CN203037308U - Water level variation monitoring system - Google Patents

Abstract

The utility model provides a water level variation monitoring system, and relates to the monitoring field. The water level variation monitoring system solves the problems that working staff can not timely construct and maintain programs and working efficiency is lowered caused by a mobile terminal can not receive signals in an existing water level variation monitoring system. The water level variation monitoring system comprises a signal collecting unit used for detecting water level signals, a signal processing unit used for generating water level state sending commands according to the water level signals, and a signal sending unit used for sending water level variation signals according to the water level state sending commands. The water level variation monitoring system further comprises a signal receiving module used for receiving the water level variation signals, a signal processing module which is connected with the signal receiving module is used for generating water level state display commands according to the water level variation signals, and a state demonstration module which is connected with the signal processing module and is used for conducting image display to a water level variation state according to the water level state display commands.

Description

The SEA LEVEL VARIATION monitoring system

Technical field

The utility model relates to weather monitoring, relates in particular to the SEA LEVEL VARIATION monitoring system.

Background technology

In the zone, mesolittoral zone between off-lying sea and land, the wind-powered electricity generation project is built and when safeguarding, can be subjected to the influence of morning and evening tides, therefore accurately forecast and grasp the variation of morning and evening tides, all extremely important for the raising of the work on the spot arrangement of mesolittoral zone project and operating efficiency.

Existing SEA LEVEL VARIATION monitoring system comprises as shown in Figure 1: the signal gathering unit 11 of Dian Lianjieing, signal processing unit 12 and signal transmitting unit 13 successively; Signal gathering unit 11 is installed on the wind power generating set that is positioned at the mesolittoral zone, for detection of water level signal, signal processing unit 12 is used for generating water position status according to signal gathering unit 11 detected water level signal and sends instruction, the water position status that signal transmitting unit 13 generates according to signal processing unit 12 sends instruction and sends the SEA LEVEL VARIATION signal, this SEA LEVEL VARIATION signal can reflect the situation of tidal fluctuations, and sends to portable terminal 14(such as mobile phone by wireless communication networks with the form of note, voice) on.

When using above-mentioned SEA LEVEL VARIATION monitoring system, because there is signal blind zone in wireless communication networks, the portable terminal that is in signal blind zone possibly can't normally receive signal; Perhaps, because portable terminal does not have electricity or damage, make portable terminal also can't normally receive signal, caused the staff timely the wind-powered electricity generation project to be built and to safeguard, operating efficiency reduces.

The utility model content

Embodiment of the present utility model provides a kind of SEA LEVEL VARIATION monitoring system, solved and existed portable terminal can't receive the staff that signal causes when using existing SEA LEVEL VARIATION monitoring system can't in time the wind-powered electricity generation project to be built and safeguard the problem that operating efficiency reduces.

For achieving the above object, embodiment of the present utility model adopts following technical scheme:

A kind of SEA LEVEL VARIATION monitoring system comprises signal gathering unit, for detection of water level signal; Signal processing unit is connected to described signal gathering unit, is used for generating water position status according to the detected water level signal of described signal gathering unit and sends instruction; And signal transmitting unit, be connected to described signal processing unit, the water position status that is used for generating according to described signal processing unit sends instruction and sends the SEA LEVEL VARIATION signal, it is characterized in that, described system also comprises: signal receiving module is used for receiving the SEA LEVEL VARIATION signal that described signal transmitting unit sends; Signal processing module is connected to described signal receiving module, and the SEA LEVEL VARIATION signal that is used for receiving according to described signal receiving module generates the water position status idsplay order; The state demonstration module is connected to described signal processing module, is used for the water position status idsplay order that generates according to described signal processing module and the state of SEA LEVEL VARIATION is carried out image shows.

At any time obtain the tidal fluctuations signal when staff goes out operation for convenience, described SEA LEVEL VARIATION monitoring system also comprises portable terminal, is used for receiving and showing the SEA LEVEL VARIATION signal that described signal transmitting unit sends.

Wherein, the connected mode of described signal receiving module and described signal transmitting unit is wired connection or wireless connections.

In order to make the state demonstration module can bring into play the effect that image shows more fully, described signal gathering unit, described signal processing unit, described signal transmitting unit constitute the signal module, and described system comprises a plurality of described signal modules; Described signal receiving module, also the SEA LEVEL VARIATION signal that sends for the signal transmitting unit that receives each described signal module; Described signal processing module, also the SEA LEVEL VARIATION signal for each the described signal module of correspondence that receives according to described signal receiving module generates the water position status idsplay order; Described state demonstration module, the water position status idsplay order that also is used for each described signal module of correspondence of generating according to described signal processing module carry out image to the state of the SEA LEVEL VARIATION of each described signal module and show.

And described state demonstration module is display screen or pilot lamp.

Signal processing unit and signal transmitting unit are installed for convenience, and described SEA LEVEL VARIATION monitoring system also comprises the master control cabinet, and described master control cabinet is installed in outside the pylon or pylon of the wind power generating set that is positioned at the mesolittoral zone; Described signal processing unit and signal transmitting unit are arranged in the described master control cabinet.

Wherein, described signal gathering unit is float switch or ultrasonic sensor.

In order to increase the practicality of above-mentioned forecast system, described SEA LEVEL VARIATION monitoring system also comprises the operation detecting unit that is electrically connected with described signal processing unit, for detection of the ruuning situation of the wind power generating set that is positioned at the mesolittoral zone, and the operating state signal that obtains sent to described signal processing unit; Described signal processing unit also is used for sending running status according to the described operating state signal that receives and sends instruction to described signal transmitting unit; Described signal transmitting unit also is used for sending instruction according to the described running status that receives corresponding operating states of the units signal is sent to described signal receiving module; Described signal receiving module also is used for receiving the operating states of the units signal that described signal transmitting unit sends; Described signal processing module is also for the operating states of the units signal generating run state idsplay order that receives according to described signal receiving module; The running status idsplay order that described state demonstration module also is used for generating according to described signal processing module carries out image to the running status of unit and shows.

In order to increase the practicality of above-mentioned forecast system, described SEA LEVEL VARIATION monitoring system also comprises the temperature sensor that is electrically connected with described signal processing unit, for detection of the temperature of the wind power generating set environment of living in that is positioned at the mesolittoral zone, and the temperature signal that obtains sent to described signal processing unit.

Like this, described signal processing unit is used for sending state of temperature according to the described temperature signal that receives and sends instruction to described signal transmitting unit; Described signal transmitting unit is used for sending instruction according to the described state of temperature that receives corresponding unit temperature signal is sent to described signal receiving module; Described signal receiving module also is used for receiving the unit temperature signal that described signal transmitting unit sends; The unit temperature signal that described signal processing module also is used for receiving according to described signal receiving module generates the state of temperature idsplay order; The state of temperature idsplay order that described state demonstration module also is used for generating according to described signal processing module carries out image to the temperature of unit environment of living in and shows.

In order to increase the practicality of above-mentioned forecast system, described SEA LEVEL VARIATION monitoring system also comprises the air velocity transducer that is electrically connected with described signal processing unit, for detection of the wind speed of the wind power generating set environment of living in that is positioned at the mesolittoral zone, and the wind velocity signal that obtains sent to described signal processing unit.

Like this, signal processing unit also is used for sending wind speed state transmission instruction to described signal transmitting unit according to the described wind velocity signal that receives; Described signal transmitting unit also is used for sending instruction according to the described wind speed state that receives corresponding unit wind velocity signal is sent to described signal receiving module; Described signal receiving module also is used for receiving the unit wind velocity signal that described signal transmitting unit sends; The unit wind velocity signal that described signal processing module also is used for receiving according to described signal receiving module generates wind speed state idsplay order; Described state demonstration module also is used for the wind speed state idsplay order that generates according to described signal processing module to carry out image to the wind speed of unit environment of living in and shows.

In the SEA LEVEL VARIATION monitoring system that the utility model embodiment provides, signal gathering unit can the sensed water level signal; Signal processing unit can generate water position status according to the detected water level signal of signal gathering unit and send instruction; Signal transmitting unit can send instruction and send the SEA LEVEL VARIATION signal according to the water position status that signal processing unit generates; Signal receiving module can be accepted the SEA LEVEL VARIATION signal from the signal transmitting unit transmission; Signal processing module can generate the water position status idsplay order according to the SEA LEVEL VARIATION signal that signal receiving module receives, and this instruction indicating status demonstration module carries out the image demonstration to the state of SEA LEVEL VARIATION; Hence one can see that, the SEA LEVEL VARIATION signal is corresponding mutually with the state of SEA LEVEL VARIATION, be to obtain at the incoming tide as the SEA LEVEL VARIATION signal, then the state of the SEA LEVEL VARIATION of Xian Shiing is that flood tide, vice versa, make the staff be easier to grasp vividly, exactly the state of SEA LEVEL VARIATION by the image that shows, so that establishment officer builds and safeguards not being subjected to water level and influencing or be subjected to water level to influence less wind power generating set effectively, improved operating efficiency.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, will do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below.

Fig. 1 is the block scheme of SEA LEVEL VARIATION monitoring system of the prior art;

The block scheme of the SEA LEVEL VARIATION monitoring system that Fig. 2 provides for the utility model embodiment;

The block scheme of the another kind of SEA LEVEL VARIATION monitoring system that Fig. 3 provides for the utility model embodiment;

The block scheme of another SEA LEVEL VARIATION monitoring system that Fig. 4 provides for the utility model embodiment;

Fig. 5 is the state demonstration graph of the state demonstration module among Fig. 2.

Embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described.

The utility model embodiment provides a kind of SEA LEVEL VARIATION monitoring system, as shown in Figure 2, comprises signal gathering unit 21, for detection of water level signal; Signal processing unit 22 is connected to signal gathering unit 21, is used for generating water position status according to signal gathering unit 21 detected water level signal and sends instruction; And signal transmitting unit 23, be connected to signal processing unit 22, be used for sending instruction according to the water position status that signal processing unit 22 generates and send the SEA LEVEL VARIATION signal, system also comprises: signal receiving module 24 is used for receiving the SEA LEVEL VARIATION signal that signal transmitting unit 23 sends; Signal processing module 25 is connected to signal receiving module 24, and the SEA LEVEL VARIATION signal that is used for receiving according to signal receiving module 24 generates the water position status idsplay order; State demonstration module 26 is connected to signal processing module 25, is used for the water position status idsplay order that generates according to signal processing module 25 and the state of SEA LEVEL VARIATION is carried out image shows.

In the SEA LEVEL VARIATION monitoring system that the utility model embodiment provides, signal gathering unit 21 is installed on the wind power generating set that is positioned at the mesolittoral zone, for detection of water level signal; Signal processing unit 22 can generate corresponding water position status according to signal gathering unit 21 detected water level signal and send instruction; Signal transmitting unit 23 can send instruction according to this water position status and send corresponding SEA LEVEL VARIATION signal; Signal receiving module 24 can receive the SEA LEVEL VARIATION signal that sends from signal transmitting unit 23; Signal processing module 25 can generate the water position status idsplay order according to the SEA LEVEL VARIATION signal that signal receiving module 24 receives, and the state of 26 pairs of SEA LEVEL VARIATION of this instruction indicating status demonstration module carries out image and shows; Hence one can see that, the SEA LEVEL VARIATION signal is corresponding mutually with the state of SEA LEVEL VARIATION, be to obtain at the incoming tide as the SEA LEVEL VARIATION signal, then the state of the SEA LEVEL VARIATION of Xian Shiing is that flood tide, vice versa, make the staff be easier to grasp vividly, exactly the state of SEA LEVEL VARIATION by the image that shows, so that establishment officer builds and safeguards not being subjected to water level and influencing or be subjected to water level to influence less wind power generating set effectively, improved operating efficiency.

Below with reference to Fig. 2 the workflow of above-mentioned SEA LEVEL VARIATION monitoring system is done concrete introduction.

Signal gathering unit 21 is installed on the wind power generating set that is positioned at the mesolittoral zone, and for detection of water level signal, signal processing unit 22 can generate corresponding water position status according to signal gathering unit 21 detected water level signal and send instruction; Signal transmitting unit 23 can send instruction according to this water position status and send corresponding SEA LEVEL VARIATION signal; Signal receiving module 24 can receive the SEA LEVEL VARIATION signal that sends from signal transmitting unit 23; Signal processing module 25 can generate the water position status idsplay order according to the SEA LEVEL VARIATION signal that signal receiving module 24 receives, and the state of 26 pairs of SEA LEVEL VARIATION of this instruction indicating status demonstration module carries out image and shows.

Need to prove: be connected with line segment between signal transmitting unit 23 and the signal receiving module 24 among Fig. 2, this line segment only represents between these two unit the signal transmission is arranged, the electrical connection of not representing signal transmitting unit 23 and signal receiving module 24, description as following embodiment, signal transmitting unit 23 can be realized wired connection by directly being electrically connected with signal receiving module 24, also can realize wireless connections by radio transmitting/receiving apparatus.

Certainly state demonstration module 26 can not only show that image can also play voice.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, can also comprise portable terminal (as mobile phone), Fig. 3 has increased portable terminal 31 on the basis of Fig. 2, and this portable terminal 31 is used for receiving and showing the SEA LEVEL VARIATION signal that signal transmitting unit 23 sends, as note and/or voice.Because portable terminal 31 makes things convenient for the staff to carry, and can provide the SEA LEVEL VARIATION signal for the staff at any time.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, signal receiving module 24 can be wired connection or wireless connections with the connected mode of signal transmitting unit 23.Wherein, wired connection adopts the mode that directly is electrically connected usually, as the internet, lay optical cable or lan line, wireless communication networks such as Global Link network, mobile network, UNICOM's network are used in wireless connections usually, concrete connected mode can be selected according to actual needs.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, signal gathering unit 21, signal processing unit 22, signal transmitting unit 23 constitute signal module (not shown), and system can comprise a plurality of signal modules; Signal receiving module 24, also the SEA LEVEL VARIATION signal that sends for the signal transmitting unit 23 that receives each signal module; Signal processing module 25, also the SEA LEVEL VARIATION signal for each the signal module of correspondence that receives according to signal receiving module 24 generates the water position status idsplay order; State demonstration module 26, the water position status idsplay order that also is used for each signal module of correspondence of generating according to signal processing module 25 carry out image to the state of the SEA LEVEL VARIATION of each described signal module and show.

For instance, 1 signal module can corresponding 1 wind power generating set, in zone, full wafer mesolittoral zone, be provided with a plurality of wind power generating set usually, the residing position of each wind power generating set is called the seat in the plane, be numbered for like this signal module according to the seat in the plane, the SEA LEVEL VARIATION signal that signal transmitting unit 23 in each signal module sends also can carry seat in the plane information, after this SEA LEVEL VARIATION signal is handled through signal processing module 25, generation carries the water position status idsplay order of seat in the plane information, makes that can carry out image to the corresponding SEA LEVEL VARIATION state in different seats in the plane on the state demonstration module 26 shows.

As shown in Figure 5, the seat in the plane numbering that the arabic numeral representative is carried out each wind power generating set in the zone, mesolittoral zone among the figure, such as, numeral 12 represents the seat in the plane No. 12, shown image represents that tidewater is not to the seat in the plane state, 13 of numerals represent the seat in the plane No. 13, and shown image represents that then tidewater arrives the seat in the plane state; Illustrate: the SEA LEVEL VARIATION signal that the signal transmitting unit 23 in the signal module of corresponding No. 12 seats in the plane sends is that tidewater collects during not to the seat in the plane, after handling through signal processing module 25 so, generated the water position status idsplay order that carries seat in the plane information 12, the numbering place of corresponding No. 12 seats in the plane will demonstrate tidewater not to the image of seat in the plane state on state demonstration module 26; And the SEA LEVEL VARIATION signal that the signal transmitting unit 23 in the signal module of corresponding No. 13 seats in the plane sends collects when to be tidewater arrive the seat in the plane, after handling through signal processing module 25 so, generated the water position status idsplay order that carries seat in the plane information 13, the numbering place of corresponding No. 13 seats in the plane will demonstrate the image that tidewater arrives the seat in the plane state on state demonstration module 26; Will make the staff pass through the state that image is grasped each seat in the plane SEA LEVEL VARIATION vividly, exactly like this, so that establishment officer builds and safeguards not being subjected to water level and influencing or be subjected to water level to influence less wind power generating set effectively.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, state demonstration module 26 can be display screen or pilot lamp, and display screen or pilot lamp all are easy to accurately vivo show the state of SEA LEVEL VARIATION.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, can also comprise the master control cabinet, signal processing unit 22 and signal transmitting unit 23 are arranged in the master control cabinet; The master control cabinet is installed in outside the pylon or pylon of the wind power generating set that is positioned at the mesolittoral zone, so that signal processing unit 22 and signal transmitting unit 23 are managed concentratedly.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, signal gathering unit 21 can be float switch or ultrasonic sensor, so that water level is measured exactly.

Wherein, float switch is in normally open when anhydrous, be in closure state when water is arranged, and closed back produces voltage, signal processing unit 22 has or not the judgement SEA LEVEL VARIATION according to voltage, and sends water position status according to judged result and send instruction to signal transmitting unit 23.

Ultrasonic sensor ultrasonic reflections time when water is arranged is long, generate the pulse signal corresponding with the tidewater signal, signal processing unit 22 is judged SEA LEVEL VARIATION according to different pulse signals, and sends water position status transmission instruction to signal transmitting unit 23 according to judged result.

In the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, can also comprise the operation detecting unit 41 that is electrically connected with signal processing unit 22.Fig. 4 has increased operation detecting unit 41 on the basis of Fig. 3, and this operation detecting unit 41 is for detection of the ruuning situation (for example failure message) of the wind power generating set that is positioned at the mesolittoral zone, and the operating state signal that obtains is sent to signal processing unit 22.

Signal processing unit 22 also is used for sending running status according to the operating state signal that receives and sends instruction to signal transmitting unit 23; Signal transmitting unit 23 also is used for sending instruction according to the running status that receives corresponding operating states of the units signal is sent to signal receiving module 24; Signal receiving module 24 also is used for receiving the operating states of the units signal that signal transmitting unit 23 sends; Signal processing module 25 is also for the operating states of the units signal generating run state idsplay order that receives according to signal receiving module 24; The running status idsplay order that state demonstration module 26 also is used for generating according to signal processing module 25 carries out image to the running status of unit and shows.

Below in conjunction with Fig. 4 above-mentioned workflow with SEA LEVEL VARIATION monitoring system of operation detecting unit 41 is done concrete introduction.

Operation detecting unit 41 sends to signal processing unit 22 with the operating state signal of detected wind power generating set, and signal processing unit 22 sends running status according to the operating state signal that receives and sends instruction to signal transmitting unit 23; Signal transmitting unit 23 sends instruction according to the running status that receives corresponding operating states of the units signal is sent to signal receiving module 24 by wireless or wired mode; Signal receiving module 24 receives the operating states of the units signal that signal transmitting unit 23 sends, the operating states of the units signal generating run state idsplay order that signal processing module 25 receives according to signal receiving module 24, the running status idsplay order that state demonstration module 26 generates according to signal processing module 25 carries out image to the running status of wind power generating set and shows.

Owing to be provided with operation detecting unit 41, it is used for the running status of wind power generating set is detected, so that the staff grasps the ruuning situation of the wind power generating set in the area, mesolittoral zone accurate and visually, guarantees the operate as normal of wind power generating set.

As shown in Figure 4, in the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, can also comprise the temperature sensor 42 that is electrically connected with signal processing unit 22, for detection of the temperature of the wind power generating set environment of living in that is positioned at the mesolittoral zone, and the temperature signal that obtains sent to described signal processing unit 22.

Signal processing unit 22 also is used for sending state of temperature according to the temperature signal that receives and sends instruction to signal transmitting unit 23; Signal transmitting unit 23 also is used for sending instruction according to the state of temperature that receives corresponding unit temperature signal is sent to signal receiving module 24; Signal receiving module 24 also is used for receiving the unit temperature signal that signal transmitting unit 23 sends; The unit temperature signal that signal processing module 25 also is used for receiving according to signal receiving module 24 generates the state of temperature idsplay order; The state of temperature idsplay order that state demonstration module 26 also is used for generating according to signal processing module 25 carries out image to the temperature of unit environment of living in and shows.

Below with reference to Fig. 4 the workflow of SEA LEVEL VARIATION monitoring system with temperature sensor 42 is done concrete introduction.

Temperature sensor 42 sends to signal processing unit 22 with the temperature signal of detected wind power generating set environment of living in, and signal processing unit 22 sends state of temperature according to the temperature signal that receives and sends instruction to signal transmitting unit 23; Signal transmitting unit 23 sends instruction according to the state of temperature that receives corresponding unit temperature signal is sent to signal receiving module 24 by wireless or wired mode; Signal receiving module 24 receives the unit temperature signal that signal transmitting unit 23 sends; Signal processing module 25 generates the state of temperature idsplay order according to the unit temperature signal that signal receiving module 24 receives; The state of temperature idsplay order that state demonstration module 26 generates according to signal processing module 25 carries out image to the temperature of wind power generating set environment of living in and shows.

Owing to be provided with temperature sensor 42, it is for detection of the temperature of wind power generating set environment of living in, can make the staff grasp the temperature conditions of the wind power generating set environment of living in the zone, mesolittoral zone accurate and visually, and determine whether that the personnel that need arrange work build wind power generating set and safeguard.

Temperature sensor 42 is heat-sensitive element, and as thermistor or thermopair etc., its resistance can change with variation of temperature, and signal processing unit 22 produces corresponding state of temperature idsplay order according to resistance.

As shown in Figure 4, in the SEA LEVEL VARIATION monitoring system that above-described embodiment is described, can also comprise the air velocity transducer 43 that is electrically connected with signal processing unit 22, for detection of the wind speed of the wind power generating set environment of living in that is positioned at the mesolittoral zone, and the wind velocity signal that obtains be sent to signal processing unit 22.

Signal processing unit 22 also is used for sending the wind speed state according to the wind velocity signal that receives and sends instruction to signal transmitting unit 23; Signal transmitting unit 23 also is used for sending instruction according to the wind speed state that receives corresponding unit wind velocity signal is sent to signal receiving module 24; Signal receiving module 24 also is used for receiving the unit wind velocity signal that signal transmitting unit 23 sends; The unit wind velocity signal that signal processing module 25 also is used for receiving according to signal receiving module 24 generates wind speed state idsplay order; State demonstration module 26 also is used for the wind speed state idsplay order that generates according to signal processing module 25 to carry out image to the wind speed of unit environment of living in and shows.

Below with reference to Fig. 4 the workflow of SEA LEVEL VARIATION monitoring system with air velocity transducer 43 is done concrete introduction.

Air velocity transducer 43 sends to signal processing unit 22 with the wind velocity signal of detected aerogenerator unit environment of living in, and signal processing unit 22 sends the wind speed state according to the wind velocity signal that receives and sends instruction to signal transmitting unit 23; Signal transmitting unit 23 sends instruction according to the wind speed state that receives corresponding unit wind velocity signal is sent to signal receiving module 24 by wireless or wired mode; Signal receiving module 24 receives the unit wind velocity signal that signal transmitting unit 23 sends; The unit wind velocity signal that signal processing module 25 receives according to signal receiving module 24 generates wind speed state idsplay order; The wind speed state idsplay order that state demonstration module 26 generates according to signal processing module 25 carries out image to the wind speed of wind power generating set environment of living in and shows.

Owing to be provided with air velocity transducer 43, it is for detection of the wind speed of wind power generating set environment of living in, can make the staff grasp the wind conditions of the wind power generating set environment of living in the zone, mesolittoral zone accurate and visually, and determine whether that the personnel that need arrange work build wind power generating set and safeguard.

Air velocity transducer 43 is a kind ofly to convert speed air flow the device of the electric signal of certain corresponding relation to, and signal processing unit 22 can produce corresponding wind speed state idsplay order according to different electric signal.

In addition, the SEA LEVEL VARIATION monitoring system that the utility model embodiment describes can not only be used for the tide prediction of mesolittoral zone project, can also be used for the morning and evening tides monitoring of rivers,lakes and seas, reservoir.

The above; it only is embodiment of the present 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; the variation that can expect easily or replacement all should be encompassed within the protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (10)

1. a SEA LEVEL VARIATION monitoring system comprises signal gathering unit, for detection of water level signal; Signal processing unit is connected to described signal gathering unit, is used for generating water position status according to the detected water level signal of described signal gathering unit and sends instruction; And signal transmitting unit, being connected to described signal processing unit, the water position status that is used for generating according to described signal processing unit sends instruction and sends the SEA LEVEL VARIATION signal, it is characterized in that described system also comprises:

Signal receiving module is used for receiving the SEA LEVEL VARIATION signal that described signal transmitting unit sends;

Signal processing module is connected to described signal receiving module, and the SEA LEVEL VARIATION signal that is used for receiving according to described signal receiving module generates the water position status idsplay order;

The state demonstration module is connected to described signal processing module, is used for the water position status idsplay order that generates according to described signal processing module and the state of SEA LEVEL VARIATION is carried out image shows.

2. SEA LEVEL VARIATION monitoring system according to claim 1 is characterized in that, also comprises portable terminal, is used for receiving and showing the SEA LEVEL VARIATION signal that described signal transmitting unit sends.

3. SEA LEVEL VARIATION monitoring system according to claim 1 is characterized in that, the connected mode of described signal receiving module and described signal transmitting unit is wired connection or wireless connections.

4. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that described signal gathering unit, described signal processing unit, described signal transmitting unit constitute the signal module, described system comprises a plurality of described signal modules;

Described signal receiving module, also the SEA LEVEL VARIATION signal that sends for the signal transmitting unit that receives each described signal module; Described signal processing module, also the SEA LEVEL VARIATION signal for each the described signal module of correspondence that receives according to described signal receiving module generates the water position status idsplay order; Described state demonstration module, the water position status idsplay order that also is used for each described signal module of correspondence of generating according to described signal processing module carry out image to the state of the SEA LEVEL VARIATION of each described signal module and show.

5. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that described state demonstration module is display screen or pilot lamp.

6. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that also comprise the master control cabinet, described master control cabinet is installed in outside the pylon or pylon of the wind power generating set that is positioned at the mesolittoral zone; Described signal processing unit and signal transmitting unit are arranged in the described master control cabinet.

7. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that described signal gathering unit is float switch or ultrasonic sensor.

8. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that, also comprise the operation detecting unit that is electrically connected with described signal processing unit, for detection of the ruuning situation of the wind power generating set that is positioned at the mesolittoral zone, and the operating state signal that obtains sent to described signal processing unit;

Described signal processing unit also is used for sending running status according to the described operating state signal that receives and sends instruction to described signal transmitting unit;

Described signal transmitting unit also is used for sending instruction according to the described running status that receives corresponding operating states of the units signal is sent to described signal receiving module;

Described signal receiving module also is used for receiving the operating states of the units signal that described signal transmitting unit sends;

Described signal processing module is also for the operating states of the units signal generating run state idsplay order that receives according to described signal receiving module;

The running status idsplay order that described state demonstration module also is used for generating according to described signal processing module carries out image to the running status of unit and shows.

9. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that, also comprise the temperature sensor that is electrically connected with described signal processing unit, for detection of the temperature of the wind power generating set environment of living in that is positioned at the mesolittoral zone, and the temperature signal that obtains sent to described signal processing unit;

Described signal processing unit also is used for sending state of temperature according to the described temperature signal that receives and sends instruction to described signal transmitting unit;

Described signal transmitting unit also is used for sending instruction according to the described state of temperature that receives corresponding unit temperature signal is sent to described signal receiving module;

Described signal receiving module also is used for receiving the unit temperature signal that described signal transmitting unit sends;

The unit temperature signal that described signal processing module also is used for receiving according to described signal receiving module generates the state of temperature idsplay order;

The state of temperature idsplay order that described state demonstration module also is used for generating according to described signal processing module carries out image to the temperature of unit environment of living in and shows.

10. according to each described SEA LEVEL VARIATION monitoring system of claim 1-3, it is characterized in that, also comprise the air velocity transducer that is electrically connected with described signal processing unit, for detection of the wind speed of the wind power generating set environment of living in that is positioned at the mesolittoral zone, and the wind velocity signal that obtains sent to described signal processing unit;

Described signal processing unit also is used for sending the wind speed state according to the described wind velocity signal that receives and sends instruction to described signal transmitting unit;

Described signal transmitting unit also is used for sending instruction according to the described wind speed state that receives corresponding unit wind velocity signal is sent to described signal receiving module;

Described signal receiving module also is used for receiving the unit wind velocity signal that described signal transmitting unit sends;

The unit wind velocity signal that described signal processing module also is used for receiving according to described signal receiving module generates wind speed state idsplay order;

Described state demonstration module also is used for the wind speed state idsplay order that generates according to described signal processing module to carry out image to the wind speed of unit environment of living in and shows.

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