CN112611845B

CN112611845B - But ecological monitoring device of real-time detection quality of water and sample of being convenient for based on environmental protection

Info

Publication number: CN112611845B
Application number: CN202011415747.5A
Authority: CN
Inventors: 唐海云
Original assignee: Shenzhen Zhongsi Trade Technology Co ltd
Current assignee: Shenzhen Zhongsi Trade Technology Co ltd
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2022-11-15
Anticipated expiration: 2040-12-04
Also published as: CN112611845A

Abstract

The invention discloses an environment-friendly ecological monitoring device capable of detecting water quality in real time and facilitating sampling, which comprises a monitoring device body, a servo motor, a driving rod, a blocking block and a solar cell panel, wherein a supporting rod is fixedly welded on the upper surface of the monitoring device body, the servo motor is fixedly bolted inside the monitoring device body, the outer surface of the connecting rod is rotatably connected with a second bevel gear, the driving rod is fixedly welded on the outer surface of the second bevel gear, a limiting frame is fixedly welded inside the monitoring device body, a water inlet is formed in the outer surface of the limiting frame, and a separation net is fixedly bolted inside the water inlet. This but ecological monitoring device of real-time detection quality of water and sample of being convenient for based on environmental protection is provided with actuating lever, first conical gear, second conical gear, connection frame, second reset spring and clearance piece, can make the experimental result of quality of water more accurate relatively.

Description

But ecological monitoring device of real-time detection quality of water and sample of being convenient for based on environmental protection

Technical Field

The invention relates to the technical field of environmental protection, in particular to an ecological monitoring device which is based on environmental protection, can detect water quality in real time and is convenient for sampling.

Background

Water pollution is always an important problem, because of the lack of water resources, the existing fresh water resources are required to be protected, particularly, the waste water discharged by some factories is monitored in real time, so that workers can place an ecological monitoring device in the sewage discharge water area of the factories, and can monitor the water quality of the water area near the factory discharge port in real time through a signal transmission device and a detection device on a monitoring device body, thereby reducing the unqualified sewage discharge operation of some illegal factories, and protecting the safety of drinking water of people and the ecological balance in the water area.

Some existing ecological monitoring devices based on environmental protection and capable of detecting water quality in real time have the following problems:

1. the existing environment-friendly ecological monitoring devices capable of detecting water quality in real time only have a monitoring function, and environmental protection personnel still need to sample and detect the water quality regularly, so that the functionality of the whole device is increased, the workload of the environmental protection personnel is increased, and the whole device is not convenient to use;

2. the protectiveness is relatively poor, but some current ecological monitoring devices based on real-time detection quality of water of environmental protection when quality of water is taken a sample, because the thief hatch is located the below water level for a long time, some algae of aquatic grow near the thief hatch easily to easily when the sample, enter into and deposit the water frame, thereby lead to the staff to examine time measuring quality of water, the deviation appears easily in the data of quality of water, then interferes the formulation and the implementation of environmental protection personnel to quality of water environmental protection measure easily.

Therefore, an ecological monitoring device based on environmental protection, which can detect water quality in real time and facilitate sampling, is proposed so as to solve the problems presented above.

Disclosure of Invention

The invention aims to provide an environment-friendly ecological monitoring device capable of detecting water quality in real time and facilitating sampling, and the device is used for solving the problems that the existing environment-friendly ecological monitoring devices capable of detecting water quality in real time in the market can only perform a monitoring function, environmental protection personnel still need to perform sampling detection on water quality regularly, so that the functionality of the whole device is increased, the workload of the environmental protection personnel is increased, the use of the whole device is not convenient, and when the existing environment-friendly ecological monitoring devices capable of detecting water quality in real time are used for sampling water quality, algae in water easily grow nearby a sampling port due to the fact that the sampling port is located below the water level for a long time, so that the algae easily enter a water storage frame during sampling, water quality data are easy to deviate during detection of water quality by the personnel, and formulation and implementation of water quality environment protection measures by the environmental protection personnel are easily interfered.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an ecological monitoring devices based on environmental protection but real-time detection quality of water and be convenient for sample, includes monitoring devices body, servo motor, actuating lever, blocks piece and solar cell panel, the last welded surface of monitoring devices body is fixed with the bracing piece, and the inboard surface rotation of bracing piece is connected with the dwang to the last surface bolted fixation of bracing piece has signal transmission device, the surface middle part fixedly connected with pull wire of dwang, and the surface laminating of dwang is provided with the drive belt, the inside bolted fixation of monitoring devices body has servo motor, and the inside upper surface welded fixation of monitoring devices body has the connecting rod, the surface rotation of connecting rod is connected with second conical gear, and the surface welded fixation of second conical gear has the actuating lever, the inside welded fixation of monitoring devices body has spacing frame, and the surface of spacing frame has seted up the water inlet to the inside bolted fixation of water inlet has the separation net, the inside of spacing frame is provided with deposits the water frame, and the surface of depositing the water frame has seted up the connector to the inside of connector blocks the piece, the upper surface swing joint that blocks the piece that blocks the frame has the frame, and the inside rotation of holding frame is connected with the panel to the outer surface of connecting rod has the first welded connection spring, and the outer surface fixing of monitoring devices body has the clear reset spring, and the outer surface of the clear back surface of the reset spring has the clear up the reset spring.

Preferably, the rotating rod forms a transmission structure with the servo motor through a transmission belt, the rotating rod forms a retraction structure with the joint rod through a traction line, and the traction line is fixedly connected with the joint rod.

Preferably, a first bevel gear is fixedly welded at the output end of the servo motor, the first bevel gear and the second bevel gear are connected in a meshing manner, and two groups of the second bevel gears are symmetrically arranged about the vertical central axis of the monitoring device body.

Preferably, the driving rods and the second bevel gears form a cam mechanism, the driving rods and the second bevel gears correspond to each other one by one, and the orientations of the 2 groups of driving rods are opposite.

Preferably, the limiting frame and the water storage frame form an embedded sliding structure, the friction force between the limiting frame and the water storage frame is greater than the gravity of the water storage frame, and the limiting frame and the cleaning block form a sliding structure.

Preferably, the water storage frame and the blocking block form a sliding structure through a connecting port, and the blocking block is in an inverted concave shape.

Preferably, the connecting rod and the containing frame form an elastic structure through a first return spring, and the first return spring and the containing frame are connected in a welding mode.

Preferably, the vertical axis of the left end of the cleaning block and the vertical axis of the left driving rod are located on the same vertical plane, the left part and the right part of the cleaning block are both in a cross-shaped structure, and the cleaning block and the connecting frame form a piston structure.

Preferably, the cleaning block is elastically connected with the connecting frame through a second return spring, the inner diameter of the connecting frame is equal to the outer diameter of the second return spring, and the sliding distance of the cleaning block is greater than the opening width of the water inlet.

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

1. the ecological monitoring device capable of detecting water quality in real time and facilitating sampling based on environmental protection is provided with a driving rod, a first bevel gear, a second bevel gear, a connecting frame, a second reset spring and a cleaning block, wherein the driving rod enables the cleaning block to do linear reciprocating motion under the deformation action of the second reset spring through the transmission of the first bevel gear and the second bevel gear, so that the cleaning block can clean the outer surface of the limiting frame, the growth of algae on the outer surface of the cleaning frame is reduced, the sampling detection data of the water quality is more accurate, and the establishment and implementation of a water quality protection plan by workers are facilitated;

2. this but ecological monitoring device of real-time detection quality of water and be convenient for sample based on environmental protection is provided with the dwang, the pull wire, the drive belt, the joint pole, a reset spring and block the piece, transmission and the pulling of pull wire through the drive belt, thereby make the joint pole take place to deform in the time of a reset spring, thereby can make and block the piece and be pulled up, then can make the connector open, thereby make and deposit water and open in the frame and make into water, simultaneously under the rotation of dwang, can make and deposit water the frame and be pulled up, the staff of being convenient for is to depositing taking of frame, and then the expansion of the staff's of being convenient for quality of water sample work.

Drawings

FIG. 1 is a schematic cross-sectional view of an ecological monitoring device for detecting water quality in real time and facilitating sampling according to the present invention;

FIG. 2 is a schematic view of a connection structure of a limiting frame and a cleaning block of the ecological monitoring device capable of detecting water quality in real time and facilitating sampling based on environmental protection;

FIG. 3 is a schematic view of a cross-sectional view of an ecological monitoring device for detecting water quality in real time and facilitating sampling according to the present invention;

FIG. 4 is a schematic view of a cross-sectional view of a support bar of an environmental-friendly ecological monitoring device capable of detecting water quality in real time and facilitating sampling;

FIG. 5 is a schematic view of the structure A in FIG. 1 of an eco-monitoring device for real-time water quality detection and easy sampling according to the present invention;

FIG. 6 is a schematic diagram of the structure B in FIG. 1 of an eco-monitoring device for real-time detection of water quality and easy sampling based on environmental protection according to the present invention;

fig. 7 is a schematic structural diagram of a part C in fig. 1 of an eco-monitoring device based on environmental protection, which can detect water quality in real time and facilitate sampling.

In the figure: 1. a monitoring device body; 2. a support bar; 3. rotating the rod; 4. a signal transmission device; 5. a pull wire; 6. a transmission belt; 7. a servo motor; 701. a first bevel gear; 8. a connecting rod; 9. a second bevel gear; 10. a drive rod; 11. a limiting frame; 12. a water inlet; 13. a separation net; 14. a water storage frame; 15. a connecting port; 16. a blocking block; 17. an accommodating frame; 18. a connecting rod; 19. a first return spring; 20. a connecting frame; 21. a second return spring; 22. cleaning the block; 23. provided is a solar cell panel.

Detailed Description

The technical solutions 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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: an ecological monitoring device capable of detecting water quality in real time and facilitating sampling based on environmental protection comprises a monitoring device body 1, a support rod 2, a rotating rod 3, a signal transmission device 4, a pull wire 5, a transmission belt 6, a servo motor 7, a first bevel gear 701, a connecting rod 8, a second bevel gear 9, a driving rod 10, a limit frame 11, a water inlet 12, a separation net 13, a water storage frame 14, a connecting port 15, a stop block 16, a containing frame 17, a connecting rod 18, a first reset spring 19, a connecting frame 20, a second reset spring 21, a cleaning block 22 and a solar panel 23, wherein the upper surface of the monitoring device body 1 is welded and fixed with the support rod 2, the inner side surface of the support rod 2 is rotatably connected with the rotating rod 3, the upper surface of the support rod 2 is bolted and fixed with the signal transmission device 4, the outer surface middle part of the rotating rod 3 is fixedly connected with the pull wire 5, the outer surface of the rotating rod 3 is provided with the transmission belt 6, the inner part of the monitoring device body 1 is bolted and fixed with the servo motor 7, the inner surface of the monitoring device body 1 is welded and the connecting rod 8, the outer surface of the connecting rod 8 is connected with the rotating rod 9, the outer surface of the second bevel gear 9, the monitoring device body is fixed with the water storage frame 11, the water inlet 12 of the movable clamp frame 11 is welded and the connecting rod 15 of the stop block 15, the connecting rod 14, the connecting rod 17 is fixed with the water storage frame 16, the water storage frame 16 is welded and the connecting rod 16, the lower surface welded fastening of monitoring devices body 1 has connecting frame 20, and the inside of connecting frame 20 is provided with clearance piece 22 to the surface welded fastening of clearance piece 22 has second reset spring 21, and the surface bolt fastening of bracing piece 2 has solar cell panel 23.

The dwang 3 passes through drive belt 6 and servo motor 7 constitution transmission structure, and the dwang 3 constitutes through pull wire 5 and links up pole 18 and receive and release the structure to the connected mode between pull wire 5 and the linking pole 18 is fixed connection, can make pull wire 5 be tightened up, thereby drives shifting up of stopper piece 16, and then the whole device of being convenient for carries out sample work to quality of water.

The output end of the servo motor 7 is fixedly welded with a first bevel gear 701, the first bevel gear 701 and the second bevel gear 9 are connected in a meshed mode, two groups of second bevel gears 9 are symmetrically arranged about the vertical central axis of the monitoring device body 1, and the linkage of the whole device can be stronger through a transmission structure.

The driving rods 10 and the second bevel gears 9 form a cam mechanism, the driving rods 10 correspond to the second bevel gears 9 one by one, and the orientation of the 2 groups of driving rods 10 is opposite, so that the cleaning block 22 can slide on the limit frame 11, and the growth of algae is reduced.

Spacing frame 11 and water storage frame 14 constitute and inlay sliding structure, and the frictional force between spacing frame 11 and the water storage frame 14 is greater than the gravity of water storage frame 14 to sliding structure is constituteed with clearance piece 22 to spacing frame 11, can make the light control connector 15 of whole device and opening and shutting of water inlet 12.

The water storage frame 14 and the blocking block 16 form a sliding structure through the connecting port 15, and the shape of the blocking block 16 is inverted concave, so that the water storage frame 14 can be smoothly filled with sample water.

The joint rod 18 and the containing frame 17 form an elastic structure through the first return spring 19, and the connection mode between the first return spring 19 and the containing frame 17 is welding, so that the water storage frame 14 can be restored to the initial position.

The vertical axis of the left end of clearance piece 22 and the vertical axis of left side actuating lever 10 are located same vertical plane, and the left part, the right part of clearance piece 22 all are "ten" font structure to clearance piece 22 constitutes piston structure with carriage 20, and the water sample that can deposit in the water frame 14 detects the structure more accurate.

Clearance piece 22 passes through

second reset spring

21 and 20 elastic connection of linking frame, and the internal diameter of linking frame 20 equals second reset spring 21's external diameter to clearance piece 22's sliding distance is greater than the opening width of water inlet 12, can make the surface of spacing frame 11 keep clean relatively, makes that the staff is better judge the analysis to the water quality testing structure.

The working principle of the embodiment is as follows: when the ecological monitoring device which is based on environmental protection and can detect water quality in real time and is convenient for sampling is used, firstly, as shown in fig. 1-3, after the monitoring device body 1 is placed in water, the whole device can float on the water surface (the monitoring device body 1 can be made of materials such as plastics and the like) and power is supplied to the servo motor 7 through the solar cell panel 23 (how the servo motor 7 is connected with the solar cell panel 23 and how the solar cell panel 23 converts solar energy into electric energy belong to the prior art, details are not described in the application), the servo motor 7 is turned on, the driving rod 10 can be rotated under the transmission action of the first bevel gear 701 and the second bevel gear 9, because the driving rod 10 and the second bevel gear 9 form a cam mechanism, the driving rods 10 correspond to the second bevel gear 9 one by one, the orientations of the driving rods 10 in 2 groups are opposite, and simultaneously, because the vertical central axis at the left end of the cleaning block 22 and the vertical central axis of the driving rod 10 at the left side are located on the same vertical plane, the left part and the right part of the cleaning block 22 form a cross-shaped structure, and the cleaning block 22 and the connecting frame 20 and can make the reciprocating movement of the driving rod 21, so that the algae can reduce the upper limit spring 11;

according to fig. 1 and 4-7, when the servo motor 7 rotates back and forth, because the pull wire 5 on the connecting rod 18 is long enough, the water storage frame 14 will not displace when the cleaning block 22 works, when water quality needs to be sampled, the servo motor 7 always rotates in one direction, when the pull wire 5 on the connecting rod 18 is wound by the rotating rod 3, the blocking block 16 is pulled to move upwards, so that the connecting port 15 is communicated with the water inlet 12, the water storage frame 14 can store water samples, and further, a worker can conveniently take samples in the water storage frame 14, when the water storage frame 14 is put back, the servo motor 7 continuously rotates backwards, because the friction force between the limiting frame 11 and the water storage frame 14 is greater than the gravity of the water storage frame 14, when the blocking block 16 slides downwards and the first return spring 19 recovers deformation, the blocking block 16 returns to the initial position first, then the water storage frame 14 is driven to move downwards stably, so that the connecting port 15 and the water inlet 12 are blocked, and simultaneously, the hollow limiting frame 11 slides down under the water storage frame 14, so that the water quality can be easily detected by the professional technical description and the ecological technology of the environmental protection technology can be easily used for water sampling.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof.

Claims

1. The utility model provides a but ecological monitoring devices of real-time detection quality of water and sample of being convenient for based on environmental protection, includes monitoring devices body (1), servo motor (7), actuating lever (10), blocks piece (16) and solar cell panel (23), its characterized in that: the monitoring device is characterized in that a supporting rod (2) is fixedly welded on the upper surface of a monitoring device body (1), a rotating rod (3) is rotatably connected to the inner side surface of the supporting rod (2), a signal transmission device (4) is fixedly arranged on the upper surface of the supporting rod (2), a traction line (5) is fixedly connected to the middle of the outer surface of the rotating rod (3), a transmission belt (6) is arranged on the outer surface of the rotating rod (3), a servo motor (7) is fixedly arranged on the inner surface of the monitoring device body (1), a connecting rod (8) is fixedly arranged on the inner surface of the monitoring device body (1), a second bevel gear (9) is rotatably connected to the outer surface of the connecting rod (8), a driving rod (10) is fixedly welded on the outer surface of the second bevel gear (9), a limiting frame (11) is fixedly welded on the inner portion of the monitoring device body (1), a water inlet (12) is formed in the outer surface of the limiting frame (11), a separating net (13) is fixedly formed in the inner portion of the water inlet (12), a water storage frame (14) is arranged in the inner portion of the limiting frame (11), a connecting port (15) is formed in the outer surface of the water storage frame (14), a connecting port (15), a movable block (16) is formed in the upper surface of the blocking block (16), a blocking block (17) is arranged in the blocking block, a connecting rod (18) is rotatably connected to the inside of the accommodating frame (17), a first return spring (19) is fixed to the outer surface of the connecting rod (18) through a welding machine, a connecting frame (20) is fixedly welded to the lower surface of the monitoring device body (1), a cleaning block (22) is arranged inside the connecting frame (20), a second return spring (21) is fixedly welded to the outer surface of the cleaning block (22), and a solar cell panel (23) is fixedly bolted to the outer surface of the supporting rod (2);

the rotating rod (3) and the servo motor (7) form a transmission structure through a transmission belt (6), the rotating rod (3) and the connecting rod (18) form a retraction structure through a traction wire (5), and the traction wire (5) is fixedly connected with the connecting rod (18);

the output end of the servo motor (7) is fixedly welded with a first bevel gear (701), the first bevel gear (701) and a second bevel gear (9) are connected in a meshed mode, and the second bevel gears (9) are symmetrically arranged in two groups about a vertical central axis of the monitoring device body (1);

the driving rods (10) and the second bevel gears (9) form a cam mechanism, the driving rods (10) correspond to the second bevel gears (9) one by one, and the directions of the two groups of driving rods (10) are opposite;

the vertical axis of the left end of the cleaning block (22) and the vertical axis of the left driving rod (10) are located on the same vertical plane, the left part and the right part of the cleaning block (22) are of a cross-shaped structure, and the cleaning block (22) and the connecting frame (20) form a piston structure.

2. The ecological monitoring device based on environmental protection, which can detect water quality in real time and is convenient for sampling according to claim 1, is characterized in that: sliding structure is inlayed in spacing frame (11) and trap water frame (14) constitution, and the frictional force between spacing frame (11) and trap water frame (14) is greater than the gravity of trap water frame (14) to sliding structure is constituteed with clearance piece (22) in spacing frame (11).

3. The ecological monitoring device based on environmental protection, which can detect water quality in real time and is convenient for sampling according to claim 1, is characterized in that: the water storage frame (14) and the blocking block (16) form a sliding structure through a connecting port (15), and the blocking block (16) is in an inverted concave shape.

4. The ecological monitoring device which is based on environmental protection and can detect water quality in real time and facilitate sampling according to claim 1, is characterized in that: the connecting rod (18) and the containing frame (17) form an elastic structure through a first return spring (19), and the first return spring (19) and the containing frame (17) are connected in a welding mode.

5. The ecological monitoring device based on environmental protection, which can detect water quality in real time and is convenient for sampling according to claim 1, is characterized in that: the cleaning block (22) is elastically connected with the connecting frame (20) through the second return spring (21), the inner diameter of the connecting frame (20) is equal to the outer diameter of the second return spring (21), and the sliding distance of the cleaning block (22) is larger than the opening width of the water inlet (12).