CN215116220U

CN215116220U - River water monitoring devices based on ecological environment protection

Info

Publication number: CN215116220U
Application number: CN202121123666.8U
Authority: CN
Inventors: 吕彦茹; 朱晓斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2021-12-10
Anticipated expiration: 2031-05-24

Abstract

A river water monitoring device based on ecological environment protection comprises a sampling mechanism, a floating support mechanism, a monitoring mechanism, a solar panel and a storage battery, wherein the sampling mechanism is arranged on one side of the floating support mechanism; the utility model discloses along with the connecting rod drives the sample box upward movement, make constant head tank and locating piece mutually support on the upper cover plate, and then make monitoring mechanism and interface connection, through the gear pump with the water sample in the sample box through the sample pipeline extraction to the buffer water tank in, in the rethread raceway is imported the water storage box, water quality testing appearance detects the water sample in the water storage box, carry out data analysis in the computer with water sample data transmission after the detection, the water storage box passes through the drain pipe with the water sample and discharges after the completion, and then can realize the real-time supervision to the river, sample convenient and fast more, the operation flow is simplified, monitoring efficiency also can improve greatly.

Description

River water monitoring devices based on ecological environment protection

Technical Field

The utility model belongs to the technical field of the river detects, in particular to river monitoring devices based on ecological environment protection.

Background

In the river water protection process, river water needs to be monitored in real time, the condition of the river water is mastered so as to be processed in time, and through the retrieval of patent grant publication number CN211825181U, the river water extraction device for water ecology monitoring comprises an extraction device body, the extraction device body comprises a floating device and an extraction device, the extraction device is positioned at the lower side of the floating device, the floating device comprises a floating plate, the extraction device comprises an extraction barrel, an extraction cavity is arranged in the extraction barrel, a water inlet is formed in the top end of an extraction liquid barrel, a filtering device is arranged at the inlet and the outlet, the filtering device comprises a filtering net and a mounting ring, the mounting ring is sleeved on the outer side wall of the filtering net, the middle position of the filtering net is arched upwards, and the bottom end of the mounting ring is in contact with the top end of the extraction barrel;

it has the following disadvantages: after rivers get into and draw the bucket, when taking a sample to the rivers that draw in the bucket, need collect whole bucket that draws, the sampling test is comparatively inconvenient, and operation flow is comparatively complicated, and real-time supervision efficiency is lower.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a river monitoring devices based on ecological environment protection, through the real-time supervision of realization to the river, sample convenient and fast simplifies the operation flow, monitoring efficiency also can improve greatly.

In order to realize the purpose, the utility model discloses a technical scheme is:

the utility model provides a river monitoring devices based on ecological environment protection, includes the sampling mechanism, floats supporting mechanism, monitoring mechanism, solar panel (model HY-0110), battery (model OT 200-12), it is equipped with the sampling mechanism to float supporting mechanism one side, and sampling mechanism one side is equipped with monitoring mechanism, and monitoring mechanism one side is equipped with solar panel, and solar panel one side is equipped with the battery.

The sampling mechanism comprises L-shaped connecting frames, a water inlet barrel, a sampling box, a connecting rod, a supporting cross rod, an electric pushing cylinder and auxiliary supporting rods, wherein two groups of L-shaped connecting frames are arranged on the periphery of the water inlet barrel, the sampling box is arranged in the water inlet barrel, the connecting rod is arranged on one side of the sampling box, the supporting cross rod is arranged on one side of the connecting rod, the auxiliary supporting rod is arranged on one side of the supporting cross rod, the electric pushing cylinder is arranged on the other side of the supporting cross rod, the water inlet barrel is connected with the floating supporting mechanism through the L-shaped connecting frames, the outer side wall of the sampling box is contacted with the inner side wall of the water inlet barrel, the sampling box is connected with the connecting rod, the other end of the connecting rod is fixedly connected onto the supporting cross rod, one end of the supporting cross rod is connected with the auxiliary supporting cross rod through a pin shaft, the other end of the supporting cross rod is connected with the electric pushing cylinder, larger impurities in the water are isolated through the water inlet barrel, and the lifting of the supporting cross rod is controlled through the expansion of the electric pushing cylinder, make the auxiliary stay pole carry out auxiliary stay, the lift control connecting rod through supporting the horizontal pole drives the sample box and carries out the up-and-down motion in the bucket of intaking and take a sample.

Preferably, the floating support mechanism comprises a floating plate, a connecting frame, an air bag, an air pump and a positioning block, wherein the connecting frame is arranged on one side of the floating plate, the air bag is arranged in the connecting frame, the air pump is arranged on one side of the air bag, the positioning block is arranged at the bottom of the floating plate, and the air bag is inflated by the air pump to provide buoyancy for the floating plate.

Preferably, the bucket of intaking blocks the pole including square groove, the inlet opening of intaking, the lateral wall of the bucket of intaking is equipped with a plurality of square grooves of intaking, the inlet opening sets up in the bucket bottom of intaking, block the pole and set up in bucket upper portion of intaking, under the combined action of square groove, inlet opening of intaking, blocking the pole, carry out the separation with great impurity, prevent to influence the sample.

Preferably, the sampling box includes upper cover plate, water inlet ring cover, lower shrouding, constant head tank, interface, shrouding one side is equipped with water inlet ring cover down, and water inlet ring cover is inside to be equipped with a plurality of limbers, water inlet ring cover one side is equipped with the upper cover plate, and upper cover plate one side is equipped with two sets of constant head tanks, the inside two sets of interfaces that are equipped with of upper cover plate, upper cover plate and connecting rod are connected, and in water stream got into the bucket and got into the sampling box through water inlet ring cover again, along with the connecting rod drives the sampling box upward movement, make constant head tank and locating piece mutually support on the upper cover plate, and then make monitoring mechanism and interface be connected, take a sample.

Preferably, the monitoring mechanism comprises a buffer water tank, a water delivery pipe, a gear pump, a water storage box, a drain pipe, a water quality detector (model: 5B-3BV 11) and a sampling pipeline, wherein the water delivery pipe is arranged on one side of the buffer water tank, the gear pump is arranged on one side of the water delivery pipe, the water storage box is arranged on one side of the gear pump, the water quality detector is arranged on one side of the water storage box, the drain pipe is arranged on the other side of the water storage box, the sampling pipeline is inserted into the insertion port after the sampling box rises, a water sample in the sampling box is pumped into the buffer water tank through the sampling pipeline and then input into the water storage box through the water delivery pipe, the water quality detector detects the water sample in the water storage box, data analysis is carried out in a computer for data transmission of the water sample after detection, and the water sample is discharged through the drain pipe by the water storage box after detection.

Compared with the prior art, the utility model beneficial effect shows:

when water flows into the water inlet barrel, under the combined action of the water inlet square groove, the water inlet hole and the blocking rod, larger impurities are blocked to prevent influencing sampling, meanwhile, the lifting of the supporting cross rod is controlled by controlling the extension of the electric pushing cylinder to enable the auxiliary supporting rod to carry out auxiliary supporting, the lifting control connecting rod of the supporting cross rod drives the sampling box to move up and down in the water inlet barrel for sampling, when water flows into the sampling box through the water inlet ring sleeve, the sampling box is driven to move upwards along with the connecting rod, so that the positioning groove on the upper cover plate is matched with the positioning block, the monitoring mechanism is connected with the plug interface, a water sample in the sampling box is pumped into the buffer water tank through the sampling pipeline by the gear pump and then is input into the water storage box through the water pipe, the water quality detector detects the water sample in the water storage box, and carries out data analysis in a computer for data transmission of the water sample after detection, the water storage box discharges the water sample through the drain pipe after the completion, so that the real-time monitoring of river water can be realized, the sampling is more convenient and faster, the operation flow is simplified, and the monitoring efficiency can also be greatly improved.

Drawings

FIG. 1 is a schematic structural view of a river water monitoring device based on ecological environment protection;

FIG. 2 is a schematic view of the structure of the other side of the river water monitoring device based on ecological environment protection;

FIG. 3 is an explosion diagram of the river water monitoring device based on ecological environment protection;

fig. 4 is the utility model discloses a river water monitoring devices opposite side explosion chart based on ecological environment protection.

In the figure: 1. a sampling mechanism; 10. an L-shaped connecting frame; 11. a water inlet barrel; 111. a water inlet square groove; 112. a water inlet hole; 113. a blocking lever; 12. a sampling box; 121. an upper cover plate; 122. a water inlet ring sleeve; 123. a lower sealing plate; 124. positioning a groove; 125. an interface; 13. a connecting rod; 14. a support rail; 15. an electric pushing cylinder; 16. an auxiliary support bar; 2. a floating support mechanism; 21. a floating plate; 22. a connecting frame; 23. an air bag; 24. an air pump; 25. positioning blocks; 3. a monitoring mechanism; 31. a buffer water tank; 32. a water delivery pipe; 33. a gear pump; 34. a water storage box; 35. a drain pipe; 36. a water quality detector; 37. a sampling pipe; 4. a solar panel; 5. and (4) a storage battery.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 4.

The utility model provides a river monitoring devices based on ecological environment protection, includes that sampling mechanism 1, showy supporting mechanism 2, monitoring mechanism 3, solar panel 4,

battery

5, 2 one side of showy supporting mechanism are equipped with

sampling mechanism

1, and 1 one side of sampling mechanism is equipped with

monitoring mechanism

3, and 3 one side of monitoring mechanism are equipped with

solar panel

4, and 4 one sides of solar panel are equipped with battery 5.

The sampling mechanism 1 comprises an L-shaped connecting frame 10, a water inlet barrel 11, a sampling box 12, a connecting rod 13, a supporting cross rod 14, an electric pushing cylinder 15 and an auxiliary supporting rod 16, wherein two groups of L-shaped connecting frames 10 are arranged on the periphery of the water inlet barrel 11, the sampling box 12 is arranged inside the water inlet barrel 11, the connecting rod 13 is arranged on one side of the sampling box 12, the supporting cross rod 14 is arranged on one side of the connecting rod 13, the auxiliary supporting rod 16 is arranged on one side of the supporting cross rod 14, the electric pushing cylinder 15 is arranged on the other side of the supporting cross rod 14, the water inlet barrel 11 is connected with the floating supporting mechanism 2 through the L-shaped connecting frame 10, the outer side wall of the sampling box 12 is contacted with the inner side wall 11 of the water inlet barrel, the sampling box 12 is connected with the connecting rod 13, the other end of the connecting rod 13 is fixedly connected on the supporting cross rod 14, one end of the supporting cross rod 14 is connected with the auxiliary supporting cross rod 16 through a pin shaft, the other end of the supporting cross rod 14 is connected with the electric pushing cylinder 15, larger impurities in water are isolated through the water inlet barrel 11, the lifting of the supporting cross rod 14 is controlled by controlling the extension of the electric pushing cylinder 15, so that the auxiliary supporting rod 16 carries out auxiliary supporting, and the lifting control connecting rod 13 of the supporting cross rod 14 drives the sampling box 12 to move up and down in the water inlet barrel 11 for sampling.

The floating support mechanism 2 comprises a floating plate 21, a connecting frame 22, an air bag 23, an air pump 24 and a positioning block 25, wherein the connecting frame 22 is arranged on one side of the floating plate 21, the air bag 23 is arranged in the connecting frame 22, the air pump 24 is arranged on one side of the air bag 23, the positioning block 25 is arranged at the bottom of the floating plate 21, and the air bag 23 is inflated by the air pump 24, so that the air bag 23 provides buoyancy for the floating plate 21.

The intaking bucket 11 includes intaking square trough 111, inlet opening 112, blocks pole 113, the 11 lateral walls of intaking bucket are equipped with a plurality of intaking square troughs 111, inlet opening 112 sets up in 11 bottoms of intaking bucket, block pole 113 and set up in 11 upper portions of intaking bucket, under the combined action of intaking square trough 111, inlet opening 112, blocking pole 113, carry out the separation with great impurity, prevent to influence the sample.

The sampling box 12 comprises an upper cover plate 121, a water inlet ring sleeve 122, a lower sealing plate 123, positioning grooves 124 and a plug-in port 125, wherein the water inlet ring sleeve 122 is arranged on one side of the lower sealing plate 123, a plurality of water through holes are formed in the water inlet ring sleeve 122, the upper cover plate 121 is arranged on one side of the water inlet ring sleeve 122, two groups of positioning grooves 124 are formed in one side of the upper cover plate 121, two groups of plug-in ports 125 are formed in the upper cover plate 121, the upper cover plate 121 is connected with a connecting rod 13, water flows enter the water inlet barrel 11 and then enter the sampling box 12 through the water inlet ring sleeve 122, the sampling box 12 is driven to move upwards along with the connecting rod 13, the positioning grooves 124 and the positioning blocks 25 on the upper cover plate 121 are matched with each other, and then the monitoring mechanism 3 is connected with the plug-in ports 125 to perform sampling.

Monitoring mechanism 3 includes buffer water tank 31, raceway 32, gear pump 33, water storage box 34, drain pipe 35, water quality testing appearance 36, sample pipeline 37, buffer water tank 31 one side is equipped with raceway 32, and raceway 32 one side is equipped with gear pump 33, and gear pump 33 one side is equipped with water storage box 34, and water storage box 34 one side is equipped with water quality testing appearance 36, water storage box 34 opposite side is equipped with drain pipe 35, makes sample pipeline 37 insert the interface after sample box 12 rises, passes through sample pipeline 37 with the water sample in the sample box 12 through gear pump 33 and extracts buffer water tank 31 in, and the rethread raceway 32 is imported in water storage box 34, and water quality testing appearance 36 detects the water sample in the water storage box 34, carries out data analysis in the computer with water sample data transmission after the detection, and water storage box 34 discharges the water sample through drain pipe 35 after the completion.

The utility model relates to a circuit components and parts (solar panel HY-0110, battery OT200-12, water quality testing appearance 5B-3BV 11) are the components and parts among the prior art, and electric connection between the circuit components and parts is conventional circuit connection among the prior art, not the utility model discloses a protection scope.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims

1. A river water monitoring device based on ecological environment protection comprises a sampling mechanism, a floating supporting mechanism, a monitoring mechanism, a solar panel and a storage battery, and is characterized in that the sampling mechanism is arranged on one side of the floating supporting mechanism, the monitoring mechanism is arranged on one side of the sampling mechanism, the solar panel is arranged on one side of the monitoring mechanism, and the storage battery is arranged on one side of the solar panel;

sampling mechanism includes L type link, the bucket of intaking, sampling box, connecting rod, support horizontal pole, electric push cylinder, auxiliary stay pole, the bucket periphery of intaking is equipped with two sets of L type links, the inside sampling box that is equipped with of the bucket of intaking, sampling box one side is equipped with the connecting rod, and connecting rod one side is equipped with the support horizontal pole, supports horizontal pole one side and is equipped with auxiliary stay pole, it is equipped with the electric push cylinder to support the horizontal pole opposite side, and the bucket of intaking passes through L type link and floats supporting mechanism and be connected, and the sampling box lateral wall contacts with the bucket inside wall of intaking, and the sampling box is connected with the connecting rod, and connecting rod other end fixed connection is on supporting the horizontal pole, supports horizontal pole one end and is connected with auxiliary stay pole through the round pin axle, and the support horizontal pole other end is connected with the electric push cylinder.

2. The river water monitoring device based on ecological environment protection as claimed in claim 1, wherein the floating support mechanism comprises a floating plate, a connecting frame, an air bag, an air pump and a positioning block, the connecting frame is arranged on one side of the floating plate, the air bag is arranged in the connecting frame, the air pump is arranged on one side of the air bag, and the positioning block is arranged at the bottom of the floating plate.

3. The river water monitoring device based on ecological environment protection as claimed in claim 1, wherein the water inlet barrel comprises a water inlet square groove, a water inlet hole, and a blocking rod, wherein the side wall of the water inlet barrel is provided with a plurality of water inlet square grooves, the water inlet hole is arranged at the bottom of the water inlet barrel, and the blocking rod is arranged at the upper part of the water inlet barrel.

4. The river water monitoring device based on ecological environment protection as claimed in claim 1, wherein the sampling box comprises an upper cover plate, a water inlet ring sleeve, a lower sealing plate, positioning slots, and connection ports, the water inlet ring sleeve is disposed on one side of the lower sealing plate, a plurality of water through holes are disposed inside the water inlet ring sleeve, the upper cover plate is disposed on one side of the water inlet ring sleeve, two sets of positioning slots are disposed on one side of the upper cover plate, two sets of connection ports are disposed inside the upper cover plate, and the upper cover plate is connected with the connection rods.

5. The river water monitoring device based on ecological environment protection as claimed in claim 1, wherein the monitoring mechanism includes a buffer water tank, a water pipe, a gear pump, a water storage box, a drain pipe, a water quality detector, and a sampling pipeline, the water pipe is disposed on one side of the buffer water tank, the gear pump is disposed on one side of the water pipe, the water storage box is disposed on one side of the gear pump, the water quality detector is disposed on one side of the water storage box, and the drain pipe is disposed on the other side of the water storage box.