CN117849296A - Water quality monitor capable of automatically adjusting depth and storing samples in classified mode - Google Patents

Abstract

The invention discloses a water quality monitor capable of automatically adjusting depth and classifying and storing samples, which comprises a floating platform, wherein the outer side of the floating platform is connected with a floating ball; further comprises: the servo motor is arranged in the edge of the floating platform, and the end key of the output shaft of the servo motor is connected with a gear; the limiting ring is connected to the outer edge of the upper end of the floating platform in a sliding mode, the outer edge of the limiting ring is connected with the adjusting ring, and the adjusting ring is provided with the adjusting groove. This automatic adjustment degree of depth and to the quality of water monitor that sample classification deposited, the water to different degree of depth can be synchronous carries out classification deposit sampling monitoring, guarantees monitoring data's diversity, and the accessible drive adjusting ring rotates, and the curved regulating tank drive movable rod of control removes, drives the initiative piston and removes in the inflator to control slave piston is interactive in the inflator, and then control connecting rod drives the vertical removal of sampling tube, adjusts the degree of depth of sampling tube in the water, thereby adjusts the sampling monitoring degree of depth to the water.

Description

Water quality monitor capable of automatically adjusting depth and storing samples in classified mode

Technical Field

The invention relates to the technical field of water quality monitors, in particular to a water quality monitor capable of automatically adjusting depth and storing samples in a classified mode.

Background

The water quality monitoring is to monitor the concentration, the type and the like of pollutants in the water body so as to know the pollution degree of the water body in time, take measures in time to treat the water body, and generally monitor the water quality by using a monitor.

The utility model discloses a water quality monitor, wherein the publication number is CN212748886U name is a water quality monitor, including the kickboard that can float on the surface of water, sensor system is installed to the kickboard below, sensor system includes the mounting bracket and installs sensor on the mounting bracket, the kickboard below still is provided with a ring post, the ring post wraps up the sensor in, ring post surface is provided with a plurality of through-holes, be provided with the battery on the kickboard, the battery gives sensor system power supply. The water quality monitor is simple in structure, floats on the water surface through the floating plate, detects various indexes of water through the sensor, supplies power to the sensor through the storage battery, and can well protect the sensor and prolong the service life of the sensor when the sensor is arranged in the circular column.

The above-mentioned prior art scheme utilizes the sensor of below to carry out water quality monitoring, because the quality of water pollutant kind and the content of different degree of depth of water are different, so monitor the quality of water to different degree of depth and can increase the accuracy of monitoring data, and expose the sensor in place and can direct contact with the water of different degree of depth in proper order, outside also easily adheres to impurity, influence the accuracy of monitor to different degree of depth water quality monitoring data, consequently we have put forward an automatic adjustment degree of depth and to the quality of water monitor that the sample classification deposited in order to solve the problem that above-mentioned proposes.

Disclosure of Invention

The invention aims to provide a water quality monitor capable of automatically adjusting depth and classifying and storing samples, so as to solve the problems that in the current market, the types and contents of water quality pollutants at different depths of water bodies are different, so that the accuracy of monitoring data can be improved when the water quality at different depths is monitored, and an exposed sensor can be in direct contact with the water bodies at different depths in sequence, impurities are easy to adhere to the outside, and the accuracy of the monitor on the water quality monitoring data at different depths is affected.

In order to achieve the above purpose, the present invention provides the following technical solutions: the water quality monitor capable of automatically adjusting the depth and classifying and storing samples comprises a floating platform, wherein the outer side of the floating platform is connected with a floating ball;

further comprises:

the servo motor is arranged in the edge of the floating platform, and the end key of the output shaft of the servo motor is connected with a gear;

the limiting ring is connected to the outer edge of the upper end of the floating platform in a sliding manner, the outer edge of the limiting ring is connected with the adjusting ring, an adjusting groove is formed in the adjusting ring, a moving rod is attached to the inner side of the adjusting groove, a tooth block is mounted on the outer side of the adjusting ring, and the tooth block is in meshed connection with the gear;

the air cylinder is arranged on the upper side surface of the floating platform, the inside of the upper end of the air cylinder is connected with a driving piston in a sliding manner, one side of the driving piston is connected with the end part of the moving rod, the inside of the lower end of the air cylinder is connected with a driven piston in a sliding manner, and the lower side surface of the driven piston is provided with a connecting rod;

the fixed frame is arranged on the inner side surface of the floating platform, the inner side of the fixed frame is connected with a sampling tube in a sliding manner, the side surface of the sampling tube is connected with the lower end of the connecting rod, and the lower end of the sampling tube is provided with a filter plate;

the sample tank is arranged in the sampling tube, and a water quality sensor is arranged on the inner side of the lower end of the sample tank;

the inflator comprises an inflator, a mounting plate, an inflator pump and an inflation hose, wherein the mounting plate is arranged on the outer side of the inflator, the inflator pump is arranged on the upper side of the mounting plate, and the inflation port of the inflator pump is connected with the inflation hose.

Preferably, the inside of the lower section of the sample tank is slidably connected with a sampling piston, the upper side surface of the inside of the upper section of the sample tank is connected with an inflatable bag, the lower side surface of the inside of the upper section of the sample tank is connected with a rubber air bag, the lower side of the rubber air bag is communicated with a connecting pipe, and the lower end of the connecting pipe stretches into the sampling piston;

the upper side of the inflatable bag is communicated with an exhaust hose and an inflation hose, and an electromagnetic valve is arranged on the exhaust hose.

Preferably, the adjusting ring and the floating platform form a rotating structure through the limiting ring, a gap exists between the highest point of the floating platform, which is close to the edge, and the moving rod, and the design can ensure the stable rotation of the adjusting ring, and the moving rod is driven to move by utilizing the rotating force of the adjusting ring.

Preferably, one end of the moving rod extending out of the air cylinder can slide in the adjusting groove, the adjusting groove is of an arc-shaped structure, and the moving rod can be pushed by the adjusting groove to move in the air cylinder.

Preferably, the air cylinders are of a 7-shaped structure, and the air cylinders are distributed at equal angles with respect to the longitudinal center line of the floating platform.

Preferably, the connecting rod is of an L-shaped structure, the lower end of the connecting rod penetrates through the side wall of the fixing frame and is connected with the fixing frame in a vertical sliding mode, and stable movement of the connecting rod can be guaranteed through the design, so that the sampling tube is driven to move up and down.

Preferably, the inflatable bag and the rubber bag are mutually attached, and the rubber bag and the sample groove are mutually communicated through the connecting pipe, and the design can utilize the shrinkage and expansion of the inflatable bag to realize the compression shrinkage and the subsequent resetting expansion of the rubber bag.

Preferably, the lower end of the exhaust hose is obliquely distributed, and the lower end of the exhaust hose is obliquely oriented to the filter plate, so that the exhaust hose can be used for exhausting air flow to the filter plate for air-flushing cleaning of the filter plate.

Preferably, the tooth blocks are distributed at the joint of the adjusting ring and the gear in equal angles, and a gap exists between the adjusting ring and the floating platform, so that the adjusting ring can be driven to rotate by rotation of the gear.

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

(1) The automatic depth adjustment and sample classification storage water quality monitor is provided with sampling barrels with different height positions, can synchronously classify, store and sample and monitor water bodies with different depths, ensures the diversity of monitoring data, can rotate through a driving adjusting ring, controls an arc-shaped adjusting groove to drive a moving rod to move so as to drive a driving piston to move in an air cylinder, thereby controlling a driven piston to interact in the air cylinder, further controlling a connecting rod to drive the sampling barrel to vertically move, adjusting the depth of the sampling barrel in the water body, adjusting the sampling and monitoring depth of the water body, further realizing the data diversity of water quality monitoring, detecting the water quality in a large range, ensuring the balance of transverse stress of the water quality monitor, reducing the stress of vertical distribution parts, improving the use stability of the water quality monitor and the wind resistance of the water quality monitor;

(2) The water quality monitor capable of automatically adjusting the depth and storing samples in a classified mode is provided with a sample groove, the inflatable rubber air bag of the inflatable air bag is utilized to shrink, air flow is filled into the sample groove, the sampling piston is pushed to move downwards, air and water in the sample groove are emptied, flowing water can flush the water quality sensor, and when the water quality monitor adjusts the monitoring depth, water in different layers is prevented from entering the sample groove to be in contact with the water quality sensor, and quality monitoring can be accurately carried out on the water;

(3) This automatic adjustment degree of depth and to the classified water quality monitor who deposits of sample is provided with exhaust hose and filter, utilizes the filter to intercept debris in the water, and simultaneously when taking a sample to water, the air current of exhaust hose emission is towards the filter, sweeps the filter, avoids the filter to block up for the quick entering into of water sample inslot monitors, avoids debris winding water quality sensor and influences water quality monitor's use.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the bottom structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a schematic perspective view of an adjusting ring according to the present invention;

FIG. 5 is a schematic perspective view of a fixing frame according to the present invention;

FIG. 6 is a schematic cross-sectional view of the cartridge of the present invention;

FIG. 7 is a schematic perspective view of an exhaust hose according to the present invention;

FIG. 8 is a schematic cross-sectional view of a sampling cartridge according to the present invention.

In the figure: 1. a floating platform; 2. a floating ball; 3. a servo motor; 4. a limiting ring; 5. an adjusting ring; 6. an adjustment tank; 7. a moving rod; 8. an air cylinder; 9. a driving piston; 10. a slave piston; 11. a connecting rod; 12. a fixing frame; 13. a gear; 14. a sampling tube; 15. a mounting plate; 16. an inflator pump; 17. an inflatable hose; 18. an inflatable bag; 19. a rubber air bag; 20. a connecting pipe; 21. a sample tank; 22. a water quality sensor; 23. a filter plate; 24. a sampling piston; 25. an exhaust hose; 26. an electromagnetic valve; 27. tooth blocks.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides the following technical solutions.

Embodiment one:

because the types and the contents of the water quality pollutants at different depths of the water body are different, the accuracy of monitoring data can be improved when the water quality at different depths is monitored, and therefore, in order to solve the technical problem, the embodiment also comprises a floating table 1, and the outer side of the floating table 1 is connected with a floating ball 2; the servo motor 3 is arranged in the edge of the floating platform 1, and the end key of the output shaft of the servo motor 3 is connected with a gear 13; the limiting ring 4 is connected to the outer edge of the upper end of the floating platform 1 in a sliding manner, the outer edge of the limiting ring 4 is connected with the adjusting ring 5, the adjusting ring 5 is provided with the adjusting groove 6, the inner side of the adjusting groove 6 is provided with the moving rod 7 in a fitting manner, the outer side of the adjusting ring 5 is provided with the tooth block 27, and the tooth block 27 is in meshed connection with the gear 13; the air cylinder 8 is arranged on the upper side surface of the floating platform 1, the inside of the upper end of the air cylinder 8 is connected with the driving piston 9 in a sliding way, one side of the driving piston 9 is connected with the end part of the moving rod 7, the inside of the lower end of the air cylinder 8 is connected with the driven piston 10 in a sliding way, and the lower side surface of the driven piston 10 is provided with the connecting rod 11; the fixed frame 12 is arranged on the inner side surface of the floating platform 1, the inner side of the fixed frame 12 is connected with the sampling tube 14 in a sliding way, the side surface of the sampling tube 14 is connected with the lower end of the connecting rod 11, and the lower end of the sampling tube 14 is provided with the filter plate 23;

the adjusting ring 5 and the floating platform 1 form a rotating structure through the limiting ring 4, and a gap exists between the highest point of the floating platform 1, which is close to the edge, and the moving rod 7; one end of the moving rod 7 extending out of the air cylinder 8 can slide in the adjusting groove 6, and the adjusting groove 6 is of an arc-shaped structure; the air cylinders 8 are of a 7-shaped structure, and the air cylinders 8 are distributed at equal angles relative to the longitudinal center line of the floating platform 1; the connecting rod 11 is of an L-shaped structure, and the lower end of the connecting rod 11 penetrates through the side wall of the fixing frame 12 and is connected with the fixing frame 12 in an up-down sliding manner;

the working principle of the embodiment is as follows: the floating platform 1 shown in fig. 1 is placed on a water body, the floating platform 1 floats on the water surface, meanwhile, floating balls 2 floating on the horizontal are utilized, floating stability of the floating platform 1 can be guaranteed, a fixing frame 12 and an inner sampling tube 14 extend into the water, monitoring depth of the water body can be adjusted, a servo motor 3 is connected with a power supply, the servo motor 3 is controlled to rotate positively, a gear 13 connected with the control output end rotates, transmission of a tooth block 27 connected with the meshing mode is matched, an adjusting ring 5 can be driven to rotate anticlockwise, the limiting ring 4 mounted on the inner side of the adjusting ring 5 rotates on the floating platform 1, stable rotation of the adjusting ring 5 is guaranteed, an adjusting groove 6 pushes a moving rod 7, the driving piston 9 is controlled to slide in the air tube 8, air pressure in the air tube 8 is adjusted, the driven piston 10 is pushed to move downwards, the connecting rod 11 is driven to control the sampling tube 14 to move downwards, the servo motor 3 is controlled to turn the servo motor, the adjusting ring 5 can be controlled to rotate clockwise, the driving piston 9 is driven to slide reversely in the air tube 8, the air tube 10 is driven to move the driven to the sampling tube 14, the sampling depth is controlled to move the sampling tube 14 in the water body, and then the water body can be adjusted after the water body is monitored.

Embodiment two:

the exposed in-place sensor can be in direct contact with water bodies with different depths in sequence, impurities are easy to adhere to the outside, and the accuracy of the monitor on water quality monitoring data with different depths is affected, so that in order to solve the technical problem, the embodiment further comprises a sample tank 21 which is arranged in the sampling tube 14, and a water quality sensor 22 is arranged on the inner side of the lower end of the sample tank 21; the mounting plate 15 is arranged on the outer side of the inflator 8, the inflator 16 is arranged on the upper side of the mounting plate 15, and an inflation port of the inflator 16 is connected with an inflation hose 17; the inside of the lower section of the sample tank 21 is slidably connected with a sampling piston 24, the upper side surface of the inside of the upper section of the sample tank 21 is connected with an air bag 18, the lower side surface of the inside of the upper section of the sample tank 21 is connected with a rubber air bag 19, the lower side of the rubber air bag 19 is communicated with a connecting pipe 20, and the lower end of the connecting pipe 20 extends into the sampling piston 24; the upper side surface of the inflatable bag 18 is communicated with an exhaust hose 25 and an inflation hose 17, and an electromagnetic valve 26 is arranged on the exhaust hose 25;

the air bag 18 and the rubber bag 19 are mutually attached, and the rubber bag 19 and the sample groove 21 are mutually communicated through a connecting pipe 20; the lower ends of the exhaust hoses 25 are obliquely distributed, and the lower ends of the exhaust hoses 25 are obliquely oriented to the filter plates 23; the tooth blocks 27 are distributed at the joint of the adjusting ring 5 and the gear 13 in equal angles, and a gap exists between the adjusting ring 5 and the floating platform 1;

the working principle of the embodiment is as follows: when the monitoring depth of the water body is adjusted, the air pump 16 is firstly powered on, air is filled into the air bag 18 through the air hose 17, the air bag 18 is inflated to bulge, the rubber air bag 19 is extruded, the air flow is discharged into the sample tank 21 through the connecting pipe 20, the sampling piston 24 is pushed to move downwards, samples in the sample tank 21 are discharged, flowing water can flush the water quality sensor 22, when the sampling tube 14 moves downwards, water is prevented from entering the sample tank 21, after the adjustment is finished, the air pump 16 is closed, the electromagnetic valve 26 can be opened, the air flow in the air bag 18 is discharged through the air hose 25 (the upper end of the air hose 25 is made of soft materials, the lower end of the air hose 25 is made of hard materials, the air flow is blown to the filter plate 23, the filter plate 23 is purged, the blocking of the filter plate 23 is avoided, meanwhile, the rubber air bag 19 starts to reset and expand, the air pressure in the sample tank 21 is adjusted, the sampling piston 24 moves upwards, the water is pumped into the sample tank 21, the samples are stored and monitored in a classified mode, the sensor 22 can accurately pollute the water quality, or if the monitoring depth is detected, and the abnormal monitoring depth of the samples can be further detected when the monitoring depth is required.

What is not described in detail in this specification is prior art known to those skilled in the art.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Although the present invention has been described 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, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (9)

1. The water quality monitor capable of automatically adjusting the depth and classifying and storing samples comprises a floating platform (1), wherein the outer side of the floating platform (1) is connected with a floating ball (2);

the method is characterized in that: further comprises:

the servo motor (3) is arranged in the edge of the floating platform (1), and the end key of the output shaft of the servo motor (3) is connected with a gear (13);

the limiting ring (4) is connected to the outer edge of the upper end of the floating platform (1) in a sliding manner, the outer edge of the limiting ring (4) is connected with the adjusting ring (5), the adjusting ring (5) is provided with the adjusting groove (6), the inner side of the adjusting groove (6) is provided with the moving rod (7) in a fitting manner, the outer side of the adjusting ring (5) is provided with the tooth block (27), and the tooth block (27) is in meshed connection with the gear (13);

the air cylinder (8) is arranged on the upper side surface of the floating platform (1), a driving piston (9) is connected in the air cylinder (8) in a sliding manner, one side of the driving piston (9) is connected with the end part of the moving rod (7), a driven piston (10) is connected in the air cylinder (8) in a sliding manner, and a connecting rod (11) is arranged on the lower side surface of the driven piston (10);

the fixed frame (12) is arranged on the inner side surface of the floating platform (1), the inner side of the fixed frame (12) is connected with the sampling tube (14) in a sliding manner, the side surface of the sampling tube (14) is connected with the lower end of the connecting rod (11), and the lower end of the sampling tube (14) is provided with the filter plate (23);

a sample tank (21) which is arranged in the sampling tube (14), and a water quality sensor (22) is arranged on the inner side of the lower end of the sample tank (21);

the inflator comprises a mounting plate (15), wherein the mounting plate is mounted on the outer side of the inflator (8), an inflator pump (16) is mounted on the upper side of the mounting plate (15), and an inflation port of the inflator pump (16) is connected with an inflation hose (17).

2. A water quality monitor for automatically adjusting depth and sorting samples according to claim 1, wherein: the inside of the lower section of the sample tank (21) is slidably connected with a sampling piston (24), the upper side surface of the inside of the upper section of the sample tank (21) is connected with an air bag (18), the lower side surface of the inside of the upper section of the sample tank (21) is connected with a rubber air bag (19), the lower side of the rubber air bag (19) is communicated with a connecting pipe (20), and the lower end of the connecting pipe (20) stretches into the sampling piston (24);

the upper side of the air bag (18) is communicated with an air exhaust hose (25) and an air inflation hose (17), and an electromagnetic valve (26) is arranged on the air exhaust hose (25).

3. A water quality monitor for automatically adjusting depth and sorting samples according to claim 1, wherein: the adjusting ring (5) and the floating platform (1) form a rotating structure through the limiting ring (4), and a gap exists between the highest point, close to the edge, of the floating platform (1) and the moving rod (7).

4. A water quality monitor for automatically adjusting depth and sorting samples according to claim 1, wherein: one end of the moving rod (7) extending out of the air cylinder (8) can slide in the adjusting groove (6), and the adjusting groove (6) is of an arc-shaped structure.

5. A water quality monitor for automatically adjusting depth and sorting samples according to claim 1, wherein: the air cylinder (8) is of a 7-shaped structure, and the air cylinder (8) is distributed at equal angles relative to the longitudinal center line of the floating platform (1).

6. A water quality monitor for automatically adjusting depth and sorting samples according to claim 1, wherein: the connecting rod (11) is of an L-shaped structure, and the lower end of the connecting rod (11) penetrates through the side wall of the fixing frame (12) and is connected with the fixing frame (12) in an up-down sliding mode.

7. A water quality monitor for automatically adjusting depth and sorting samples according to claim 2, wherein: the air bag (18) and the rubber air bag (19) are mutually attached, and the rubber air bag (19) and the sample groove (21) are mutually communicated through the connecting pipe (20).

8. A water quality monitor for automatically adjusting depth and sorting samples according to claim 2, wherein: the lower ends of the exhaust hoses (25) are distributed in an inclined mode, and the lower ends of the exhaust hoses (25) are inclined towards the filter plate (23).

9. A water quality monitor for automatically adjusting depth and sorting samples according to claim 2, wherein: the tooth blocks (27) are distributed at equal angles at the joint of the adjusting ring (5) and the gear (13), and a gap exists between the adjusting ring (5) and the floating platform (1).