CN201984066U - Sea water salinity monitoring system - Google Patents
Sea water salinity monitoring system Download PDFInfo
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- CN201984066U CN201984066U CN2011200896641U CN201120089664U CN201984066U CN 201984066 U CN201984066 U CN 201984066U CN 2011200896641 U CN2011200896641 U CN 2011200896641U CN 201120089664 U CN201120089664 U CN 201120089664U CN 201984066 U CN201984066 U CN 201984066U
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- seawater
- seawater salinity
- salinity
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Abstract
The utility model discloses a sea water salinity monitoring system, which comprises at least one sea water salinity sampling part, a controlling part and a sea water salinity monitoring part. The at least one sea water salinity sampling part is respectively contacted with sea water to be detected and used for collecting sea water salinity data, the controlling part is connected with the at least one sea water salinity sampling part, summarizes the sea water salinity data and then transmits the sea water salinity data collected by the at least one sea water salinity sampling part, and the sea water salinity monitoring part is connected with the controlling part and displays the sea water salinity data transmitted by the controlling part. The at least one sea water salinity sampling part, the controlling part and the sea water salinity monitoring part are in wired connection or in wireless connection. By adopting the sea water salinity monitoring system provided by an embodiment, a real-time collection of the sea water salinity data of sea water sampling sites can be realized, workers do not need to work on site, and the stability is strong.
Description
Technical field
The utility model belongs to the seawater salinity monitoring technical field, relates in particular to a kind of seawater salinity monitoring system.
Background technology
Sea-farming has not only guaranteed the supply of ocean food as the important component part of national marine economy, has also created a large amount of job opportunities for coastal resident.The today that is used for the land supply growing tension of agricultural production in the whole world, each state all payes attention to the production of marine product more, and reasonably seawater salinity can guarantee the normal development of sea-farming, thereby the flourishing necessary basis that provides of the people's the country of living and working in peace and contentment is provided.
Traditional seawater salinity monitoring system adopts staff's on-site collection seawater sample, and the method for measuring, and the seawater salinity monitoring system that makes prior art provide is subject to the restriction in manpower, time and space, and applicability is poor.
The utility model content
The purpose of the utility model embodiment is to provide a kind of seawater salinity monitoring system, the seawater salinity monitoring system that being intended to solve prior art provides requires staff's on-site collection seawater sample, be subject to the restriction in manpower, time and space, the problem of applicability difference.
The utility model embodiment is achieved in that a kind of seawater salinity monitoring system, and described system comprises:
The contact measured seawater, that gather the seawater salinity data respectively at least one seawater salinity sampling portion;
Connect described seawater salinity sampling portion, the control part that the described seawater salinity data sink General Logistics Department that described seawater salinity sampling portion is gathered sends; And
Connect described control part, show the seawater salinity monitoring part of the described seawater salinity data that described control part sends;
Connect by wired or wireless mode between described seawater salinity sampling portion, control part and the seawater salinity monitoring part.
Further, be connected based on short-range wireless communication protocol between described seawater salinity sampling portion and the control part; Be connected by general grouped wireless service network between described control part and the seawater salinity monitoring part.
Further, described seawater salinity sampling portion comprises:
The seawater salinity sensors contact measured seawater, collection seawater salinity data;
The first wireless signal Transmit-Receive Unit; And
Be connected between the described seawater salinity sensor and the first wireless signal Transmit-Receive Unit, control described seawater salinity sensor sample whether and control the controlling of sampling unit that the described first wireless signal Transmit-Receive Unit sends the seawater salinity data that described seawater salinity sensor acquisition arrives.
Further, described control part comprises:
Receive the second wireless signal Transmit-Receive Unit of the described seawater salinity data of described first wireless signal Transmit-Receive Unit transmission based on described short-range wireless communication protocol;
The 3rd wireless signal Transmit-Receive Unit that connects described seawater salinity monitoring part by described general grouped wireless service network; And
Be connected between described second wireless signal Transmit-Receive Unit and the 3rd wireless signal Transmit-Receive Unit, the described seawater salinity data sink of at least one that the described first wireless signal Transmit-Receive Unit is sent the General Logistics Department controls the control module that described the 3rd wireless signal Transmit-Receive Unit sends by described general grouped wireless service network.
Further, described seawater salinity monitoring part comprises:
The 4th wireless signal Transmit-Receive Unit that connects described control part by described general grouped wireless service network;
Display unit; And
Be connected between described display unit and the 4th wireless signal Transmit-Receive Unit, control the monitoring control module that described display unit shows the described seawater salinity data that described control part sends.
Further, described seawater salinity monitoring part also comprises:
Connect described monitoring control module, prestore the historical data and the storage unit that comprises the seawater data information storehouse of corresponding seawater sampling point salinity range value of seawater salinity; And
Connect described monitoring control module, when described seawater salinity data greater than the upper limit of described corresponding seawater sampling point salinity range value or less than the following Tip element that sends information in limited time of described corresponding seawater sampling point salinity range value.
Further, described control part also comprises keyboard, display and/or the communication interface that connects described control module.
The utility model embodiment also provides a kind of seawater salinity monitoring system, and described system comprises:
The contact measured seawater, that gather the seawater salinity data respectively at least one seawater salinity sampling portion;
Connect described seawater salinity sampling portion, show the seawater salinity monitoring part of the described seawater salinity data that described seawater salinity sampling portion sends;
Connect by wired or wireless mode between described seawater salinity sampling portion and the seawater salinity monitoring part.
Further, be connected by general grouped wireless service network between described seawater salinity sampling portion and the seawater salinity monitoring part.
Further, described seawater salinity monitoring part comprises:
The 4th wireless signal Transmit-Receive Unit that connects described seawater salinity sampling portion by described general grouped wireless service network;
Display unit;
Be connected between described display unit and the 4th wireless signal Transmit-Receive Unit, control the monitoring control module that described display unit shows the described seawater salinity data that described seawater salinity sampling portion sends;
Connect described monitoring control module, prestore the historical data and the storage unit that comprises the seawater data information storehouse of corresponding seawater sampling point salinity range value of seawater salinity; And
Connect described monitoring control module, when described seawater salinity data greater than the upper limit of described corresponding seawater sampling point salinity range value or less than the following Tip element that sends information in limited time of described corresponding seawater sampling point salinity range value.
Use the seawater salinity monitoring system that the utility model embodiment provides, can realize seawater sampling order the real-time collection of salt degrees of data, and need not manually to reach the spot that stability by force.
Description of drawings
Below by drawings and the specific embodiments the utility model is elaborated.
Fig. 1 is the structure principle chart of the seawater salinity monitoring system that provides of the utility model first embodiment;
Fig. 2 is the concrete structure figure of Fig. 1;
Fig. 3 is the structure principle chart of the seawater salinity monitoring system that provides of the utility model second embodiment;
Fig. 4 is the concrete structure figure of Fig. 3.
Embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearer,, the utility model is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.
Fig. 1 shows the structural principle of the seawater salinity monitoring system that the utility model first embodiment provides, and for convenience of explanation, only shows the part relevant with the utility model embodiment.
The seawater salinity monitoring system that the utility model first embodiment provides comprises: the contact measured seawater, that gather the seawater salinity data respectively at least one seawater salinity sampling portion 11; Connect seawater salinity sampling portion 11, the control part 12 that the seawater salinity data sink General Logistics Department that at least one seawater salinity sampling portion 11 is gathered sends; Connect control part 12, the seawater salinity monitoring part 13 of the seawater salinity data that display control unit 12 sends.Connect by wired or wireless mode between seawater salinity sampling portion 11, control part 12 and the seawater salinity monitoring part 13, and when a plurality of seawater salinity sampling of employing portion 11, this a plurality of seawater salinity sampling portion can adopt star-like connection, chain to connect and/or the topological structure connected mode of other type, as: annular connection, tree-like connection etc., to enlarge sample area, the seawater salinity sampling portion 11 that places each node place this moment is respectively as the transmission trunking of seawater salinity data.
Use the seawater salinity monitoring system that the utility model first embodiment provides, can realize the real-time collection to the seawater salinity data, and need not manually to reach the spot, stability is strong.Preferably, realize being connected based on short-range wireless communication protocol between seawater salinity sampling portion 11 and the control part 12, pass through general packet radio service (General Packet Radio Service between control part 12 and the seawater salinity monitoring part 13, GPRS) network is realized connecting, because the versatility of GPRS network and the broadness of signal covering area make this seawater salinity monitoring system be particularly useful for the monitoring of remote breed marine site to the seawater salinity data.
Fig. 2 with a seawater salinity sampling portion 11 and control part 12 be connected and seawater salinity sampling portion 11 and control part 12 between realize being connected to example based on short-range wireless communication protocol, show the concrete structure of Fig. 1.
Wherein, seawater salinity sampling portion 11 comprises: the seawater salinity sensors 111 contact measured seawater, collection seawater salinity data; The first wireless signal Transmit-Receive Unit 113; And be connected between the seawater salinity sensor 111 and the first wireless signal Transmit-Receive Unit 113, control seawater salinity sensor 111 whether sample and is controlled the controlling of sampling unit 112 of the seawater salinity data that the first wireless signal Transmit-Receive Unit, 113 transmission seawater salinity sensors 111 collect.
Wherein, control part 12 comprises: the second wireless signal Transmit-Receive Unit 121 that receives the seawater salinity data of the first wireless signal Transmit-Receive Unit, 113 transmissions based on short-range wireless communication protocol; The 3rd wireless signal Transmit-Receive Unit 123 that connects seawater salinity monitoring part 13 by GPRS network; Be connected between the second wireless signal Transmit-Receive Unit 121 and the 3rd wireless signal Transmit-Receive Unit 121, at least one seawater salinity data sink General Logistics Department that the first wireless signal Transmit-Receive Unit 113 of at least one seawater salinity sampling portion 11 is sent controls the 3rd wireless signal Transmit-Receive Unit 121 and sends this at least one seawater salinity control unit for data 122 after gathering by GPRS network.
Further, control part 12 can also be reserved with keyboard, display and/or other communication interface that connects control module 122, to make things convenient for system's setting and program upgrade.
Preferably, the first wireless signal Transmit-Receive Unit 113 and the second wireless signal Transmit-Receive Unit 121 are respectively rf chip, specifically can be the CC2430 transponder chips.
Wherein, seawater salinity monitoring part 13 comprises: the 4th wireless signal Transmit-Receive Unit 131 that connects control part 12 by GPRS network; Display unit 133; And be connected between display unit 133 and the 4th wireless signal Transmit-Receive Unit 131 the monitoring control module 132 of the seawater salinity data that control display unit 133 display control units 12 send.
Further, seawater salinity monitoring part 13 can also comprise: connect monitoring control module 132, prestore the historical data and the storage unit 134 that comprises the seawater data information storehouse of corresponding seawater sampling point salinity range value of seawater salinity; And the Tip element 135 that connects monitoring control module 132, the corresponding seawater sampling point salinity range value that seawater salinity data that monitoring control module 132 can also send control part 12 at this moment and storage unit 134 prestore compares, and work as the seawater salinity data and prescribe a time limit greater than the upper limit of this corresponding seawater sampling point salinity range value or less than the following of this corresponding seawater sampling point salinity range value, send information by Tip element 135.For example, seawater data information storehouse includes information: culture kind: shrimp, salinity range value: 10 ‰-12 ‰, for this reason, include the data bit that characterizes this sampled point sea-farming kind in the seawater salinity data that the first wireless signal Transmit-Receive Unit 113 sends, monitoring control module 132 is searched seawater data information storehouse according to this data bit, to determine the salinity range value of this sampled point, and then salinity value in the seawater salinity data and salinity range value compared, and according to comparative result, send information by Tip element 135, spend low etc. as salt.
Further, display unit 133 can also show the seawater salinity historical data of the corresponding seawater sampling point that prestores in seawater salinity data and the storage unit 134 simultaneously, to make things convenient for the field staff to compare, be convenient to make judgement from being about to the salt degrees of data and the historical data of present seawater.
In addition, seawater salinity monitoring part 13 can also comprise that one connects the information input unit (not shown) of monitoring control module 132, as: keyboard, touch pad etc., this information input unit receives control seawater salinity sampling 11 sampling times of portion of field staff's input and/or the sampling control signal of sampling channel, monitoring control module 132 controls the 4th wireless signal Transmit-Receive Unit 131 sends this sampling control signal, control module 122 receives this sampling control signal by the 3rd wireless signal Transmit-Receive Unit 123, and send steering order according to this sampling control signal and give corresponding seawater salinity sampling portion 11, controlling of sampling unit 112 in the corresponding seawater salinity sampling portion 11 receives this steering order by the first wireless signal Transmit-Receive Unit 113, and controls the sample frequency of seawater salinity sensor 111 according to this steering order.
At least one seawater salinity sampling portion 11 in this seawater salinity monitoring system that the utility model first embodiment provides realizes transmitting with the data of seawater salinity monitoring part 13 by control part 12, make seawater salinity sampling portion 11 can utilize lower cost to realize and being connected of control part 12, do not considering under the condition of cost, at least one seawater salinity sampling portion 11 directly all right and seawater salinity monitoring part 13 realization data transmission, show the structural principle of the seawater salinity monitoring system that the utility model second embodiment provides as Fig. 3, for convenience of explanation, only show the part relevant with the utility model embodiment.
The seawater salinity monitoring system that provides with the utility model first embodiment is different, among the utility model second embodiment, the seawater salinity monitoring system does not comprise control part 12, connects by wired or wireless mode between at least one seawater salinity sampling portion 11 and the seawater salinity monitoring part 13.At least one seawater salinity sampling portion 11 respectively the contact measured seawater, gather the seawater salinity data after, these seawater salinity data are sent to seawater salinity monitoring part 13, seawater salinity monitoring part 13 shows these seawater salinity data.
Use the seawater salinity monitoring system that the utility model second embodiment provides, can realize seawater sampling order the real-time collection of salt degrees of data, and need not manually to reach the spot that stability by force.Preferably, realize being connected by GPRS network between seawater salinity sampling portion 11 and the seawater salinity monitoring part 13, because the versatility of GPRS network and the broadness of signal covering area make this seawater salinity monitoring system be particularly useful for the monitoring of remote breed marine site to the seawater salinity data.
Fig. 4 shows the concrete structure of Fig. 3 with the example that is connected to of a seawater salinity sampling portion 11 with seawater salinity monitoring part 13, and wherein the composition of seawater salinity monitoring part 13 and annexation thereof are same as shown in Figure 2, do not repeat them here.
With shown in Figure 2 different, seawater salinity sampling portion does not comprise the first wireless signal Transmit-Receive Unit 113 11 this moments, and comprises that the 5th wireless signal Transmit-Receive Unit 114, the five wireless signal Transmit-Receive Units 114 connect the 4th wireless signal Transmit-Receive Unit 131 by GPRS network.
At this moment, seawater salinity sensor 111 contact measured seawater, gather the seawater salinity data, controlling of sampling unit 112 control seawater salinity sensors 111 whether samples and are controlled seawater salinity data that the 5th wireless signal Transmit-Receive Unit 114 collects by GPRS network transmission seawater salinity sensor 111 to the 4th wireless signal Transmit-Receive Unit 131.
The composition of other each several part, connected mode and function thereof are identical with the seawater salinity monitoring system that the utility model first embodiment provides, and do not repeat them here.
Use the seawater salinity monitoring system that the utility model embodiment provides, can realize seawater sampling order the real-time collection of salt degrees of data, and need not manually to reach the spot that stability by force.Can realize being connected by GPRS network between control part and the seawater salinity monitoring part, because the versatility of GPRS network and the broadness of signal covering area make this seawater salinity monitoring system be particularly useful for the monitoring of remote breed marine site to the seawater salinity data.
The above; it only is the preferable embodiment of the utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; be equal to replacement or change according to the technical solution of the utility model and utility model design thereof, all should be encompassed within the protection domain of the present utility model.
Claims (10)
1. a seawater salinity monitoring system is characterized in that, described system comprises:
The contact measured seawater, that gather the seawater salinity data respectively at least one seawater salinity sampling portion;
Connect described seawater salinity sampling portion, the control part that the described seawater salinity data sink General Logistics Department that described seawater salinity sampling portion is gathered sends; And
Connect described control part, show the seawater salinity monitoring part of the described seawater salinity data that described control part sends;
Connect by wired or wireless mode between described seawater salinity sampling portion, control part and the seawater salinity monitoring part.
2. seawater salinity monitoring system as claimed in claim 1 is characterized in that, is connected based on short-range wireless communication protocol between described seawater salinity sampling portion and the control part; Be connected by general grouped wireless service network between described control part and the seawater salinity monitoring part.
3. seawater salinity monitoring system as claimed in claim 2 is characterized in that, described seawater salinity sampling portion comprises:
The seawater salinity sensors contact measured seawater, collection seawater salinity data;
The first wireless signal Transmit-Receive Unit; And
Be connected between the described seawater salinity sensor and the first wireless signal Transmit-Receive Unit, control described seawater salinity sensor sample whether and control the controlling of sampling unit that the described first wireless signal Transmit-Receive Unit sends the seawater salinity data that described seawater salinity sensor acquisition arrives.
4. seawater salinity monitoring system as claimed in claim 3 is characterized in that, described control part comprises:
Receive the second wireless signal Transmit-Receive Unit of the described seawater salinity data of described first wireless signal Transmit-Receive Unit transmission based on described short-range wireless communication protocol;
The 3rd wireless signal Transmit-Receive Unit that connects described seawater salinity monitoring part by described general grouped wireless service network; And
Be connected between described second wireless signal Transmit-Receive Unit and the 3rd wireless signal Transmit-Receive Unit, the described seawater salinity data sink of at least one that the described first wireless signal Transmit-Receive Unit is sent the General Logistics Department controls the control module that described the 3rd wireless signal Transmit-Receive Unit sends by described general grouped wireless service network.
5. seawater salinity monitoring system as claimed in claim 4 is characterized in that, described seawater salinity monitoring part comprises:
The 4th wireless signal Transmit-Receive Unit that connects described control part by described general grouped wireless service network;
Display unit; And
Be connected between described display unit and the 4th wireless signal Transmit-Receive Unit, control the monitoring control module that described display unit shows the described seawater salinity data that described control part sends.
6. seawater salinity monitoring system as claimed in claim 5 is characterized in that, described seawater salinity monitoring part also comprises:
Connect described monitoring control module, prestore the historical data and the storage unit that comprises the seawater data information storehouse of corresponding seawater sampling point salinity range value of seawater salinity; And
Connect described monitoring control module, when described seawater salinity data greater than the upper limit of described corresponding seawater sampling point salinity range value or less than the following Tip element that sends information in limited time of described corresponding seawater sampling point salinity range value.
7. seawater salinity monitoring system as claimed in claim 6 is characterized in that, described control part also comprises keyboard, display and/or the communication interface that connects described control module.
8. a seawater salinity monitoring system is characterized in that, described system comprises:
The contact measured seawater, that gather the seawater salinity data respectively at least one seawater salinity sampling portion;
Connect described seawater salinity sampling portion, show the seawater salinity monitoring part of the described seawater salinity data that described seawater salinity sampling portion sends;
Connect by wired or wireless mode between described seawater salinity sampling portion and the seawater salinity monitoring part.
9. seawater salinity monitoring system as claimed in claim 8 is characterized in that, is connected by general grouped wireless service network between described seawater salinity sampling portion and the seawater salinity monitoring part.
10. seawater salinity monitoring system as claimed in claim 9 is characterized in that, described seawater salinity monitoring part comprises:
The 4th wireless signal Transmit-Receive Unit that connects described seawater salinity sampling portion by described general grouped wireless service network;
Display unit;
Be connected between described display unit and the 4th wireless signal Transmit-Receive Unit, control the monitoring control module that described display unit shows the described seawater salinity data that described seawater salinity sampling portion sends;
Connect described monitoring control module, prestore the historical data and the storage unit that comprises the seawater data information storehouse of corresponding seawater sampling point salinity range value of seawater salinity; And
Connect described monitoring control module, when described seawater salinity data greater than the upper limit of described corresponding seawater sampling point salinity range value or less than the following Tip element that sends information in limited time of described corresponding seawater sampling point salinity range value.
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CN2011200896641U CN201984066U (en) | 2011-03-30 | 2011-03-30 | Sea water salinity monitoring system |
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CN2011200896641U CN201984066U (en) | 2011-03-30 | 2011-03-30 | Sea water salinity monitoring system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103245765A (en) * | 2013-04-24 | 2013-08-14 | 北京南风科创应用技术有限公司 | Ocean parameter measuring system |
CN105891434A (en) * | 2016-06-03 | 2016-08-24 | 深圳职业技术学院 | Seawater salinity online detection method and device |
CN106645614A (en) * | 2016-11-10 | 2017-05-10 | 山东省科学院海洋仪器仪表研究所 | A seawater total alkalinity on-line monitoring system |
CN107632125A (en) * | 2017-08-19 | 2018-01-26 | 安徽泛亚环保科技有限公司 | A kind of real-time water quality monitoring system |
CN109085025A (en) * | 2018-05-28 | 2018-12-25 | 重庆洪吉航空遥感技术研究院有限公司 | It is a kind of for detecting the air remote sensing telemetering equipment of seawater steam salinity |
-
2011
- 2011-03-30 CN CN2011200896641U patent/CN201984066U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103245765A (en) * | 2013-04-24 | 2013-08-14 | 北京南风科创应用技术有限公司 | Ocean parameter measuring system |
CN103245765B (en) * | 2013-04-24 | 2015-12-30 | 北京南风科创应用技术有限公司 | A kind of Oceanic parameter measurement system |
CN105891434A (en) * | 2016-06-03 | 2016-08-24 | 深圳职业技术学院 | Seawater salinity online detection method and device |
CN105891434B (en) * | 2016-06-03 | 2017-09-26 | 深圳职业技术学院 | The online test method and its device of a kind of seawater salinity |
CN106645614A (en) * | 2016-11-10 | 2017-05-10 | 山东省科学院海洋仪器仪表研究所 | A seawater total alkalinity on-line monitoring system |
CN107632125A (en) * | 2017-08-19 | 2018-01-26 | 安徽泛亚环保科技有限公司 | A kind of real-time water quality monitoring system |
CN109085025A (en) * | 2018-05-28 | 2018-12-25 | 重庆洪吉航空遥感技术研究院有限公司 | It is a kind of for detecting the air remote sensing telemetering equipment of seawater steam salinity |
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