CN113029665A

CN113029665A - Ecological environment monitoring facilities based on thing networking

Info

Publication number: CN113029665A
Application number: CN202110038905.8A
Authority: CN
Inventors: 吴细宾
Original assignee: Individual
Current assignee: Shandong Wansheng Electric Co ltd
Priority date: 2021-01-12
Filing date: 2021-01-12
Publication date: 2021-06-25
Anticipated expiration: 2041-01-12
Also published as: CN113029665B

Abstract

The invention discloses an ecological environment monitoring device based on the Internet of things, which structurally comprises an audible and visual alarm, a detector main body, a suspension base, a solar panel and a monitoring mechanism, wherein the suspension base is of a cylindrical structure and is horizontally arranged, the detector main body is fixed above the suspension base through a bolt, the monitoring mechanism is arranged at the bottom of the detector main body, the solar panel is fixed on the side surface of the detector main body, and the audible and visual alarm is fixed at the top of the detector main body through a bolt.

Description

Ecological environment monitoring facilities based on thing networking

Technical Field

The invention relates to equipment of the Internet of things, in particular to ecological environment monitoring equipment based on the Internet of things.

Background

Water is a source of life, people can not be boiled in life and production activities, and in order to prevent the water body from being damaged by the life and production activities of the people, people monitor the water quality of the water environment which is mainly protected by a proper method so as to determine the water quality condition and the change trend of the water body, but the current technical consideration is not perfect enough, and the water quality monitoring method has the following defects: the traditional water quality detection mode is that equipment is suspended on the water surface, and a probe is directly inserted into water for detection, but the detection probe is positioned in the water for a long time, and the sensitivity of the detection probe is continuously reduced under the corrosion of various media in the water, so that the precision of a detection result is reduced.

Disclosure of Invention

In order to solve the problems, the invention provides ecological environment monitoring equipment based on the Internet of things.

In order to achieve the purpose, the invention is realized by the following technical scheme: the ecological environment monitoring equipment based on the Internet of things structurally comprises an audible and visual alarm, a detector main body, a suspension base, a solar panel and a monitoring mechanism, wherein the suspension base is of a cylindrical structure and is horizontally arranged; monitoring mechanism comprises driving motor, monitoring probe, sampling mechanism passes through bolt fastening in detector main part bottom and through connection in the middle of the suspension base, driving motor installs in the sampling mechanism top and adopts the electricity to be connected with the detector main part, monitoring probe nestification is in the top in sampling mechanism.

As a further improvement of the invention, the sampling mechanism consists of a sampling support and a lifting sampling device, the sampling support is of a hollow structure and is fixed at the bottom of the detector main body through bolts and is connected to the middle of the suspension base in a penetrating manner, and the lifting sampling device is nested in the sampling support and is in clearance fit with the sampling support.

As a further improvement of the invention, the sampling support comprises a lifting driving guide rail, a support main body, a water inlet and a water outlet, the support main body is of a hollow rectangular structure, the lifting driving guide rail is nested on the inner wall of the support main body, the water inlet is connected to the bottom of the side face of the support main body in a penetrating manner, and the water outlet is connected to the top of the side face of the support main body in a penetrating manner.

As a further improvement of the invention, the lifting sampling device consists of a sampling container, a buckling slider, a sampling hole, a transmission shaft and a lifting buckling rod, wherein the sampling container is of a top-free cylindrical structure and is horizontally placed in the bracket main body, the buckling slider is arranged on the side surface of the sampling container and is in sliding fit with the lifting driving guide rail, the sampling hole is connected to the side surface of the sampling container in a penetrating manner, the transmission shaft is connected to the middle of the bottom surface of the sampling container in a penetrating manner and is buckled with the driving motor, and the lifting buckling rod is fixed on the side surface of the transmission shaft and is buckled with the sampling container.

As a further improvement of the invention, the monitoring mechanism further comprises an impurity cleaning device which is nested outside the sampling mechanism and buckled with the sampling mechanism.

As a further improvement of the invention, the impurity cleaning device comprises a rotating frame, a fixed chassis and cleaners, wherein the fixed chassis is nested at the bottom of the sampling mechanism and is buckled with the transmission shaft, the rotating frame is of a cylindrical structure, the bottom surface of the rotating frame is welded with the fixed chassis, and the cleaners are uniformly distributed around the rotating frame at equal intervals.

As a further improvement of the invention, the cleaner comprises compression grooves, a linkage rod, a rotating shaft, cleaning hooks, shearing blades, a pressing plate and a spiral spring, wherein the cleaning hooks are uniformly distributed around the rotating frame at equal intervals, the inner wall of the top end of the cleaning hooks is provided with the compression grooves, the pressing plate is nested in the compression grooves, the spiral spring is arranged between the top of the pressing plate and the compression grooves, the rotating shaft is connected to the left side of the cleaning hooks in a penetrating manner, the left end of the shearing blades is movably connected with the rotating shaft, one end of the linkage rod is buckled with the left side of the pressing plate, and the other end of the.

As a further improvement of the invention, the cutting edge is arranged on one side of the shearing blade facing the pressure plate, so that when the linkage rod drives the shearing blade to rotate by taking the rotating shaft as a shaft, impurities such as aquatic weeds and the like in the cleaning hook can be quickly cut off, and the impurities are prevented from being wound on the surface of equipment.

As a further improvement of the invention, the sampling support and the lifting sampling device are of concentric circle structures, so that when the lifting sampling device rotates in the sampling support, the lifting sampling device can be driven to move up and down, and further a water sample is detected.

The invention has the beneficial effects that:

1. the driving motor is combined with the sampling mechanism, so that the water source is sampled and detected only when detection is needed, and the monitoring probe is not in contact with the water source when detection is not needed, so that corrosion of various media in water to the probe is avoided, the sensitivity of the probe is ensured, and the precision of a detection result is improved.

2. According to the invention, the impurity cleaning device is arranged, so that pollutants such as seaweed, river mud and the like attached to the periphery of the monitoring mechanism can be removed in the sampling process, the situation that the pollutants are wound on the surface of the probe, the monitoring precision of the probe is reduced, and the precision of the detection result is further improved.

Drawings

FIG. 1 is a schematic structural diagram of an ecological environment monitoring device based on the Internet of things according to the present invention;

FIG. 2 is a schematic front sectional view of the monitoring mechanism of the present invention;

FIG. 3 is a schematic front sectional view of the sampling mechanism of the present invention;

FIG. 4 is a schematic top view of the down-sampling apparatus of FIG. 3;

FIG. 5 is a schematic top view of the contaminant removal apparatus of FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of A in FIG. 5 according to the present invention.

In the figure: an audible and visual alarm-1, a detector main body-2, a suspension base-3, a solar panel-4, a monitoring mechanism-5, a driving motor-51, a monitoring probe-52, a sampling mechanism-53, an impurity cleaning device-54, a sampling bracket-531, a lifting sampling device-532, a lifting driving guide rail-a 1, a bracket main body-a 2, a water inlet-a 3, a water outlet-a 4, a sampling container-b 1, a buckling slider-b 2, a sampling hole-b 3, a transmission shaft-b 4, a lifting buckling rod-b 5, a rotating bracket-541, a fixed chassis-542, a cleaner-543, a compression groove-c 1, a linkage rod-c 2, a rotating shaft-c 3, a cleaning hook-c 4, a shearing blade-c 5, a pressing plate-c 6, a cleaning plate-c 6, Coil spring-c 7.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, fig. 1 to fig. 6 schematically show the structure of the ecological environment monitoring equipment based on the internet of things according to the embodiment of the invention, and the invention is further described below by combining with the specific embodiment.

Example one

Referring to fig. 1-4, the invention provides an ecological environment monitoring device based on the internet of things, which structurally comprises an audible and visual alarm 1, a detector main body 2, a suspension base 3, a solar panel 4 and a monitoring mechanism 5, wherein the suspension base 3 is of a cylindrical structure and is horizontally arranged, the detector main body 2 is fixed above the suspension base 3 through bolts, the monitoring mechanism 5 is installed at the bottom of the detector main body 2, the solar panel 4 is fixed on the side surface of the detector main body 2, and the audible and visual alarm 1 is fixed at the top of the detector main body 2 through bolts; monitoring mechanism 5 comprises driving motor 51, monitoring probe 52, sampling mechanism 53 passes through the bolt fastening in the middle of detector main part 2 bottom and through connection in suspension base 3, driving motor 51 installs in the top of sampling mechanism 53 and adopts the electricity to be connected with detector main part 2, monitoring probe 52 nests in the top in sampling mechanism 53. The sampling mechanism 53 is composed of a sampling support 531 and a lifting sampling device 532, the sampling support 531 is of a hollow structure and is fixed at the bottom of the detector main body 2 through bolts and is connected to the middle of the suspension base 3 in a penetrating manner, and the lifting sampling device 532 is nested in the sampling support 531 and is in clearance fit with the sampling support 531. The sampling support 531 is composed of a lifting driving guide rail a1, a support main body a2, a water inlet a3 and a water outlet a4, the support main body a2 is a hollow rectangular structure, the lifting driving guide rail a1 is nested on the inner wall of the support main body a2, the water inlet a3 is connected to the bottom of the side face of the support main body a2 in a penetrating manner, and the water outlet a4 is connected to the top of the side face of the support main body a2 in a penetrating manner. Lifting sampling device 532 comprises sample container b1, lock slider b2, thief hole b3, transmission shaft b4, lift lock pole b5, sample container b1 is for there being not top cylinder structure and level place inside support main part a2, lock slider b2 install in sample container b1 side and adopt sliding fit with lift drive guide rail a1, thief hole b3 through connection is in sample container b1 side, transmission shaft b4 through connection in the middle of sample container b1 bottom surface and with driving motor 51 mutual lock, lift lock pole b5 is fixed in transmission shaft b4 side and with sample container b1 mutual lock. Sampling support 531 is concentric circle structure with lift sampling device 532, and then when lift sampling device 532 rotates in sampling support 531, can drive lift sampling device 532 and reciprocate, and then detect the water sample. .

Placing the suspension base 3 on the water surface, the water source enters into the sampling container b1 through the water inlet a3 and the sampling hole b3, when the water quality of the water source needs to be detected, the driving motor 51 drives the transmission shaft b4 to rotate anticlockwise, the transmission shaft b4 drives the lifting buckling rod b5 to rotate, the sampling container b1 is driven to rotate, the sampling container b1 rotates and rises along the lifting driving guide rail a1 through the buckling slider b2, the sampling hole b3 is separated from the water inlet a3 and is matched with the bracket main body a2, the water source in the sampling container b1 is prevented from being lost, when the sampling container b1 rotates to the top of the bracket main body a2, the water sample in the sampling container b1 contacts with the monitoring probe 52 for monitoring, after the monitoring is completed, the driving motor 51 continues to rotate, the sampling hole b3 is aligned with the water outlet a4, the water sample which is detected is discharged through the water outlet 4, and the sampling container b1 rotates to the bottom of the bracket main body a2 along with the driving, and then need examine time measuring, just carry out sample test to the water source, need not to examine time measuring, the monitoring probe does not contact with the water source to avoid the corruption of various media in the aquatic to the probe, guaranteed the sensitivity of probe, and then improved the precision of testing result.

Example two

Referring to fig. 5-6, the monitoring mechanism 5 further includes a foreign material cleaning device 54, and the foreign material cleaning device 54 is nested outside the sampling mechanism 53 and is fastened to the sampling mechanism 53. Impurity cleaning device 54 comprises swivel mount 541, fixed chassis 542, cleaner 543, fixed chassis 542 nests in the sampling mechanism 53 bottom and with transmission shaft b4 lock each other, swivel mount 541 is cylindrical structure and bottom surface and fixed chassis 542 welding together, cleaner 543 equidistance evenly distributed is all around swivel mount 541. The cleaner 543 is composed of a compression groove c1, a linkage bar c2, a rotating shaft c3, cleaning hooks c4, a shearing blade c5, a pressing plate c6 and a spiral spring c7, the cleaning hooks c4 are uniformly distributed around the rotating frame 541 at equal intervals, a compression groove c1 is formed in the inner wall of the top end, the pressing plate c6 is nested in the compression groove c1, the spiral spring c7 is installed between the top of the pressing plate c6 and the compression groove c1, the rotating shaft c3 is connected to the left side of the cleaning hook 4 in a penetrating manner, the left end of the shearing blade c5 is movably connected with the rotating shaft c3, one end of the linkage bar c2 is buckled with the left side of the pressing plate c6, and the other end of the linkage bar c 5. One side of the shearing blade c5, which faces the pressure plate c6, is provided with a blade, so that when the linkage rod c2 drives the shearing blade c5 to rotate around the rotating shaft c3, impurities such as aquatic weeds in the cleaning hook c4 can be quickly sheared off, and the impurities are prevented from being wound on the surface of equipment.

In the detection process, when the driving motor 51 rotates counterclockwise, the transmission shaft b4 drives the fixed chassis 542 to rotate at the same time, and then the rotating frame 541 rotates synchronously with the fixed chassis 542, in the rotation process, the cleaning hook c4 hooks the pollutants such as seaweeds and river mud adhered to the surface of the device, and along with the rotation of the rotating frame 541, the hooked pollutants generate pressure on the pressing plate c6, and the pressing plate c6 is pushed to extrude the spiral spring c7 and move towards the compression groove c1, at this time, the linkage rod c2 drives the shearing blade c5 to rotate towards the direction of the pressing plate c6 by taking the rotating shaft c3 as an axis, so that the hooked pollutants are cut off, the pollutants such as seaweeds and river mud adhered to the periphery of the monitoring mechanism are eliminated, the pollutants are prevented from being wound on the surface of the probe, the monitoring precision of the probe is prevented from decreasing, and the.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an ecological environment monitoring facilities based on thing networking, its structure includes audible-visual annunciator (1), detector main part (2), suspension base (3), solar panel (4), its characterized in that: the solar energy and sound alarm device is characterized by further comprising a monitoring mechanism (5), the suspension base (3) is of a cylindrical structure and is horizontally placed, the detector main body (2) is fixed above the suspension base (3) through bolts, the monitoring mechanism (5) is installed at the bottom of the detector main body (2), the solar panel (4) is fixed on the side face of the detector main body (2), and the audible and visual alarm (1) is fixed at the top of the detector main body (2) through bolts;

monitoring mechanism (5) comprises driving motor (51), monitoring probe (52), sampling mechanism (53) are fixed in detector main part (2) bottom and through connection in the middle of suspension base (3) through the bolt, driving motor (51) are installed in sampling mechanism (53) top and are adopted the electricity to be connected with detector main part (2), monitoring probe (52) nestification is in sampling mechanism (53) top.

2. The ecological environment monitoring equipment based on the Internet of things according to claim 1, wherein: sampling mechanism (53) comprises sample support (531), lift sampling device (532), sample support (531) are hollow structure and through bolt fastening in detector main part (2) bottom and through connection in the middle of suspension base (3), lift sampling device (532) nestification just adopts clearance fit with sample support (531) in sample support (531).

3. The ecological environment monitoring equipment based on the Internet of things as claimed in claim 2, wherein: the sampling support (531) is composed of a lifting driving guide rail (a1), a support main body (a2), a water inlet (a3) and a water outlet (a4), the support main body (a2) is of a hollow rectangular structure, the lifting driving guide rail (a1) is nested on the inner wall of the support main body (a2), the water inlet (a3) is connected to the bottom of the side face of the support main body (a2) in a penetrating mode, and the water outlet (a4) is connected to the top of the side face of the support main body (a2) in a penetrating mode.

4. The ecological environment monitoring equipment based on the Internet of things as claimed in claim 2, wherein: lifting sampling device (532) comprises sampling container (b1), lock slider (b2), thief hole (b3), transmission shaft (b4), lift lock pole (b5), sample container (b1) is placed inside support main part (a2) for nos top cylinder structure and level, lock slider (b2) are installed in sampling container (b1) side and are adopted sliding fit with lift drive guide rail (a1), thief hole (b3) through connection is in sampling container (b1) side, transmission shaft (b4) through connection in the middle of sampling container (b1) bottom surface and with driving motor (51) mutual lock, lift lock pole (b5) are fixed in transmission shaft (b4) side and with sampling container (b1) mutual lock.

5. The ecological environment monitoring equipment based on the Internet of things according to claim 1, wherein: the monitoring mechanism (5) further comprises an impurity cleaning device (54), and the impurity cleaning device (54) is nested outside the sampling mechanism (53) and is mutually buckled with the sampling mechanism (53).

6. The Internet of things-based ecological environment monitoring device according to claim 5, wherein: impurity cleaning device (54) comprises swivel mount (541), fixed chassis (542), cleaner (543), fixed chassis (542) nests in sampling mechanism (53) bottom and with transmission shaft (b4) lock each other, swivel mount (541) are cylindrical structure and bottom surface and fixed chassis (542) welding together, cleaner (543) equidistance evenly distributed is around swivel mount (541).

7. The Internet of things-based ecological environment monitoring device according to claim 6, wherein: cleaner (543) comprise compression groove (c1), gangbar (c2), rotation axis (c3), clean hook (c4), shear blade (c5), clamp plate (c6), coil spring (c7), clean hook (c4) equidistance evenly distributed is around swivel mount (541), the top inner wall is equipped with compression groove (c1), clamp plate (c6) nests in compression groove (c1), coil spring (c7) are installed between clamp plate (c6) top and compression groove (c1), rotation axis (c3) through connection is in clean hook (c4) left side, it adopts swing joint to shear blade (c5) left end and rotation axis (c3), gangbar (c2) one end and clamp plate (c6) left side lock, the other end and shear blade (c5) lock.

8. The Internet of things-based ecological environment monitoring device according to claim 7, wherein: one side of the shearing blade (c5) facing the pressure plate (c6) is provided with a blade edge.

9. The ecological environment monitoring equipment based on the Internet of things as claimed in claim 2, wherein: the sampling support (531) and the lifting sampling device (532) are of concentric circle structures.