CN215953086U - Buoy water quality on-line monitoring device - Google Patents

Abstract

The utility model relates to the technical field of marine environment monitoring, in particular to a buoy water quality online monitoring device which comprises a water quality detector shell, wherein the water quality detector shell comprises a weighting ring, a floating ring, a solar panel, an antenna, a storage battery and a signal transmitter, the weighting ring is nested below the outer side surface of the water quality detector shell, the floating ring is nested above the outer side surface of the water quality detector shell, the solar panel is fixed to the top end of the water quality detector shell, the antennas are annularly arranged and fixed around the top end of the solar panel at equal intervals, and the storage battery is fixed to the middle part of the left side in the water quality detector shell; through installing electric telescopic handle, when examining water quality, start electric telescopic handle function and can drive and collect the cover and reciprocate and draw the water of the different degree of depth in waters for detect more comprehensively.

Description

Buoy water quality on-line monitoring device

Technical Field

The utility model relates to the technical field of marine environment monitoring, in particular to an online monitoring device for water quality of a buoy.

Background

The water quality on-line monitoring system (WQMS) is a comprehensive on-line automatic monitoring system which takes an on-line automatic analysis instrument as a core and adopts the modern sensing technology, the automatic measurement technology, the automatic control technology, the computer application technology, the related special analysis software and the communication network;

a prior art application is found to be; ZL201920805405.0 integrated buoy for monitoring marine hydrology water quality ecology, wherein, the buoy integrates the hydrology water quality ecology monitoring, provides real-time, continuous and high-consistency marine environment monitoring data, reduces the cost of building a marine environment monitoring early warning system, and simultaneously, a hydrology data acquisition instrument is positioned below the water quality data acquisition instrument, thereby ensuring the safety of the instrument, ensuring that the hydrology data acquisition is not influenced by the buoy, ensuring more accurate data and small occupied space;

for the hydrology data acquisition instrument for setting up in protective frame, the collection area that leads to the hydrology data acquisition instrument remains a certain region throughout, lead to unable quality of water data to different depths of water to gather, lead to the monitoring inaccurate, hydrology data acquisition instrument is direct and water contact simultaneously, lead to the impurity of aquatic to attach to hydrology data acquisition instrument surface extremely easily, lead to influencing the collection accuracy, and in case the wave blows this device when turning over, because the body is the cylinder type, lead to once the body upset can't automatic homing.

Therefore, the buoy water quality on-line monitoring device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an online monitoring device for buoy water quality, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a buoy quality of water on-line monitoring device, includes the water quality testing ware shell, the water quality testing ware shell includes weight ring, floating collar, solar panel, antenna, battery and signal transmitter, the weight ring is nested to the lateral surface below of water quality testing ware shell, the floating collar is nested to the lateral surface top of water quality testing ware shell, solar panel is fixed to the top of water quality testing ware shell, the antenna is fixed all around to solar panel's top that the annular equidistance was arranged, the battery is fixed to the inside left side middle part of water quality testing ware shell, signal transmitter passes through the inside right side top that the nut is fixed to the water quality testing ware shell, adjusting part is installed to the inside below of water quality testing ware shell, detecting element is installed to the adjusting part below.

Further preferably, the adjusting part includes closing plate, water quality detector main part, solenoid valve, electric telescopic handle and flexible pipe, the water quality detector main part is fixed to the top left side of closing plate, solenoid valve imbeds to the right side of water quality detector main part, solenoid valve's lower extreme runs through the closing plate and fixedly links there is flexible pipe, electric telescopic handle is fixed to the bottom middle part of closing plate.

Further preferably, the detection subassembly is including collecting cover, suction pump, filter, backup pad, brush and spring, the suction pump is embedded into to the inside right side of collecting the cover, the filter is embedded into to the inside left side of collecting the cover, the backup pad is installed to the left side of filter, both ends about the right side of backup pad are embedded into to the brush, the spring is fixed to between brush and the backup pad.

Further preferably, the antenna is inclined by fifteen degrees from bottom to top to the side away from the solar panel.

Further preferably, the floating ring is located in a two-thirds area of the whole length of the water quality detector shell, and the weighting ring is made of stainless steel.

Further preferably, the rotation output end of the water suction pump penetrates through the middle part of the right side of the support plate, and the brush is tightly attached to the filter plate.

Further preferably, the left side surface of the filter plate is an outer convex arc surface.

Wherein, the signal output part of the water quality detector main body is in signal connection with the signal receiving end of the signal emitter, and the signal output part of the signal emitter is in signal connection with the signal receiving end of the antenna.

Wherein the extension tube extends inside the right side of the collection sleeve.

Wherein, collect the output that the cover is fixed to electric telescopic handle.

Compared with the prior art, the utility model has the beneficial effects that:

1. this kind of buoy quality of water on-line monitoring device through installing electric telescopic handle, when examining water quality, starts the electric telescopic handle function and can drive and collect the cover and reciprocate and draw the water of the different degree of depth in waters for detect more comprehensively.

2. This kind of buoy quality of water on-line monitoring device, through installing the filter, and the suction pump function is taken out water to collecting when in the cover, water can filter at first through the filter for impurity is difficult for entering into to lead to damaging in the water quality testing ware main part, and the suction pump function can drive the backup pad rotation simultaneously, and the backup pad rotates and then drives the brush and rotates and closely laminate the filter lateral surface all the time through the elasticity of spring, scrapes the adnexed impurity of filter lateral surface, makes the difficult jam of filter.

3. This kind of buoy quality of water on-line monitoring device, through installing the weight ring, when the stormy waves blows to this device, the weight of weight ring is all the time with solar panel up to the floating collar is located the region of the top two-thirds of water quality detector shell, makes the floating collar can float water quality detector shell top, and the weight of weight ring can sink water quality detector shell below all the time in water, makes this device in case blow by big wind and turn over can overturn to the former state automatically.

Drawings

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

FIG. 2 is a partial structural view of a water quality detector housing according to the present invention;

FIG. 3 is a schematic view of a partial configuration of the collection sleeve of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at A according to the present invention;

in the figure: the water quality detector comprises a water quality detector shell 1, a weighting ring 101, a floating ring 102, a solar panel 103, an antenna 104, a storage battery 105, a signal emitter 106, a sealing plate 2, a water quality detector main body 201, an electromagnetic valve 202, an electric telescopic rod 203, an extension pipe 204, a collecting sleeve 3, a water suction pump 301, a filter plate 302, a supporting plate 303, a hairbrush 304 and a spring 305.

Detailed Description

Referring to fig. 1-4, the present embodiment provides a technical solution: the utility model provides a buoy water quality on-line monitoring device, including water quality detector shell 1, water quality detector shell 1 includes weight ring 101, floating collar 102, solar panel 103, antenna 104, battery 105 and signal transmitter 106, weight ring 101 nests to water quality detector shell 1's lateral surface below, floating collar 102 nests to water quality detector shell 1's lateral surface top, solar panel 103 is fixed to water quality detector shell 1's top, antenna 104 is that the annular equidistance is arranged and is fixed around solar panel 103's top, battery 105 is fixed to water quality detector shell 1's inside left side middle part, signal transmitter 106 passes through the inside right side top that the nut is fixed to water quality detector shell 1, the adjusting part is installed to the inside below of water quality detector shell 1, the detecting element is installed to the adjusting part below.

Adjusting part includes closing plate 2, water quality testing ware main part 201, solenoid valve 202, electric telescopic handle 203 and flexible pipe 204, water quality testing ware main part 201 is fixed to closing plate 2's top left side, solenoid valve 202 imbeds to the right side of water quality testing ware main part 201, solenoid valve 202's lower extreme runs through closing plate 2 fixed link and has flexible pipe 204, electric telescopic handle 203 is fixed to closing plate 2's bottom middle part, when needs examine quality of water, the user can start electric telescopic handle 203 and drive and collect cover 3 and reciprocate, make and collect cover 3 and collect the water source and can be in different regions, make the accuracy to water quality monitoring improve.

In this embodiment, the detection assembly comprises a collection sleeve 3, a water pump 301, a filter plate 302, a support plate 303, a brush 304 and a spring 305, wherein the water pump 301 is embedded into the right side of the collection sleeve 3, the filter plate 302 is embedded into the left side of the collection sleeve 3, the support plate 303 is installed on the left side of the filter plate 302, the brush 304 is embedded into the upper end and the lower end of the right side of the support plate 303, and the spring 305 is fixed between the brush 304 and the support plate 303.

Preferably, antenna 104 from the bottom up is to keeping away from solar panel 103 one side slope fifteen degrees, and inclination's antenna 104 can make no matter when water quality detector shell 1 is blown by the water wave and is beaten the slope, four antennas 104 homoenergetic are to four directions transport signal for the difficult signal of this water quality monitoring device lacks.

Preferably, the floating ring 102 is located in the two-thirds area of the whole length of the water quality detector shell 1, the weighting ring 101 is made of stainless steel, the buoyancy of the floating ring 102 can always float the upper part of the water quality detector shell 1, so that the top of the water quality detector shell 1 is difficult to fall downwards, and the bottom of the water quality detector shell 1 can always face to the water bottom by matching with the weight of the weighting ring 101, so that the device can automatically return to the water bottom once the device is inclined or overturned.

Preferably, the rotation output end of suction pump 301 runs through filter plate 302 and fixes to the right side middle part of backup pad 303, brush 304 and filter 302 closely laminate, suction pump 301 function can be taken out external water source and can filter through filter 302 at first when collecting in the cover 3, and suction pump 301 can drive backup pad 303 and rotate and then drive brush 304 and rotate during the function, brush 304 rotates the elasticity that the in-process can pass through spring 305 and laminates to filter 301 one side all the time, make brush 304 effectively scrape filter 301 surface, make filter 301 difficult jam, make water quality detector main part 201 not fragile.

Preferably, the left surface of filter 302 is evagination arc surface, and brush 304 scrapes clean in-process to filter 302, and the radian of filter 302 can make brush 304 scrape the impurity that filter 302 drops and lead the water around to filter 302 for be difficult for remaining impurity between filter 302 and the brush 304.

The solar panel 103 is electrically connected to the storage battery 105 through a power line, and the storage battery 105 is electrically connected to the signal emitter 106, the water quality detector main body 201, the solenoid valve 202, the electric telescopic rod 203 and the water pump 301 through the power line.

The working principle is as follows:

firstly, the buoyancy of the floating ring 102 can always float the upper part of the water quality detector shell 1, so that the top of the water quality detector shell 1 is not easy to fall downwards underwater, and the bottom of the water quality detector shell 1 can always face to the water bottom by matching with the weight of the weighting ring 101, so that the device can automatically return once the device is inclined or overturned, then, when the water quality needs to be detected, a user can start the electric telescopic rod 203 to drive the collecting sleeve 3 to move up and down, so that the collecting sleeve 3 can be used for collecting water sources in different areas, and the accuracy of water quality monitoring is improved;

then, the operation of suction pump 301 can be at first filtered through filter 302 when taking out external water source to collecting in the cover 3, and suction pump 301 can drive backup pad 303 and rotate and then drive brush 304 and rotate during the operation, brush 304 rotates the elasticity that the in-process can pass through spring 305 and laminates to filter 301 one side all the time, make brush 304 effectively scrape filter 301 surface, make filter 301 difficult to block up, make water quality detector main part 201 not fragile, and finally, the data after water quality detector main part 201 detects can be sent to in the signal reception terminal of signal transmitter 106, and signal output part and external terminal signal reception terminal signal connection through signal transmitter 106.

Claims (7)

1. The utility model provides a buoy water quality on-line monitoring device, includes water quality detector shell (1), water quality detector shell (1) is including weight ring (101), floating collar (102), solar panel (103), antenna (104), battery (105) and signal transmitter (106), weight ring (101) nests to the lateral surface below of water quality detector shell (1), floating collar (102) nests to the lateral surface top of water quality detector shell (1), solar panel (103) are fixed to the top of water quality detector shell (1), antenna (104) are fixed all around to the top of solar panel (103) for the annular equidistance range, battery (105) are fixed to the inside left side middle part of water quality detector shell (1), signal transmitter (106) are fixed to the inside right side top of water quality detector shell (1) through the nut, the method is characterized in that: the water quality detector is characterized in that an adjusting component is installed below the interior of the water quality detector shell (1), and a detecting component is installed below the adjusting component.

2. The buoy water quality on-line monitoring device as claimed in claim 1, which is characterized in that: the adjusting part comprises a sealing plate (2), a water quality detector main body (201), an electromagnetic valve (202), an electric telescopic rod (203) and a telescopic pipe (204), the water quality detector main body (201) is fixed to the left side of the top end of the sealing plate (2), the electromagnetic valve (202) is embedded into the right side of the water quality detector main body (201), the lower end of the electromagnetic valve (202) penetrates through the sealing plate (2) and is fixedly connected with the telescopic pipe (204), and the electric telescopic rod (203) is fixed to the middle of the bottom end of the sealing plate (2).

3. The buoy water quality on-line monitoring device as claimed in claim 1, which is characterized in that: the detection assembly comprises a collection sleeve (3), a water suction pump (301), a filter plate (302), a support plate (303), a brush (304) and a spring (305), the water suction pump (301) is embedded into the right side inside the collection sleeve (3), the filter plate (302) is embedded into the left side inside the collection sleeve (3), the support plate (303) is installed on the left side of the filter plate (302), the brush (304) is embedded into the upper end and the lower end of the right side of the support plate (303), and the spring (305) is fixed between the brush (304) and the support plate (303).

4. The buoy water quality on-line monitoring device as claimed in claim 1, which is characterized in that: the antenna (104) inclines by fifteen degrees from bottom to top to the side far away from the solar panel (103).

5. The buoy water quality on-line monitoring device as claimed in claim 1, which is characterized in that: the floating ring (102) is positioned in the two-thirds area of the whole length of the water quality detector shell (1), and the weighting ring (101) is made of stainless steel.

6. The buoy water quality on-line monitoring device as claimed in claim 3, wherein: the rotation output end of the water suction pump (301) penetrates through the middle part of the right side of the filter plate (302) and is fixed to the support plate (303), and the hairbrush (304) is tightly attached to the filter plate (302).

7. The buoy water quality on-line monitoring device as claimed in claim 6, wherein: the left side surface of the filter plate (302) is an outer convex arc surface.

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