CN204719033U - A kind of water quality sensor wiper mechanism - Google Patents

Abstract

The utility model discloses a kind of water quality sensor wiper mechanism, comprise buoy float, buoyancy compartment and instrument room is provided with in buoy float, the top of buoy float is provided with upper bracket, upper bracket is provided with stationary platform, buoy float bottom is provided with lower carriage, lower carriage is provided with counterweight block, buoy float is also provided with the first reel, first reel is provided with the pulling force rope that can rise when it rotates or decline, pulling force rope is provided with gravity block, pulling force rope is connected with water quality sensor, buoy float is also provided with the water body filtration well that can pour in for water body, the filtrator that can purify water body is provided with in water body filtration well, also pumping conduit is provided with in water body filtration well, pumping conduit is provided with suction pump, pumping conduit is provided with the nozzle that can carry out hydroblasting when water quality sensor exposes load line to water quality sensor away from filtrator one end.The utility model structure is simple, automatically cleans, increases the service life, reduce costs water quality sensor.

Description

A kind of water quality sensor wiper mechanism

[technical field]

The utility model relates to a kind of water quality sensor wiper mechanism.

[background technology]

At present, global warming has become a much-talked-about topic, and its disaster brought is obvious to all especially.Ocean as global climate one of important factor in order pay attention to by various countries; The marine environmental pollution of countries in the world is also everyday increase the weight of simultaneously, and Gulfian leakage of oil, nuclear power station in Japan are revealed, Chinese Bohai Sea Gulf leakage of oil event, and these all bring immeasurable consequence to marine environment.

Therefore, the water quality measurement of seawater becomes ever more important, and the water quality measurement of current seawater is all generally install water quality sensor on buoy, water quality sensor is put into the measurement carrying out water quality in seawater.Water quality sensor, when carrying out water quality measurement, must contact seawater, can be subject to the pollution of silt in seawater, oyster and other biology, and the time that water quality sensor soaks in the seawater is longer, pollutes more serious.In fact, the real Measuring Time that water quality sensor measures water quality is very short, other most of the time is all in holding state, but water quality sensor needs to keep moistening always, and in therefore traditional water quality measurement, water quality sensor is all soaked in seawater at measuring state or non-measured state.And, the water quality measurement real required time is generally about 5 minutes in fact, within all the other 55 minutes, dormancy waiting status is in one hour, that is the real working time of water quality sensor when measuring water quality is only 5 minutes, immersion in remaining 55 minutes does not work in the seawater, and is constantly subject to the pollution of various impurity in the seawater.Traditional water quality sensor maintenance work mode is generally adopt manually to go to sea every two weeks to clean water quality sensor, human cost is very high, and water quality sensor soaks in the seawater for a long time, be subject to various pollution, serious curtailment its serviceable life.

In addition, the water quality measurement of current seawater is all generally install water quality sensor on buoy, water quality sensor is put into the measurement carrying out water quality in seawater.But the water quality sensor of traditional water quality measurement mode all throws in some depths fixing in the seawater, the water quality data at different depth place can not be measured, so the measurement of seawater quality has some limitations, the data gathered are comprehensive not, to the holistic approach existing defects of seawater quality, the accuracy of the overall water quality measurement of seawater is lower.

Therefore, the utility model produces based on above deficiency just.

[utility model content]

The utility model object overcomes the deficiencies in the prior art, there is provided a kind of structure simple, different water depth place water quality can be measured, and automatically can clean water quality sensor, extend water quality sensor serviceable life, the water quality sensor wiper mechanism reduced costs.

The utility model is achieved through the following technical solutions:

A kind of water quality sensor wiper mechanism, it is characterized in that: comprise buoy float, buoyancy compartment and instrument room is provided with in described buoy float, the top of described buoy float is provided with upper bracket, described upper bracket is provided with stationary platform, described buoy float bottom is provided with lower carriage, described lower carriage is provided with counterweight block, described buoy float is also provided with first reel that can rotate, the first described reel is provided with the pulling force rope that can rise when it rotates or decline, the lower end of described pulling force rope is provided with gravity block, described pulling force rope is connected with the water quality sensor that can rise with it or decline, described buoy float is also provided with the water body filtration well that can pour in for water body, the filtrator that can purify water body is provided with in described water body filtration well, also pumping conduit is provided with in described water body filtration well, described pumping conduit is provided with suction pump, described pumping conduit is provided with the nozzle that can carry out hydroblasting when water quality sensor exposes load line to water quality sensor away from filtrator one end.

Water quality sensor wiper mechanism as above, it is characterized in that: described buoy float is provided with second reel that can rotate, described water quality sensor is provided with and can be enclosed within pulling force rope and the ring set that relative tension rope slides up and down together with water quality sensor, and the signal cable takeup of described water quality sensor is on the second reel.

Water quality sensor wiper mechanism as above, is characterized in that: described ring set is two.

Water quality sensor wiper mechanism as above, is characterized in that: the first described reel and the second reel are located at the metacentric position of buoy float.

Water quality sensor wiper mechanism as above, is characterized in that: be provided with the many stayed masts for keeping upper bracket stable between described buoy float and upper bracket.

Water quality sensor wiper mechanism as above, is characterized in that: described stayed mast circumference uniform distribution is on buoy float.

Water quality sensor wiper mechanism as above, is characterized in that: described stationary platform is provided with meteorological sensor, gps antenna.

Water quality sensor wiper mechanism as above, is characterized in that: described stationary platform is provided with anchor lantern.

Compared with prior art, the utility model has the following advantages:

1, first reel of the present utility model can make pulling force rope rise or decline in the process of rotating, the water quality sensor be connected on pulling force rope just can be followed and be risen or decline, water quality sensor just can measure the water quality data at different water depth place, thus the data making seawater quality measure more comprehensively, make the holistic approach of user to seawater quality more accurate, and buoy float is provided with water body filtration well, filtrator is provided with in water body filtration well, seawater pours in water body filtration well and is just cleaned into clean water body by filtrator, when water quality sensor does not need to measure water quality, first reel traction water quality sensor exposes load line, suction pump starts the clean water body extracted in water body filtration well, and by nozzle, jet douche is carried out to water quality sensor, therefore, water quality sensor realizes injecting type and automatically cleans, avoid conventional operation mode and need the drawback of cleaning of manually going to sea, greatly reduce cost, and water quality sensor in each hour, only only have the time of a few minutes to be immersed in containing impurity seawater in, most of the time is rinsed by clean water body, a few minutes suffered by water quality sensor pollute and can be removed by clean water body in dozens of minutes, significantly reduce the pollution of seawater to water quality sensor, greatly can extend the serviceable life of water quality sensor.When water quality sensor needs to carry out water quality measurement, stop pumping pump, first reel work, water quality sensor is made to decline and enter into seawater, when water quality sensor arrive required for the depth of water time, the first reel quits work, when water quality sensor measurement completes, first reel again works and water quality sensor is pulled out the water surface, and suction pump again starts and carries out hydroblasting to it.Design very ingenious, extend the serviceable life of water quality sensor, greatly reduce cost, and the water quality data at different water depth place can be measured, make the collection of data more comprehensively, thus make the analysis of user to Marine water more accurate.

2, buoy float of the present utility model is provided with second reel that can rotate, and water quality sensor is provided with and can be enclosed within pulling force rope and the ring set that relative tension rope slides up and down together with water quality sensor, and the signal cable takeup of water quality sensor is on the second reel.When the second spool turns, signal hawser rises or declines, water quality sensor is followed and is risen or decline, thus measure the water quality data at different water depth place, ring set is enclosed within pulling force rope and plays guide effect, water quality sensor is elevated more steady, when also making water quality sensor rest on a certain depth of water place, does not have large rocking.

3, the first reel of the present utility model and the second reel are located at the metacentric position of buoy float, so waving of pulling force rope and signal hawser is minimum, reduce the damage that pulling force rope and signal hawser bring because buoy float rocks.

4, the utility model structure is simple, easily manufactured, with low cost, gathers water quality data comprehensive, is applicable to promoting.

[accompanying drawing explanation]

Fig. 1 is the schematic diagram of water quality sensor of the present utility model when rinsing;

Fig. 2 is the schematic diagram of water quality sensor of the present utility model when measuring water quality.

[embodiment]

Below in conjunction with accompanying drawing, the utility model is further described:

A kind of water quality sensor wiper mechanism, comprise buoy float 1, buoyancy compartment 2 and instrument room 3 is provided with in described buoy float 1, the top of described buoy float 1 is provided with upper bracket 4, described upper bracket 4 is provided with stationary platform 5, described buoy float 1 bottom is provided with lower carriage 6, described lower carriage 6 is provided with counterweight block 7, described buoy float 1 is also provided with first reel 8 that can rotate, the first described reel 8 is provided with the pulling force rope 9 that can rise when it rotates or decline, the lower end of described pulling force rope 9 is provided with gravity block 10, described pulling force rope 9 is connected with the water quality sensor 11 that can rise with it or decline, described buoy float 1 is also provided with the water body filtration well 12 that can pour in for water body, the filtrator 13 that can purify water body is provided with in described water body filtration well 12, pumping conduit 14 is also provided with in described water body filtration well 12, described pumping conduit 14 is provided with suction pump 15, described pumping conduit 14 is provided with the nozzle 16 that can carry out hydroblasting when water quality sensor 11 exposes load line 100 to water quality sensor 11 away from filtrator 13 one end.First reel 8 can make pulling force rope 9 rise or decline in the process of rotating, the water quality sensor 11 be connected on pulling force rope 9 just can be followed and be risen or decline, water quality sensor 11 just can measure the water quality data at different water depth place, thus the data making seawater quality measure more comprehensively, make the holistic approach of user to seawater quality more accurate, and buoy float 1 is provided with water body filtration well 12, filtrator 13 is provided with in water body filtration well 12, seawater pours in water body filtration well 12 and is just cleaned into clean water body by filtrator 13, when water quality sensor 11 does not need to measure water quality, first reel 8 draws water quality sensor 11 and rises and expose load line 100, suction pump 15 starts, extract water body filtration well, clean water body in 1, and carry out jet douche by nozzle 16 pairs of water quality sensors 11, therefore, water quality sensor 11 realizes injecting type and automatically cleans, avoid conventional operation mode and need the drawback of cleaning of manually going to sea, greatly reduce cost, and water quality sensor 11 in each hour, only only have the time of a few minutes to be immersed in containing impurity seawater in, most of the time is rinsed by clean water body, a few minutes suffered by water quality sensor 11 pollute and can be removed by clean water body in dozens of minutes, significantly reduce the pollution of seawater to water quality sensor 11, greatly can extend the serviceable life of water quality sensor 11.When water quality sensor 11 needs to carry out water quality measurement, stop pumping pump 15, first reel 8 works, water quality sensor 11 is made to decline and enter into seawater, when water quality sensor 11 arrives the required depth of water, the first reel 8 quits work, when water quality sensor 11 has been measured, first reel 8 again works and water quality sensor 11 is pulled out the water surface, and suction pump 15 again starts and carries out hydroblasting to it.Design very ingenious, extend the serviceable life of water quality sensor 11, greatly reduce cost, and the water quality data at different water depth place can be measured, make the collection of data more comprehensively, thus make the analysis of user to Marine water more accurate.

Described buoy float 1 is provided with second reel 17 that can rotate, described water quality sensor 11 is provided with and can be enclosed within pulling force rope 9 and the ring set 18 that relative tension rope about 9 slides together with water quality sensor 11, and the signal hawser 19 of described water quality sensor 11 is wrapped on the second reel 17.When the second reel 17 rotates, signal hawser 19 rises or declines, water quality sensor 11 is followed and is risen or decline, thus measure the water quality data at different water depth place, ring set 18 is enclosed within pulling force rope 9 and plays guide effect, water quality sensor 11 is elevated more steady, when also making water quality sensor 11 rest on a certain depth of water place, does not have large rocking.

Described ring set 18 is two.Two ring sets 18 can make water quality sensor 11 be elevated more steadily along pulling force rope 9, and safe and reliable, can stand boisterous impact, also do not have large rocking when water quality sensor 11 rests on certain certain degree of depth, measurement data is more accurate.

The first described reel 8 and the second reel 17 are located at the metacentric position of buoy float 1.So waving of pulling force rope 9 and signal hawser 19 is minimum, pulling force rope 9 and signal hawser 19 can be reduced because of buoy float 1 and rock the damage brought.

Be provided with many between described buoy float 1 and upper bracket 4 for the stayed mast 20 keeping upper bracket 4 stable, ensure that the firm of upper bracket 4.

Described stayed mast 20 circumference uniform distribution, on buoy float 1, while making upper bracket 4 firm, also makes whole buoy balance high.

Described stationary platform 5 is provided with meteorological sensor 21, gps antenna 22.

Described stationary platform 5 is provided with anchor lantern 23.

Claims (8)

1. a water quality sensor wiper mechanism, it is characterized in that: comprise buoy float (1), buoyancy compartment (2) and instrument room (3) is provided with in described buoy float (1), the top of described buoy float (1) is provided with upper bracket (4), described upper bracket (4) is provided with stationary platform (5), described buoy float (1) bottom is provided with lower carriage (6), described lower carriage (6) is provided with counterweight block (7), described buoy float (1) is also provided with first reel (8) that can rotate, described the first reel (8) is provided with the pulling force rope (9) that can rise when it rotates or decline, the lower end of described pulling force rope (9) is provided with gravity block (10), described pulling force rope (9) is connected with the water quality sensor (11) that can rise with it or decline, described buoy float (1) is also provided with the water body filtration well (12) that can pour in for water body, the filtrator (13) that can purify water body is provided with in described water body filtration well (12), pumping conduit (14) is also provided with in described water body filtration well (12), described pumping conduit (14) is provided with suction pump (15), described pumping conduit (14) is provided with the nozzle (16) that can carry out hydroblasting when water quality sensor (11) expose load line (100) to water quality sensor (11) away from filtrator (13) one end.

2. water quality sensor wiper mechanism according to claim 1, it is characterized in that: described buoy float (1) is provided with second reel (17) that can rotate, described water quality sensor (11) is provided with and can be enclosed within pulling force rope (9) and the ring set (18) that relative tension rope (9) slides up and down together with water quality sensor (11), and the signal hawser (19) of described water quality sensor (11) is wrapped on the second reel (17).

3. water quality sensor wiper mechanism according to claim 2, is characterized in that: described ring set (18) is two.

4. water quality sensor wiper mechanism according to claim 1, is characterized in that: described the first reel (8) and the second reel (17) are located at the metacentric position of buoy float (1).

5. water quality sensor wiper mechanism according to claim 1, is characterized in that: be provided with the many stayed masts (20) for keeping upper bracket (4) stable between described buoy float (1) and upper bracket (4).

6. water quality sensor wiper mechanism according to claim 5, is characterized in that: described stayed mast (20) circumference uniform distribution is on buoy float (1).

7. water quality sensor wiper mechanism according to claim 1, is characterized in that: described stationary platform (5) is provided with meteorological sensor (21), gps antenna (22).

8. water quality sensor wiper mechanism according to claim 1, is characterized in that: described stationary platform (5) is provided with anchor lantern (23).