CN212391293U

CN212391293U - Environment detection device for hydraulic engineering

Info

Publication number: CN212391293U
Application number: CN202021106128.3U
Authority: CN
Inventors: 不公告发明人
Original assignee: Sichuan Shengfeng Construction Engineering Co ltd
Current assignee: Sichuan Shengfeng Construction Engineering Co ltd
Priority date: 2020-06-16
Filing date: 2020-06-16
Publication date: 2021-01-22
Anticipated expiration: 2030-06-16

Abstract

The utility model belongs to the technical field of environment detection devices, in particular to an environment detection device for hydraulic engineering, which comprises a whole device, a top detection mechanism, a bottom support part and a bottom plate, wherein the top of the whole device is fixedly connected with the top detection mechanism, two sides of the top end of the top detection mechanism are fixedly connected with a solar panel, two ends of the solar panel are fixedly connected with a triangular separation net, the middle periphery of the top detection mechanism is fixedly connected with a fixing ring, the bottom of the whole device is fixedly connected with the bottom support part which is arranged at the bottom of the whole device, the bottom support part is fixedly connected with the whole device, the bottom support part can support the device on the water surface, and can collect water with different depths under water and adjust the collected water volume, and the support is stable when the device floats by arranging six floating blocks and a balancing weight holding, set up the sampling tube and come to take a sample to the water of the different degree of depth, and adjustable sample capacity improves the detection sample work convenience of water.

Description

Environment detection device for hydraulic engineering

Technical Field

The utility model belongs to the technical field of the environment measuring device, specifically be an environment measuring device for hydraulic engineering falls.

Background

With the rapid development of economy, the living environment of people is greatly influenced, the environmental protection work cannot be slow, the water conservancy project seems to be irrelevant to people, and is really closely related to the life of people, water is a source of life, and the quality of life is determined by the quality of water, so people pay attention to the quality of water, medium objects for environment detection can be roughly divided into water quality detection, air detection, soil detection, solid waste detection, biological detection, noise and vibration detection, electromagnetic radiation detection, radioactivity detection, heat detection, light detection, sanitation (pathogens, viruses, parasites and the like) detection and the like, the environment is very important for human beings, but the environmental pollution is also important at present, the environment detection is also an essential part, and the improvement is also continuous for the part.

Current environment measuring device for hydraulic engineering samples inconveniently, and the detection effect is not good, is not convenient for take a sample rainwater and surface water, and current environment measuring device for hydraulic engineering does not have the showy part of steady supporting device, and the device sample rocks easily, and equipment is infected with by impurity easily during empty gas detection, influences the testing result, and the device is not enough perfect, is difficult to satisfy modern society's demand.

Therefore, how to design an environment detection device for hydraulic engineering becomes a problem that needs to be solved currently.

Disclosure of Invention

An object of the utility model is to provide an environment measuring device for hydraulic engineering to it is inconvenient to propose the sample in solving above-mentioned background art, the not good problem of detection effect.

In order to achieve the above object, the utility model provides a following technical scheme: an environment detection device for hydraulic engineering comprises a device body, a top detection mechanism, a bottom support part and a bottom plate, wherein the top of the device body is fixedly connected with the top detection mechanism, the bottom of the device body is fixedly connected with the bottom support part, the top of the bottom support part is fixedly connected with the bottom plate, the bottom periphery of the bottom support part is fixedly connected with a floating block, the middle position of the bottom end of the bottom support part is fixedly connected with a balancing weight, the periphery of the bottom plate is connected with a sampling tube in a penetrating way, the peripheral inner wall of the bottom plate is fixedly connected with a spring tube, two sides of the top end of the top detection mechanism are fixedly connected with a solar panel, two ends of the solar panel are fixedly connected with a triangular separation net, the middle periphery of the top detection mechanism is fixedly connected with a fixing ring, the air detector is fixedly connected with the middle position of the inner side of the top detection mechanism, the touch screen is connected with the middle side of the inner portion of the top detection mechanism in an embedded mode, the switch is connected with the bottom of the other side of the inner portion of the top detection mechanism in an embedded mode, the control circuit board is fixedly connected with the middle position of the inner portion of the top detection mechanism in an embedded mode, and the storage battery is fixedly connected with the bottom end of the inner portion of the top detection.

Preferably, the periphery of the water collecting ring is connected with a rainwater collecting pipe in a penetrating manner, the bottom of the sampling pipe is fixedly connected with a bottom water collecting cylinder, the top of the sampling pipe is movably connected with a top thread cylinder, the inside of the bottom water collecting cylinder is movably connected with an internal floating block, and the bottom of the top thread cylinder is fixedly connected with a sealing rubber ring.

Preferably, the outer side of the spring tube is fixedly connected with an anti-skid clamping block.

Preferably, the top of the triangular separation net is connected with a rubber handle screw in a penetrating way.

Preferably, the inner wall of the bottom water collecting cylinder is embedded and connected with a sampling water inlet hole.

Preferably, the number of the top detection mechanisms is one, the top detection mechanism is arranged at the top of the whole device, and the top detection mechanism is fixedly connected with the whole device.

Preferably, the number of the bottom supporting parts is one, the bottom supporting parts are arranged at the bottom of the whole device, and the bottom supporting parts are fixedly connected with the whole device.

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

1. environmental detection device for hydraulic engineering, top detection mechanism set up at the holistic top of device, and top detection mechanism and the whole fixed connection of device, top detection mechanism can detect the air, and can also advance the rainwater to collect, and the detection of the rainwater of being convenient for has effectually improved the practicality that air and rainwater detected in the environment.

2. Environmental detection device for hydraulic engineering, bottom sprag part set up in the holistic bottom of device, and bottom sprag part and the whole fixed connection of device, bottom sprag part can support the device at the surface of water, and can also gather and adjust the volume of gathering with the water of the different degree of depth under water, improves the detection sample work convenience of water.

Drawings

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

fig. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view of the top detection mechanism of the present invention;

FIG. 4 is a schematic view of the water collecting ring structure of the present invention;

FIG. 5 is a schematic view of the sampling tube structure of the present invention;

FIG. 6 is a cross-sectional view of the sampling tube of the present invention;

fig. 7 is a diagram of a circuit connection frame according to the present invention.

In the figure: 1. the device is whole, 2, top detection mechanism, 3, bottom sprag part, 4, the bottom plate, 5, the sampling tube, 6, the floating block, 7, the balancing weight, 8, solar panel, 9, the triangulation network, 10, solid fixed ring, 11, anti-skidding clamp splice, 12, the spring pipe, 13, air detector (ZX-706C), 14, rubber are the screw, 15, the touch screen, 16, the battery, 17, the switch, 18, control circuit board, 19, the water ring, 20, rainwater collecting pipe, 21, bottom water collecting barrel, 22, top screw thread section of thick bamboo, 23, inside floating block, 24, sealed rubber ring, 25, the sampling inlet opening.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

In a first embodiment, please refer to fig. 1 to 7, the present invention provides a technical solution: an environment detection device for hydraulic engineering comprises a device body 1, a top detection mechanism 2, a bottom support part 3 and a bottom plate 4, wherein the top of the device body 1 is fixedly connected with the top detection mechanism 2, the bottom of the device body 1 is fixedly connected with the bottom support part 3, the top of the bottom support part 3 is fixedly connected with the bottom plate 4, the bottom periphery of the bottom support part 3 is fixedly connected with a floating block 6, the middle position of the bottom end of the bottom support part 3 is fixedly connected with a balancing weight 7, the periphery of the bottom plate 4 is connected with a sampling tube 5 in a penetrating way, the peripheral inner wall of the bottom plate 4 is fixedly connected with a spring tube 12, two sides of the top end of the top detection mechanism 2 are fixedly connected with a solar panel 8, two ends of the solar panel 8 are fixedly connected with a triangular separation net 9, the middle periphery of the top detection mechanism, top detection mechanism 2's the inboard intermediate position fixedly connected with air detector 13 in top, the inside middle opposite side embedding of top detection mechanism 2 is connected with touch-control screen 15, the inside opposite side bottom embedding of top detection mechanism 2 is connected with switch 17, the inside intermediate position fixedly connected with control circuit board 18 of top detection mechanism 2, inside one side bottom fixedly connected with battery 16 of top detection mechanism 2, the periphery through connection of water collection ring 19 has rainwater collecting pipe 20, the bottom fixedly connected with bottom water collection cylinder 21 of sampling tube 5, the top swing joint of sampling tube 5 has top screw thread section of thick bamboo 22, the inside swing joint of bottom water collection cylinder 21 has inside floating block 23, the peripheral fixedly connected with sealing rubber ring 24 in bottom of top screw thread section of thick bamboo 22.

Preferably, the outside fixedly connected with antiskid clamp splice 11 of spring pipe 12, spring pipe 12 sets up on bottom plate 4, and the outside of bottom plate 4 needs to install sampling tube 5 and carries out sample acquisition, set up the inboard at spring pipe 12 after the sampling tube 5 installation, when spring pipe 12 contracts, the inboard coarse line of antiskid clamp splice 11 will contact with sampling tube 5, the frictional force increase of antiskid clamp splice 11 and sampling tube 5 contact for sampling tube 5 is difficult for dropping after the installation.

Preferably, the top through connection of triangle spacer net 9 has the rubber to screw 14, triangle spacer net 9 is connected screw 14 and solar panel 8's both ends through rubber, there is rubber parcel rubber one side of screw 14 to rubber for the user only need hold the part of rubber parcel when screwing up rubber to screw 14, need not use tools supplementary, the installation of triangle spacer net 9 on the device of being convenient for, and the rubber is difficult for the corrosion of moisture erosion by the part of rubber parcel on screw 14.

Preferably, the bottom inner wall of the bottom water collecting cylinder 21 is embedded and connected with a sampling water inlet 25, the bottom water collecting cylinder 21 is arranged on the sampling cylinder 5, when the sampling cylinder 5 is used, the bottom of the sampling cylinder 5 needs to be placed in water, the sampling water inlet 25 on the bottom water collecting cylinder 21 contacts with water, when the sampling cylinder 5 is underwater, the pressure in the bottom water collecting cylinder 21 is smaller than the pressure of the water outside the bottom water collecting cylinder 21, the water enters the bottom water collecting cylinder 21 through the sampling water inlet 25, the movable sheet on the inner side of the sampling water inlet 25 moves towards the inner side, when the water is collected in the bottom water collecting cylinder 21, the pressure in the bottom water collecting cylinder 21 is equal to the pressure outside the bottom water collecting cylinder 21, the movable sheet in the sampling water inlet 25 moves downwards due to gravity and blocks the through hole on the sampling water control hole 25, after the sampling cylinder 25 is drawn upwards and exposed out of the water surface, the pressure in the bottom water collecting cylinder 21 is larger than the pressure, the water in the bottom water collecting cylinder 21 extrudes the movable sheet of the sampling water inlet hole 25 to the outer side, but the through hole of the sampling water inlet hole 25 clamps the movable sheet, so that the water in the bottom water collecting cylinder 21 cannot flow out, and is similar to a single-way valve, so that the valve of the water inlet is not required to be manually closed when a water sample is collected.

Preferably, one top detection mechanism 2 is arranged, the top detection mechanism 2 is arranged at the top of the device body 1, the top detection mechanism 2 is fixedly connected with the device body 1, the top detection mechanism 2 can detect air (PM 2.5 and PM10 in the air and temperature and humidity), and can also collect rainwater, so that the rainwater can be detected, two solar panels 8 on the top detection mechanism 2 are fixed through a frame and are overlapped into a herringbone shape, the solar panels 8 are connected with a storage battery 16 through wires, when sunlight irradiates the solar panels 8, the solar energy is converted into electric energy to charge the storage battery 16, the storage battery 16 is connected with a switch 17, the switch is connected with a control circuit board 18, the control circuit board 18 is connected with a touch screen 15, an air detector 13 is arranged on the inner side of the two solar panels 8 in the herringbone shape, and the air detector 13 is connected with the control circuit board 18, the through holes on two sides of the solar panel 8 are blocked by the triangular partition plate 9, air can flow in from one side of the through holes and then flows out from the other side of the through holes, when the device is used, the switch 17 is firstly opened, so that the circuit powered by the storage battery 16 is communicated, the flowing air can be subjected to PM2.5 and PM10 detection and temperature and humidity detection through the air detector 13, the numerical value detected by the air detector 13 is transmitted to the touch screen 15 through the control circuit board 18 for display, the flowing air can filter large particles or impurities in the air through the net shape on the triangular partition plate 9, the air detector 13 is prevented from being infected by the impurities or the large particles, the fixing ring 10 on the top detection mechanism 2 is connected with the water collecting ring 19 through the inner side ring, the rainwater collecting pipe 20 on the water collecting ring 19 penetrates through the fixing ring 10 and the water collecting ring 19, and the top opening, when collecting the rainwater at the recess at water collecting ring 19 top, the rainwater will follow the recess and flow into rainwater collecting pipe 20 in, through air detector 13 and rainwater collecting pipe 20 that set up, with empty gas detection survey and collect the rainwater, the rainwater sample and the content detection of being convenient for, the effectual practicality that has improved air and rainwater in the environment and detected.

Preferably, one bottom supporting part 3 is arranged, the bottom supporting part 3 is arranged at the bottom of the device body 1, the bottom supporting part 3 is fixedly connected with the device body 1, the bottom supporting part 3 can support the device on the water surface and can collect water with different depths underwater and adjust the collected amount, a bottom plate 4 on the bottom supporting part 3 is connected with six floating blocks 6, the bottom supporting part 3 supports the device on the water surface through the six floating blocks 6, a vertical downward force is applied to the middle position of the bottom end of the device by a balancing weight 7 connected on the bottom plate 4, so that the device floats on the water surface more stably, six grooves are arranged on the periphery of the bottom plate 4, the inner wall of each groove is connected with a spring pipe 12, anti-skid clamping blocks 11 connected to the outer sides of the spring pipes 12, when the bottom supporting part 3 is used, the anti-skid clamping blocks 11 in any one groove are pulled outwards firstly, placing the sampling tube 5 in a groove on a bottom plate 4, moving the sampling tube 5 upwards or downwards, adjusting the depth or height of the sampling tube 5 embedded under water, clamping the sampling tube 5 by an anti-skid clamping block 11 through the inward contraction force of two spring tubes 12, screwing a top threaded cylinder 22 on the sampling tube 5 clockwise when adjusting the sampling collection amount of the sampling tube 5, moving the top threaded cylinder 22 downwards to reduce the water sampling capacity, screwing the top threaded cylinder 22 on the sampling tube 5 anticlockwise to move the top threaded cylinder 22 upwards to increase the water sampling capacity, contacting the outer side of a sealing rubber ring 24 at the bottom of the top threaded cylinder 22 with the inner wall of a bottom water collection cylinder 21 on the sampling tube 5, when the sampling tube 5 is embedded under water, water enters from a sampling water inlet hole 25 of the bottom water collection cylinder 21 on the sampling tube 5, and enters the bottom water collection cylinder 21 along with the water, the internal floating block 23 in the bottom water collecting cylinder 21 floats upwards, the gas in the bottom water collecting cylinder 21 is discharged from the hollow part in the middle of the top threaded cylinder 22, when the internal floating block 23 floats upwards and the top end of the internal floating block 23 is contacted with the bottom end of the top threaded cylinder 22, the internal floating block 23 blocks the hollow opening in the top threaded cylinder 22 communicated with the bottom water collecting cylinder 21, so that a closed space is formed in the bottom water collecting cylinder 21, water outside the sampling cylinder 5 cannot enter the bottom water collecting cylinder 21 from the sampling water inlet hole 25, the collection of a water sample is completed, the bottom water collecting cylinder 21 is a transparent container, the scales arranged on the bottom water collecting cylinder 21 can be used as reference when the sampling pipe 5 is installed and fixed and the sampling capacity is adjusted, the stability of the support when the device floats is kept by arranging six floating blocks 6 and the balancing weight 7, and the sampling pipe 5 is arranged to sample water at different depths, and the sampling capacity can be adjusted to improve the convenience of water detection and sampling.

The working principle is as follows: firstly, checking whether the sampling water inlet hole 25 can be normally used, the bottom inner wall of the bottom water collecting cylinder 21 is embedded and connected with the sampling water inlet hole 25, the bottom water collecting cylinder 21 is arranged on the sampling cylinder 5, when the sampling cylinder 5 is used, the bottom of the sampling cylinder 5 needs to be placed in water, the sampling water inlet hole 25 on the bottom water collecting cylinder 21 can be contacted with water, when the sampling cylinder is underwater, the pressure in the bottom water collecting cylinder 21 is less than the pressure of the water outside the bottom water collecting cylinder 21, the water can enter the bottom water collecting cylinder 21 through the sampling water inlet hole 25, the movable sheet on the inner side of the sampling water inlet hole 25 can move inwards, when the water is collected in the bottom water collecting cylinder 21, the pressure in the bottom water collecting cylinder 21 is equal to the pressure outside the bottom water collecting cylinder 21, the movable sheet in the sampling water inlet hole 25 can move downwards due to gravity, the through hole on the sampling water control hole 25 is blocked, after the sampling cylinder 25 is, the pressure in the bottom water collecting cylinder 21 is greater than the pressure of the external environment, the movable sheet of the sampling water inlet hole 25 is extruded outwards by the water in the bottom water collecting cylinder 21, but the movable sheet is clamped by the through hole of the sampling water inlet hole 25, so that the water in the bottom water collecting cylinder 21 cannot flow out, and the valve of the water inlet does not need to be manually closed when a water sample is collected, similar to a single-way valve;

then, the abrasion degree of the anti-skid clamping block 11 is checked, the anti-skid clamping block 11 is fixedly connected to the outer side of the spring tube 12, the spring tube 12 is arranged on the bottom plate 4, the sampling tube 5 needs to be installed on the outer side of the bottom plate 4 for sample collection, the sampling tube 5 is arranged on the inner side of the spring tube 12 after being installed, when the spring tube 12 contracts, rough grains on the inner side of the anti-skid clamping block 11 can be in contact with the sampling tube 5, the friction force of the anti-skid clamping block 11 and the sampling tube 5 in contact is increased, and the sampling tube 5 is not prone to falling off after being installed;

then, the damaged or rusted rubber handle screw 14 is replaced, the rubber handle screw 14 is connected to the top of the triangular separation net 9 in a penetrating mode, the triangular separation net 9 is connected with the two ends of the solar panel 8 through the rubber handle screw 14, one side of the rubber handle screw 14 is wrapped by rubber, so that a user only needs to hold the rubber wrapped part when screwing the rubber handle screw 14, the use of tools for assistance is not needed, the triangular separation net 9 on the device is convenient to install, and the rubber wrapped part on the rubber handle screw 14 is not easy to corrode and rust by moisture;

next, surface water is sampled through the bottom supporting part 3, one bottom supporting part 3 is arranged, the bottom supporting part 3 is arranged at the bottom of the whole device 1, the bottom supporting part 3 is fixedly connected with the whole device 1, the bottom supporting part 3 can support the device on the water surface and can collect water with different underwater depths and adjust the collected amount, a bottom plate 4 on the bottom supporting part 3 is connected with six floating blocks 6, the bottom supporting part 3 supports the device on the water surface through the six floating blocks 6, a vertical downward force is applied to the middle position of the bottom end of the device by a balancing weight 7 connected on the bottom plate 4, so that the device floats on the water surface more stably, six grooves are arranged on the periphery of the bottom plate 4, the inner wall of each groove is connected with a spring tube 12, an anti-skidding clamping block 11 connected on the outer side of the spring tube 12 is used, firstly, the anti-skid clamping block 11 in any one groove is pulled outwards, the sampling tube 5 is placed in the groove on the bottom plate 4, the sampling tube 5 moves upwards or downwards, the depth or height of the sampling tube 5 embedded under water is adjusted, the anti-skid clamping block 11 clamps the sampling tube 5 through the inward contraction force of the two spring tubes 12, when the sampling collection amount of the sampling tube 5 is adjusted, the top threaded cylinder 22 on the sampling tube 5 is screwed clockwise, the top threaded cylinder 22 moves downwards, the water sampling capacity is reduced, the top threaded cylinder 22 on the sampling tube 5 is screwed anticlockwise, the top threaded cylinder 22 moves upwards, the water sampling capacity is increased, the outer side of the sealing rubber ring 24 at the bottom of the top threaded cylinder 22 is in contact with the inner wall of the bottom water collecting cylinder 21 on the sampling tube 5, when the sampling tube 5 is embedded under water, water enters from the sampling inlet hole 25 of the bottom water collecting cylinder 21 on the sampling tube 5, when water enters the bottom water collecting cylinder 21, the inner floating block 23 in the bottom water collecting cylinder 21 floats upwards, gas in the bottom water collecting cylinder 21 is discharged from the hollow part in the middle of the top threaded cylinder 22, when the inner floating block 23 floats upwards and the top end of the inner floating block 23 is contacted with the bottom end of the top threaded cylinder 22, the inner floating block 23 blocks the hollow opening in the top threaded cylinder 22 communicated with the inside of the bottom water collecting cylinder 21, so that a closed space is formed in the bottom water collecting cylinder 21, water outside the sampling cylinder 5 cannot enter the bottom water collecting cylinder 21 from the sampling water inlet hole 25, the collection of a water sample is completed, the bottom water collecting cylinder 21 is a transparent container, the scale arranged on the bottom water collecting cylinder 21 can be used as a reference when the sampling pipe 5 is installed and fixed and the sampling capacity is adjusted, and the support stability when the device floats is kept by arranging the six floating blocks 6 and the balancing weight 7, the sampling tube 5 is arranged to sample water at different depths, and the sampling volume can be adjusted to improve the convenience of water detection and sampling;

finally, the air is detected through the top detection mechanism 2, one top detection mechanism 2 is arranged, the top detection mechanism 2 is arranged at the top of the whole device 1, the top detection mechanism 2 is fixedly connected with the whole device 1, the top detection mechanism 2 can detect the air (PM 2.5 and PM10 in the air and the temperature and humidity), and can also collect rainwater, so that the rainwater can be detected conveniently, the two solar panels 8 on the top detection mechanism 2 are fixed through a frame and are overlapped into a herringbone shape, the solar panels 8 are connected with the storage battery 16 through wires, when the sunlight irradiates the solar panels 8, the solar energy is converted into electric energy to charge the storage battery 16, the storage battery 16 is connected with the switch 17, the switch is connected with the control circuit board 18, the control circuit board 18 is connected with the touch screen 15, the inner sides of the two herringbone solar panels 8 are provided with the air detector 13, and the air detector 13 is connected with the control circuit board 18, the through holes on both sides of the solar panel 8 are blocked by the triangular partition board 9, air can flow in from one side of the through holes and then flow out from the other side of the through holes, when the device is used, the switch 17 is firstly opened to enable the circuit powered by the storage battery 16 to be communicated, the flowing air can carry out detection of PM2.5 and PM10 and temperature and humidity through the air detector 13, the numerical value detected by the air detector 13 is transmitted to the touch screen 15 through the control circuit board 18 to be displayed, the flowing air can filter large particles or impurities in the air through the net shape on the triangular partition board 9 to avoid the impurities or the large particles from polluting the air detector 13, the fixing ring 10 on the top detection mechanism 2 is connected with the water collecting ring 19 through the inner side ring, the rainwater collecting pipe 20 on the water collecting ring 19 penetrates through the fixing ring 10 and the water collecting ring 19, and the top, when collecting the rainwater at the recess at water collecting ring 19 top, the rainwater will follow the recess and flow into rainwater collecting pipe 20 in, through air detector 13 and rainwater collecting pipe 20 that set up, with empty gas detection surveys and collects the rainwater, the rainwater sample and the content detection of being convenient for, the effectual practicality that has improved air and rainwater detection in the environment, this kind of environment measuring device for hydraulic engineering's theory of operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an environment detection device for hydraulic engineering, includes that the device is whole (1), top detection mechanism (2), bottom sprag spare (3) and bottom plate (4), its characterized in that: the device is characterized in that a top detection mechanism (2) is fixedly connected to the top of the whole device (1), a bottom supporting part (3) is fixedly connected to the bottom of the whole device (1), a bottom plate (4) is fixedly connected to the top of the bottom supporting part (3), a floating block (6) is fixedly connected to the periphery of the bottom supporting part (3), a balancing weight (7) is fixedly connected to the middle position of the bottom supporting part (3), a sampling tube (5) is connected to the periphery of the bottom plate (4) in a penetrating manner, a spring tube (12) is fixedly connected to the inner wall of the periphery of the bottom plate (4), solar panels (8) are fixedly connected to two sides of the top detection mechanism (2), triangular separation nets (9) are fixedly connected to two ends of the solar panels (8), and a fixing ring (10) is, the top embedding of solid fixed ring (10) is connected with water collecting ring (19), the inboard intermediate position fixedly connected with air detector (13) in top of top detection mechanism (2), the inside intermediate position embedding of top detection mechanism (2) is connected with touch screen (15), the inside opposite side bottom embedding of top detection mechanism (2) is connected with switch (17), the inside intermediate position fixedly connected with control circuit board (18) of top detection mechanism (2), inside one side bottom fixedly connected with battery (16) of top detection mechanism (2).

2. The environment detecting device for the hydraulic engineering according to claim 1, characterized in that: the periphery of water collecting ring (19) runs through and is connected with rainwater collecting pipe (20), the bottom fixedly connected with bottom of sampling tube (5) catchments a section of thick bamboo (21), the top swing joint of sampling tube (5) has a top screw thread section of thick bamboo (22), the inside swing joint of bottom water collecting section of thick bamboo (21) has inside floating block (23), the peripheral fixedly connected with sealing rubber ring (24) in bottom of top screw thread section of thick bamboo (22).

3. The environment detecting device for the hydraulic engineering according to claim 1, characterized in that: the outer side of the spring tube (12) is fixedly connected with an anti-skid clamping block (11).

4. The environment detecting device for the hydraulic engineering according to claim 1, characterized in that: the top of the triangular separation net (9) is connected with a rubber handle screw (14) in a penetrating way.

5. The environment detecting device for the hydraulic engineering according to claim 2, characterized in that: the bottom inner wall of the bottom water collecting cylinder (21) is embedded and connected with a sampling water inlet hole (25).

6. The environment detecting device for the hydraulic engineering according to claim 1, characterized in that: the device is characterized in that one top detection mechanism (2) is arranged, the top detection mechanism (2) is arranged at the top of the device body (1), and the top detection mechanism (2) is fixedly connected with the device body (1).

7. The environment detecting device for the hydraulic engineering according to claim 1, characterized in that: the device is characterized in that one bottom supporting component (3) is arranged, the bottom supporting component (3) is arranged at the bottom of the device body (1), and the bottom supporting component (3) is fixedly connected with the device body (1).