment body 1, rotating plates 8 are welded at two sides of the center of the bottom of the reinforcing plate 7, a rotating rod 9 is welded inside the rotating plate 8, a fixing plate 6 is sleeved outside the center of the rotating rod 9, a rotating hole 20 is formed at the center of the top of the fixing plate 6, the rotating hole 20 is sleeved outside the rotating rod 9, a bottom plate 5 is welded at the bottom of the fixing plate 6, a partition plate 17 is welded at the center of one end of the fixing plate 6, a sliding hole 16 is formed at the center of the partition plate 17, the top of the baffle 12 is welded with a top plate 11, the bottom of the rotating plate 8 is welded with a fixed gear 10, the fixed gear 10 is positioned at the top of the top plate 11, the bottom of the baffle 12 and the top of the clapboard 17 are both fixed with spring sleeves 13 through screws, the spring sleeves 13 are sleeved with compression springs 14, the compression springs 14 are positioned at two sides of the pull rod 15, the pull disc 18 is welded at the bottom of the pull rod 15, the pull disc 18 is positioned at the bottom of the partition plate 17, the connecting plate 4 is welded at one end of the bottom plate 5, the second clamping plate 25 is welded at one end of the connecting plate 4, the threaded column 23 is welded at one side of the connecting plate 4, the first clamping plate 2 is sleeved at one end of the threaded column 23, rubber pads 24 are bonded on the inner walls of the first clamping plate 2 and the second clamping plate 25, the threaded hole 22 is formed at the bottom of, and the threaded hole 22 is sleeved outside the threaded column 23, one end of the threaded column 23 is sleeved with the nut sleeve 3, and the nut sleeve 3 is positioned on one side of the first clamping plate 2.
The atmospheric environment monitor body 33 of the present embodiment measures air temperature, humidity, wind direction, wind speed, atmospheric radiation, atmospheric pressure, negative oxygen ions, PM2.5、PM10、TSP、O3、CO、SO2、NO2And the water quality monitor body 34 is used for dissolving and measuring oxygen, chemical oxygen demand, five-day biochemical oxygen demand, ammonia nitrogen, total phosphorus, total nitrogen, copper, zinc, fluoride, selenium, arsenic, mercury, cadmium, chromium (hexavalent), lead, cyanide, volatile phenol, anionic surfactant, sulfide, faecal coliform and the like.
The above-mentioned embodiments only express a certain implementation mode of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, variations and modifications can be made without departing ┅ from the inventive concept, which falls within the scope of the invention; therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (9)
1. A comprehensive monitoring method for a forest health-care environment is characterized by comprising the following steps:
s100, selecting blocks, namely selecting a plurality of square forest blocks with the area of A square meter;
s200, selecting points, wherein the square forest blocks selected in the step S100 are provided with environment detection points;
s300, performing point connection, namely networking the environment monitoring points established in the step S200 and establishing a database;
s400, analyzing, namely analyzing the data in the database in the step S300 to obtain a forest health-care environment result;
s500, visualization, namely performing visualization presentation on the result obtained in the step S400 and uploading the result to a cloud database;
and S600, sharing, namely associating the cloud database in the step 5400 with the mobile handheld device, so that a user can conveniently inquire.
2. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 1, wherein the selection blocks of the step S100 are specifically: the method comprises the steps of selecting square forest blocks with the area of A square meters in different forest environments respectively, wherein the square forest blocks comprise mountains, swamps, lakes, grasslands and other terrains, the area A is selected according to the terrains, when the terrains are the mountains, the area A ranges from 50 to 100, when the terrains are the swamps, the area A ranges from 30 to 50, when the terrains are the lakes, the area A ranges from 100 to 200, and when the terrains are the grasslands, the area A ranges from 200 to 400.
3. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 1, wherein the comprehensive monitoring method comprises the following steps: in step S200, the environment detection point is set to be able to detect weather, soil, terrain, geology, biology, moisture, tree species, underlying surface, reflected sunlight object, and shadow of obstacle projected on the light receiving surface of the instrument in the base station at the same time.
4. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 1, wherein the comprehensive monitoring method comprises the following steps: in the step S300, networking and establishing the database specifically include setting wireless signal transmitters at all environment monitoring points, connecting the database with wireless signal receivers, transmitting data to the database through the wireless signal transmitters and the wireless signal receivers, and acquiring data every 15 seconds and transmitting data every 3 minutes to the database by the environment monitoring points.
5. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 1, wherein the comprehensive monitoring method comprises the following steps: in the step S400, the specific process of analysis is to analyze the environmental data in the past period of time, calculate an average value B every 3 minutes, set the optimal value of the forest health environment health as C, divide C by C to be equal to D, and when D is less than 0.7, the forest health environment is poor; when D is more than or equal to 0.7 and less than 0.8, the forest health-care environment is poor; when D is more than or equal to 0.8 and less than 0.9, the forest health-care environment is good; when D is more than or equal to 9, the forest health-care environment is excellent.
6. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 1, wherein the comprehensive monitoring method comprises the following steps: in the step S500, the visualization specifically includes drawing a forest map model, marking the forest health environment as one of poor, good and excellent on different areas of the model, and distinguishing the forest health environment by using different colors.
7. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 1, wherein the comprehensive monitoring method comprises the following steps: in step S600, associating the cloud database in step S500 with the mobile handheld device may be through an APP, an applet, a web page, a short message, or the like.
8. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 3, wherein the environment detection point adopts the following detection equipment, and the detection equipment comprises: the device comprises a device body (1), a first clamping plate (2), a nut sleeve (3), a connecting plate (4), a bottom plate (5), a fixing plate (6), a reinforcing plate (7), a rotating plate (8), a rotating rod (9), a fixed gear (10), a top plate (11), a baffle plate (12), a spring sleeve (13), a compression spring (14), a pull rod (15), a sliding hole (16), a partition plate (17), a pull disc (18), an air inlet hole (19), a rotating hole (20), a baffle disc (21), a threaded hole (22), a threaded column (23), a rubber pad (24), a second clamping plate (25), a monitoring system control plate (26), a power supply module (27), an environment receiving module (28), an environment measuring module (29), an environment evaluating module (30), a WIFI module (31), an information transmission module (32), an atmospheric environment monitor body (33), a water quality monitor body (34) and a sound environment monitor body (35, the method is characterized in that: the monitoring system is characterized in that a monitoring system control panel (26) is arranged in the equipment body (1), a power module (27) is arranged on one side of the bottom of the monitoring system control panel (26), one end of the power module (27) is connected with the equipment body (1) through a lead, an environment receiving module (28) is arranged on one side of the top of the monitoring system control panel (26), the environment receiving module (28) is connected with the power module (27), an environment measuring module (29) is arranged at the center of the bottom of the monitoring system control panel (26), an environment evaluating module (30) is arranged at the center of the top of the monitoring system control panel (26), the environment receiving module (28), the environment measuring module (29) and the environment evaluating module (30) are connected through signal lines, a WIFI module (31) is arranged on the other side of the bottom of the monitoring system control panel (26), and an information transmission module (32) is arranged on, and the environment assessment module (30), the WIFI module (31) and the information transmission module (32) are connected through signal lines, the inside of the equipment body (1) is provided with an atmospheric environment monitor body (33), a water quality monitor body (34) and a sound environment monitor body (35), the atmospheric environment monitor body (33), the water quality monitor body (34) and the sound environment monitor body (35) are connected with the environment measurement module (29) through signal lines, the center of the bottom of the equipment body (1) is welded with a reinforcing plate (7), the two sides of the center of the bottom of the reinforcing plate (7) are both welded with rotating plates (8), the inside of each rotating plate (8) is welded with a rotating rod (9), the outer side of the center of the rotating rod (9) is sleeved with a fixing plate (6), the center of the top of the fixing plate (6) is provided with a rotating hole (20, and the rotating hole (20) is sleeved outside the rotating rod (9), the bottom plate (5) is welded at the bottom of the fixed plate (6), the partition plate (17) is welded at the center of one end of the fixed plate (6), the sliding hole (16) is arranged at the center of the partition plate (17), the pull rod (15) is sleeved inside the sliding hole (16), the baffle (12) is welded at the top of the pull rod (15), the top plate (11) is welded at the top of the baffle (12), the fixed gear (10) is welded at the bottom of the rotating plate (8), the fixed gear (10) is positioned at the top of the top plate (11), the spring sleeve (13) is fixed at the bottom of the baffle (12) and the top of the partition plate (17) through screws, the compression spring (14) is sleeved inside the spring sleeve (13), the compression spring (14) is positioned at two sides of the pull rod (15), the pull disc (18), and draw set (18) to be located baffle (17) bottom, bottom plate (5) one end welding has connecting plate (4), connecting plate (4) one end welding has second cardboard (25), connecting plate (4) one side welding has screw thread post (23), screw thread post (23) one end has cup jointed first cardboard (2), rubber pad (24) have all been bonded with second cardboard (25) inner wall in first cardboard (2), threaded hole (22) have been seted up to first cardboard (2) bottom, and screw hole (22) cup joint in the screw thread post (23) outside, nut cover (3) have been cup jointed to screw thread post (23) one end, and nut cover (3) are located first cardboard (2) one side.
9. The comprehensive monitoring method for the forest health-preserving environment as claimed in claim 8, wherein the comprehensive monitoring method comprises the following steps: the atmospheric environment monitor body (33) measures air temperature, humidity, wind direction, wind speed, atmospheric radiation, atmospheric pressure, negative oxygen ions and PM2.5、PM10、TSP、O3、CO、SO2、NO2And the water quality monitor body (34) dissolves and measures the data of oxygen, chemical oxygen demand, five-day biochemical oxygen demand, ammonia nitrogen, total phosphorus, total nitrogen, copper, zinc, fluoride, selenium, arsenic, mercury, cadmium, chromium (hexavalent), lead, cyanide, volatile phenol, anionic surfactant, sulfide, faecal coliform and the like.
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