CN221189001U - Floating type water quality monitoring device - Google Patents
Floating type water quality monitoring device Download PDFInfo
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- CN221189001U CN221189001U CN202323405272.3U CN202323405272U CN221189001U CN 221189001 U CN221189001 U CN 221189001U CN 202323405272 U CN202323405272 U CN 202323405272U CN 221189001 U CN221189001 U CN 221189001U
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- 238000012544 monitoring process Methods 0.000 claims abstract description 27
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- 238000012372 quality testing Methods 0.000 description 3
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Abstract
The utility model relates to the field of water quality monitoring devices, in particular to a floating type water quality monitoring device. Technical problems: the water quality monitoring device has the advantages that as the interference substances in the discharged wastewater are more, the water quality monitoring structure is interfered, the monitoring of conventional pollutants in the discharged wastewater cannot be met, and the overall monitoring effect is reduced. The technical scheme is as follows: the floating type water quality monitoring device comprises a triangular floating module, a center protection assembly, a signal control assembly, an underwater monitoring module, a pushing assembly and a water quality acquisition assembly; according to the fact that the interference substances in the discharged wastewater are more, the water quality monitoring structure is different in interference condition, the propulsion assembly can be used for driving the whole body to float and advance, the driving motor drives the rotating shaft to drive the stirring paddle to rotate, the designated water quality detection area is reached rapidly, the water quality detection operation is carried out better, the winding steel wire rope is driven to shake along with the rotation of the stirring paddle, and the whole water quality detection performance is improved.
Description
Technical Field
The utility model relates to the field of water quality monitoring devices, in particular to a floating type water quality monitoring device.
Background
The main monitoring items of water quality monitoring can be largely divided into two main categories from the indexes and types of pollutants. One is a comprehensive index reflecting the water quality condition, such as the temperature, chromaticity, turbidity, PH value, suspended matters, biological oxygen demand and the like of the water, the other is a toxic substance such as phenol, cyanogen, arsenic, lead, chromium, cadmium, mercury, organic pesticide and the like contained in the water, and the existing water quality monitoring device can not meet the monitoring of the conventional pollutants in the discharged wastewater due to the fact that the water quality monitoring structure is interfered in the detection process because of the large amount of interference substances in the discharged wastewater, and the overall monitoring effect is reduced; we have therefore proposed a floating water quality monitoring device in order to solve the problems set out above.
Disclosure of utility model
In order to overcome the water quality monitoring device, as the interference substances in the discharged wastewater are more, the water quality monitoring structure is interfered, the monitoring of conventional pollutants in the discharged wastewater cannot be satisfied, and the problem of overall monitoring effect is reduced.
The technical scheme of the utility model is as follows: a floating type water quality monitoring device comprises a triangular floating module, a center protection assembly, a signal control assembly, an underwater monitoring module, a pushing assembly and a water quality acquisition assembly; the center of the triangular floating module is provided with a center protection component for protecting and positioning and blocking water waves, the triangular end of the triangular floating module is provided with a signal control component for warning and observing, the center lower end of the center protection component is provided with an underwater monitoring module for monitoring underwater conditions, the two corners of the lower end of the triangular floating module are provided with pushing components for pushing the floating direction to conduct guiding, and the pushing components are provided with water quality collecting components for collecting water quality solution.
Preferably, the propulsion assembly is adopted to drive the whole operation of marcing that floats, driving motor drive pivot drives the stirring rake rotatory, reach appointed water quality testing area fast, in order to better carry out water quality testing operation, along with the stirring rake is rotatory, drive rolling wire rope's rocks, synchronous driver drive rotary rod drives the wind-up roll rotatory, reach appointed depth degree, make regional impurity around it shake and come, avoid taking place the winding condition, carry out better water quality sampling, the rivers are first through gathering the groove and are preliminary adoption through gathering the bucket, the one-way membrane of inner tube infiltration carries out the degree of depth sampling again, the rethread is in time detected the aquatic condition by the monitor, carry out timely feedback operation by the antenna module, promote whole water quality testing performance.
Preferably, the outside cover of the triangle floating module is provided with a triangle floating air bag, the periphery of the triangle floating module is surrounded with an auxiliary air bag ball, the end part of the triangle floating module is provided with a guide air bag ball, the triangle floating module and the lower end of the triangle floating air bag form a negative pressure space, the center of the triangle floating module is provided with an antenna module, the outside cover of the antenna module is provided with a sealing sleeve, the underwater monitor timely detects the underwater condition, and the antenna module timely feeds back the operation to improve the whole water quality detection performance.
Preferably, the center protection assembly comprises a first anti-shaking taper sleeve and a second anti-shaking taper sleeve, the first anti-shaking taper sleeve and the second anti-shaking taper sleeve are coaxially and reversely arranged, the centers of the first anti-shaking taper sleeve and the second anti-shaking taper sleeve are provided with center holes, the outer sides of the first anti-shaking taper sleeve and the second anti-shaking taper sleeve are provided with retaining grooves in a surrounding mode, the centers of the retaining grooves are provided with flow grooves, and when waves impact the first anti-shaking taper sleeve and the second anti-shaking taper sleeve, water waves form a layer of blocking through the retaining grooves, and gradual diversion operation is carried out through the flow grooves.
Preferably, the signal control assembly comprises a connecting column, a solar module and a signal indicator lamp, the top of the connecting column is provided with the signal indicator lamp, the upper end outer side of the connecting column is annularly provided with the solar module, the underwater monitoring module comprises a telescopic sleeve, a compression-resistant sleeve and a water pressure monitor, the telescopic sleeve is connected with the two sets of sleeves, the telescopic sleeve is internally provided with a telescopic controller, the compression-resistant sleeve is arranged on the outer side of the lower end of the telescopic sleeve, the compression-resistant sleeve is provided with an underwater monitor, the underwater monitor timely detects the underwater condition through the underwater monitor, and the antenna module timely feeds back the operation to improve the overall water quality detection performance.
As the preference, promote the subassembly including the spacer sleeve, rotary rod, wind-up roll, driver, rolling wire rope, positioning disk, stirring rake and driving motor, the center of spacer sleeve is equipped with the wind-up roll, and driver drive rotary rod drives the wind-up roll rotation, and synchronous driver drive rotary rod drives the wind-up roll rotation, reaches appointed depth degree, makes its regional impurity in every side shake out, avoids taking place the winding condition.
Preferably, the winding steel wire rope is arranged on the outer side of the winding roller in a surrounding mode, a positioning disc is arranged at one end, far away from the winding roller, of the winding steel wire rope, a rotating shaft is arranged at the center of the positioning disc, the driving motor drives the rotating shaft to drive the stirring paddles to rotate, the outer wall of the winding steel wire rope is coated with an anti-corrosion coating, the driving motor drives the rotating shaft to drive the stirring paddles to rotate, and the designated water quality detection area is achieved rapidly.
As the preference, quality of water gathers subassembly including plug bush lid, collection bucket, inner tube, filter screen and one-way membrane, plug bush lid and collection bucket mutually match cup joint, collect the outside circumference of bucket and offered the collection groove, and the center of collection bucket is equipped with the inner tube, and the outer wall cover of inner tube is equipped with the filter screen, and the inner wall laminating of inner tube is equipped with one-way membrane, and rivers are preliminary to adopt through collection groove through collection bucket earlier, and the one-way membrane of inner tube infiltration carries out the degree of depth sampling again.
The utility model has the beneficial effects that:
1. According to the waste water discharge in the past interference material is many, the quality monitoring structure receives the interference condition different, adopt propulsion unit to drive wholly and float the operation of marcing, driving motor drive pivot drives the stirring rake rotatory, reach appointed quality of water detection region fast, for better quality of water detection operation, along with the stirring rake is rotatory, drive rolling wire rope's the going on rocking, synchronous driver drive rotary rod drives the wind-up roll and rotates, reach appointed depth degree, make its regional impurity in the surrounding area slosh, avoid taking place the winding condition, carry out better quality of water sampling, the rivers are first through gathering the groove and are preliminary adoption through gathering the bucket, the one-way membrane of inner tube infiltration carries out the degree of depth sampling again, the rethread is in time detected the aquatic condition, carry out timely feedback operation by antenna module, promote whole quality of water detection performance.
2. Along with the wave impact triangle floats the module, utilize triangular stability, form the triangle and support, synchronous triangle floats gasbag and supplementary gasbag ball and floats supplementary, form multiple spot support and the balanced adjustment of bottom, make it scatter the impact force, float control with different fulcrums, when the wave is strikeed first anti-shake taper sleeve and second anti-shake taper sleeve, the wave forms one deck separation through the stay tank, carry out gradual reposition of redundant personnel operation through the flow tank, increase whole floating stability.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present utility model;
FIG. 2 is a schematic diagram of a triangular floating module according to the present utility model;
FIG. 3 is a schematic diagram of a center protection assembly of the present utility model;
FIG. 4 is a schematic diagram of a pushing assembly of the present utility model;
FIG. 5 is a schematic view of a water quality acquisition assembly according to the present utility model.
Reference numerals illustrate: 1. a triangular floating module; 2. a center protection assembly; 3. a signal control assembly; 4. an underwater monitoring module; 5. a pushing assembly; 6. a water quality acquisition assembly; 101. a triangular floating air bag; 102. an auxiliary balloon; 103. sealing sleeve; 104. an antenna module; 105. a negative pressure space; 106. a guide balloon ball; 201. a first anti-shake cone sleeve; 202. a second anti-shake taper sleeve; 203. a central bore; 204. a retention tank; 205. a flow channel; 301. a connecting column; 302. a solar module; 303. a signal indicator light; 401. a telescopic sleeve; 402. a compression-resistant sleeve; 403. an underwater monitor; 501. a positioning sleeve; 502. a wind-up roll; 503. a driver; 504. winding the steel wire rope; 505. a positioning plate; 506. stirring paddles; 507. a driving motor; 508. an anti-corrosion coating; 601. a plug bush cover; 602. a collecting barrel; 603. a collection tank; 604. an inner cylinder; 605. a filter screen; 606. a unidirectional film.
Detailed Description
The utility model is further described below with reference to the drawings and examples.
Referring to fig. 1-2, the present utility model provides an embodiment: a floating type water quality monitoring device comprises a triangular floating module 1, a central protection assembly 2, a signal control assembly 3, an underwater monitoring module 4, a pushing assembly 5 and a water quality acquisition assembly 6; the center of the triangular floating module 1 is provided with a center protection component 2 for protecting and positioning and blocking water waves, the triangular end of the triangular floating module 1 is provided with a signal control component 3 for warning and observing, the center lower end of the center protection component 2 is provided with an underwater monitoring module 4 for monitoring underwater conditions, the two corners of the lower end of the triangular floating module 1 are provided with pushing components 5 for pushing floating directions to conduct guiding, and the pushing components 5 are provided with a water quality collecting component 6 for collecting water quality solution.
Referring to fig. 2-4, in this embodiment, a triangular floating air bag 101 is sleeved on the outer side of the triangular floating module 1, an auxiliary air bag ball 102 is circumferentially arranged on the periphery of the triangular floating module 1, a guiding air bag ball 106 is arranged at the end of the triangular floating module 1, a negative pressure space 105 is formed between the triangular floating module 1 and the lower end of the triangular floating air bag 101, an antenna module 104 is arranged at the center of the triangular floating module 1, a sealing sleeve 103 is sleeved on the outer side of the antenna module 104, then the underwater monitor 403 detects the condition in water in time, the antenna module 104 performs timely feedback operation, the overall water quality detection performance is improved, the center protection assembly 2 comprises a first anti-sloshing taper sleeve 201 and a second anti-sloshing taper sleeve 202, the first anti-sloshing taper sleeve 201 and the second anti-sloshing taper sleeve 202 are coaxially and oppositely arranged, a center hole 203 is formed in the centers of the first anti-sloshing taper sleeve 201 and the second anti-sloshing taper sleeve 202, a retaining groove 204 is formed around the outer side of the antenna module 104, a flow groove 205 is formed in the center of the retaining groove 204, and when the first anti-sloshing taper sleeve 201 and the second anti-sloshing taper sleeve 202 pass through the first anti-sloshing taper sleeve and the second anti-sloshing taper sleeve 204, and the flow channel is gradually formed.
Referring to fig. 3-4, in this embodiment, the signal control assembly 3 includes a connection column 301, a solar module 302 and a signal indicator 303, the top of the connection column 301 is provided with the signal indicator 303, the upper end outer side of the connection column 301 is provided with the solar module 302 in a circumferential direction, the underwater monitoring module 4 includes a telescopic sleeve 401, a compression-resistant sleeve 402 and a hydraulic monitor, the telescopic sleeve 401 is connected in two sets, a telescopic controller is disposed in the telescopic sleeve 401, the compression-resistant sleeve 402 is disposed at the outer side of the lower end of the telescopic sleeve 401, the compression-resistant sleeve 402 is provided with the underwater monitor 403, the underwater monitor 403 is used for timely detecting the underwater condition, the antenna module 104 is used for timely feeding back, the overall water quality detection performance is improved, the pushing assembly 5 includes a positioning sleeve 501, a rotating rod, a winding roller 502, a driver 503, a winding steel wire 504, a positioning disc 505, a stirring paddle 506 and a driving motor 507, the center of the positioning sleeve 501 is provided with the winding roller 502, the driver 503 drives the winding roller 502 to rotate, and the synchronous driver 503 drives the winding roller 502 to rotate, so that the rotating rod is driven by the winding roller 502 to rotate, thereby achieving a specified shallow-depth condition, and the impurity is prevented from winding around the winding condition.
Referring to fig. 4-5, in this embodiment, a winding steel wire rope 504 is disposed around the outer side of the winding roller 502, a positioning disc 505 is disposed at one end of the winding steel wire rope 504 away from the winding roller 502, a rotating shaft is disposed at the center of the positioning disc 505, a driving motor 507 drives the rotating shaft to drive a stirring paddle 506 to rotate, an anti-corrosion coating 508 is coated on the outer wall of the winding steel wire rope 504, the driving motor 507 drives the rotating shaft to drive the stirring paddle 506 to rotate, a designated water quality detection area is quickly reached, a water quality collection assembly 6 comprises a plug cover 601, a collection barrel 602, an inner barrel 604, a filter screen 605 and a unidirectional film 606, the plug cover 601 is in matched and sleeved with the collection barrel 602, a collection groove 603 is disposed on the outer side of the collection barrel 602 in a circumferential direction, an inner barrel 604 is disposed at the center of the collection barrel 602, a filter screen 605 is disposed on the outer wall of the inner barrel 604 in a sleeved manner, a unidirectional film 606 is disposed on the inner wall of the inner barrel 604 in a laminated manner, water flow is primarily adopted through the collection barrel 602, and then is deeply sampled through the unidirectional film 606.
When the device works, when the device moves integrally, the driving motor 507 drives the rotating shaft to drive the stirring paddle 506 to rotate, so that a designated water quality detection area is reached quickly, and in order to perform water quality detection operation better, the synchronous driver 503 drives the rotating rod to drive the winding roller 502 to rotate along with the rotation of the stirring paddle 506 to shake the winding steel wire rope 504, so that the designated depth degree is reached, and impurities in the surrounding area of the winding roller are shaken off;
the solar module 302 receives light energy and supplies energy to the signal indicator lamp 303, and continuously blinks along with the whole floating to form a guiding direction;
Better water quality sampling, the water flow is firstly adopted initially through the collecting tank 603 and the collecting barrel 602, then penetrates the unidirectional film 606 through the inner barrel 604 to carry out deep sampling, then the underwater monitor 403 is used for timely detecting the condition in water, and the antenna module 104 is used for timely feedback operation;
Along with the wave impacting the triangular floating module 1, triangular supports are formed by utilizing triangular stability, the synchronous triangular floating air bag 101 and the auxiliary air bag ball 102 are used for floating assistance, multi-point supports and bottom balance adjustment are formed, impact force is dispersed, floating control is carried out through different fulcrums, when the wave impacts the first anti-shaking taper sleeve 201 and the second anti-shaking taper sleeve 202, a layer of blocking is formed by water waves through the retention groove 204, and gradual diversion operation is carried out through the flow groove 205.
Through the steps, the propulsion assembly is adopted to drive the whole body to float and advance, the driving motor 507 drives the rotating shaft to drive the stirring paddle 506 to rotate, the appointed water quality detection area is reached rapidly, for better water quality detection operation, the winding wire rope 504 is driven to shake along with the rotation of the stirring paddle 506, the synchronous driver 503 drives the rotating rod to drive the winding roller 502 to rotate, the appointed depth degree is reached, impurities in the surrounding area are made to shake away, the winding condition is avoided, better water quality sampling is carried out, water flow firstly passes through the collecting tank 603 and the collecting barrel 602 to be initially adopted, then the inner barrel 604 permeates the unidirectional film 606 to carry out deep sampling, the underwater condition is timely detected through the underwater monitor 403, the antenna module 104 carries out timely feedback operation, and the whole water quality detection performance is improved.
The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.
Claims (7)
1. A floating type water quality monitoring device comprises a triangular floating module (1); the method is characterized in that: the device also comprises a central protection component (2), a signal control component (3), an underwater monitoring module (4), a pushing component (5) and a water quality acquisition component (6); the center of triangle floating module (1) is equipped with and is used for protecting location and blocking the center protection component (2) of unrestrained, and the triangle end of triangle floating module (1) all is equipped with signal control component (3) that are used for warning observation, and the center lower extreme of center protection component (2) is equipped with and is used for monitoring the underwater monitoring module (4) of condition under water, and the lower extreme both corners department of triangle floating module (1) all is equipped with and is used for promoting promotion subassembly (5) that float the direction and carry out the guide, is equipped with along being equipped with on promotion subassembly (5) and is used for gathering quality of water collection subassembly (6) of aqueous solution.
2. A floating water quality monitoring device according to claim 1, wherein: the outside cover of triangle floating module (1) is equipped with triangle floating air bag (101), and the periphery of triangle floating module (1) is encircleed and is equipped with supplementary gasbag ball (102), and the tip of triangle floating module (1) is equipped with direction gasbag ball (106), and triangle floating module (1) forms negative pressure space (105) with the lower extreme of triangle floating air bag (101), and the center of triangle floating module (1) is equipped with antenna module (104), and the outside cover of antenna module (104) is equipped with seal cover (103).
3. A floating water quality monitoring device according to claim 1, wherein: the center protection assembly (2) comprises a first shaking prevention taper sleeve (201) and a second shaking prevention taper sleeve (202), the first shaking prevention taper sleeve (201) and the second shaking prevention taper sleeve (202) are coaxially and oppositely arranged, the centers of the first shaking prevention taper sleeve (201) and the second shaking prevention taper sleeve (202) are provided with a center hole (203), the outer sides of the first shaking prevention taper sleeve (201) and the second shaking prevention taper sleeve (202) are provided with retaining grooves (204) in a surrounding mode, and the centers of the retaining grooves (204) are provided with flow grooves (205).
4. A floating water quality monitoring device according to claim 1, wherein: the signal control assembly (3) comprises a connecting column (301), a solar module (302) and a signal indicator lamp (303), wherein the signal indicator lamp (303) is arranged at the top of the connecting column (301), the solar module (302) is annularly arranged at the outer side of the upper end of the connecting column (301), the underwater monitoring module (4) comprises a telescopic sleeve (401), a compression-resistant sleeve (402) and an underwater monitor (403), the telescopic sleeve (401) is connected with the two sets of sleeves, the telescopic controller is arranged in the telescopic sleeve (401), the compression-resistant sleeve (402) is arranged at the outer side of the lower end of the telescopic sleeve (401), and the underwater monitor (403) is arranged on the compression-resistant sleeve (402).
5. A floating water quality monitoring device according to claim 1, wherein: the pushing assembly (5) comprises a locating sleeve (501), a rotating rod, a winding roller (502), a driver (503), a winding steel wire rope (504), a locating disc (505), stirring paddles (506) and a driving motor (507), wherein the winding roller (502) is arranged at the center of the locating sleeve (501), and the driver (503) drives the rotating rod to drive the winding roller (502) to rotate.
6. The floating water quality monitoring device of claim 5, wherein: the outside of wind-up roll (502) is encircled and is equipped with rolling wire rope (504), and the one end that wind-up wire rope (504) kept away from wind-up roll (502) is equipped with positioning disk (505), and the center of positioning disk (505) is equipped with the pivot, and driving motor (507) drive pivot drive stirring rake (506) is rotatory, and the outer wall coating of rolling wire rope (504) has anticorrosive coating (508).
7. A floating water quality monitoring device according to claim 1, wherein: the water quality acquisition assembly (6) comprises a plug bush cover (601), an acquisition barrel (602), an inner barrel (604), a filter screen (605) and a one-way film (606), wherein the plug bush cover (601) is mutually matched and sleeved with the acquisition barrel (602), an acquisition groove (603) is formed in the outer side of the acquisition barrel (602) in a circumferential direction, the inner barrel (604) is arranged in the center of the acquisition barrel (602), the filter screen (605) is sleeved on the outer wall of the inner barrel (604), and the one-way film (606) is attached to the inner wall of the inner barrel (604).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202323405272.3U CN221189001U (en) | 2023-12-14 | 2023-12-14 | Floating type water quality monitoring device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202323405272.3U CN221189001U (en) | 2023-12-14 | 2023-12-14 | Floating type water quality monitoring device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221189001U true CN221189001U (en) | 2024-06-21 |
Family
ID=91487716
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202323405272.3U Active CN221189001U (en) | 2023-12-14 | 2023-12-14 | Floating type water quality monitoring device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN221189001U (en) |
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2023
- 2023-12-14 CN CN202323405272.3U patent/CN221189001U/en active Active
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