CN202013430U - Meteorological parameter collector - Google Patents

Abstract

The utility model discloses a meteorological parameter collector which comprises a support, a wind speed and direction sensor, a temperature sensor, a humidity sensor, a rainfall sensor, a radiation sensor and a signal transmitter. The wind speed and direction sensor, the temperature sensor, the humidity sensor, the rainfall sensor and the radiation sensor are fixedly arranged on the support for measuring corresponding meteorological parameters. The signal transmitter is fixedly arranged on the support and comprises a collecting module and a wireless transmitting module; the collecting module is connected with all the sensors by a data line and is used for collecting the measured meteorological parameters; and the wireless transmitting module is connected with the collecting module and is used for transmitting the collected meteorological parameters based on a wireless way. The meteorological parameter collector is capable of realizing the measurement and collecting and the wireless transmitting of the meteorological parameters, is small in size and low in cost and is easy to popularize and promote.

Description

The meteorologic parameter harvester

Technical field

The utility model embodiment relates to the parameter acquisition technology, relates in particular to a kind of meteorologic parameter harvester.

Background technology

In aquaculture field, have substantial connection between various water quality parameters and the meteorologic parameter, the variation of meteorologic parameter will have influence on the variation of water quality parameter, and therefore, when water quality monitoring, the collection of meteorologic parameter is extremely important.

The collection of existing meteorologic parameter has two kinds of forms, and a kind of is traditional artificial image data, and the observation timeliness is slow, and density is little, and workload is big; Another kind is the automatic weather station of present broad research, is to utilize instrument to gather, analyze, handle, write down and send weather data automatically, and as required, becomes electric signal to pass to network the information translation that collects, and reaches resource sharing.Existing automatic weather station is divided into two kinds of wire transmission and wireless transmission.The wire transmission automatic weather station exists network wiring cost height, constructional difficulties, should not safeguard and be subjected to the shortcomings such as restriction of occasion.Wireless automatic weather station has overcome the above-mentioned shortcoming of wired automatic weather station, and its applied range is powerful.And large-scale, the multifunctional all design of employing usually of existing wireless automatic weather station, equipment is big, and the cost height is difficult to popularize.

The utility model content

The utility model provides a kind of meteorologic parameter harvester, and is big in order to equipment volume in the solution prior art, and the problem that cost is high realizes the data wireless transmission.

The utility model provides a kind of meteorologic parameter harvester, wherein, comprises support member, wind speed wind direction sensor, temperature sensor, humidity sensor, rain sensor, radiation sensor and signal transmission device; Wind speed wind direction sensor, temperature sensor, humidity sensor, rain sensor and radiation sensor are fixedly installed on the described support member, are used to measure corresponding meteorologic parameter; Described signal transmission device is fixedly installed on the described support member, described signal transmission device comprises acquisition module and wireless transmitter module, described acquisition module links to each other by data line with each sensor, the meteorologic parameter that collection measures, described wireless transmitter module links to each other with acquisition module, and the meteorologic parameter that collects is launched based on wireless mode.

Aforesaid meteorologic parameter harvester, preferably: also comprise: the wind speed and direction signal conversion module, be connected between the acquisition module of described wind speed wind direction sensor and signal transmission device, the wind speed and direction Parameters Transformation that described wind speed wind direction sensor is measured is a digital signal, and offers described acquisition module.

Aforesaid meteorologic parameter harvester, preferably: described temperature sensor and humidity sensor are integrated in the thermometer screen.

Aforesaid meteorologic parameter harvester, preferably: described support member comprises tripod, straight-bar frame, three and half arm crossbeams and U type beam; Described straight-bar frame is fixed on the described tripod; Described three and half arm crossbeams are separately fixed on the described straight-bar frame, and described thermometer screen, rain sensor and signal transmission device are separately fixed on three described half arm crossbeams; Described U type beam is fixed on the described straight-bar frame, and described radiation sensor is fixed on the described U type beam; Described wind speed wind direction sensor is fixed on the described straight-bar frame by cantilever lever; Described wind speed and direction signal conversion module is fixed on the described straight-bar frame.

Aforesaid meteorologic parameter harvester, preferably: described cantilever lever is fixed on the described straight-bar frame by two U-bolts; Described wind speed and direction signal conversion module is fixed on the described straight-bar frame by U-bolt.

Aforesaid meteorologic parameter harvester, preferably: the root of described three and half arm crossbeams and U type beam is fixedly connected on the axle sleeve; Described axle sleeve socket is fixed on the described straight-bar frame.

Aforesaid meteorologic parameter harvester, preferably: the root of described three and half arm crossbeams and U type beam is positioned at same plane, and distributes evenly and at intervals.

Aforesaid meteorologic parameter harvester, preferably: described wireless transmitter module is the ZigBee module, and described acquisition module is a circuit board, and described ZigBee module is embedded on the described circuit board.

As above arbitrary described meteorologic parameter harvester, preferably: also comprise: Power Supply Assembly, described Power Supply Assembly comprises rechargeable battery and solar panels, described rechargeable battery links to each other with signal transmission device and powers.

Aforesaid meteorologic parameter harvester, preferably: described signal transmission device also comprises tubular shell; Described wireless transmitter module, acquisition module and rechargeable battery are arranged in the tubular shell of described signal transmission device, and described solar panels cover the top of described tubular shell.

The meteorologic parameter harvester that the utility model provides can realize the measurement collection and the wireless transmission of meteorologic parameter, and equipment volume is little, and cost is low, is convenient to penetration and promotion.

Description of drawings

The one-piece construction synoptic diagram of the meteorologic parameter harvester that Fig. 1 provides for the utility model embodiment two.

The external structure synoptic diagram of the signal transmission device of the meteorologic parameter harvester that Fig. 2 provides for the utility model embodiment two.

The inner structure synoptic diagram of the signal transmission device of the meteorologic parameter harvester that Fig. 3 provides for the utility model embodiment two.

Reference numeral:

The 1-tripod; 2-straight-bar frame; 3-half arm crossbeam;

4-U type beam; 5-U type bolt; The 6-wind direction and wind velocity sensor;

7-wind speed and direction signal conversion module; The 8-thermometer screen; The 9-rain sensor;

The 10-radiation sensor; The 11-signal transmission device; The 12-data line;

The 13-solar panels; The 14-tubular shell; The 15-rechargeable battery;

The 16-circuit board; The 17-ZigBee module; The 18-data line interface.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model embodiment clearer, below in conjunction with the accompanying drawing among the utility model embodiment, technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment one

The utility model embodiment provides a kind of meteorologic parameter harvester, wherein: comprise support member, wind speed wind direction sensor, temperature sensor, humidity sensor, rain sensor, radiation sensor and signal transmission device; Wind speed wind direction sensor, temperature sensor, humidity sensor, rain sensor and radiation sensor are fixedly installed on the support member, are used to measure corresponding meteorologic parameter; Signal transmission device is fixedly installed on the support member, signal transmission device comprises acquisition module and wireless transmitter module, acquisition module links to each other by data line with each sensor, the meteorologic parameter that collection measures, wireless transmitter module links to each other with acquisition module, and the meteorologic parameter that collects is launched based on wireless mode.

The meteorologic parameter harvester that the utility model embodiment provides, by support member fixedly wind direction and wind velocity sensor, temperature sensor, humidity sensor, rain sensor, radiation sensor and signal transmission device, acting as of each sensor: wind direction and wind velocity sensor is used for measuring in real time the wind direction and wind velocity parameter, and the output simulating signal; Temperature sensor is used for measuring in real time temperature parameter, and the output digital signal; Humidity sensor is used for the humidity parameter of real-time measurement environment, and the output digital signal; Rain sensor is used for the rainfall parameter of measurement environment, and output pulse signal; Radiation sensor is used for the radiation parameter of measurement environment, and output voltage signal.The parameter that each sensor measurement arrives, the process data line transfers to the acquisition module of signal transmission device, and subsequently, wireless transmitter module sends to data center based on the wireless transmit mode with the signal that acquisition module collects.

The meteorologic parameter harvester that the utility model provides, can realize the measurement collection of meteorologic parameter, and the signal wireless that collects transferred to data center, the sensor of selected different accuracy can be adjusted the degree of accuracy of the parameter that measures, and equipment volume is little, cost is low, is convenient to penetration and promotion.

On the technique scheme basis, preferably: also comprise: the wind speed and direction signal conversion module, be connected between the acquisition module of wind speed wind direction sensor and signal transmission device, the wind speed and direction Parameters Transformation that wind speed wind direction sensor is measured is a digital signal, and offers acquisition module.Be specially: the wind speed and direction signal conversion module is used for the simulating signal of wind speed wind direction sensor output is converted into digital signal, offers acquisition module, so that the wireless transmitter module wireless transmission.

Embodiment two

The external structure synoptic diagram of the signal transmission device of the meteorologic parameter harvester that the one-piece construction synoptic diagram of the meteorologic parameter harvester that Fig. 1 provides for the utility model embodiment two, Fig. 2 provide for the utility model embodiment two; The inner structure synoptic diagram of the signal transmission device of the meteorologic parameter harvester that Fig. 3 provides for the utility model embodiment two.Below in conjunction with Fig. 1～Fig. 3 present embodiment is described.

Present embodiment is on the basis of the foregoing description, preferably: temperature sensor and humidity sensor are integrated in the thermometer screen 8.Can be convenient to like this install, in actual the use, also can directly select the Temperature Humidity Sensor that integrates temperature parameter measurement and humidity parameter measurement function for use.

On technique scheme, preferably: support member comprises tripod 1, straight-bar frame 2, three and half arm crossbeams 3 and U type beam 4; Straight-bar frame 2 is fixed on the tripod 1; Three and half arm crossbeams 3 are separately fixed on the straight-bar frame 2, and thermometer screen 8, rain sensor 9 and signal transmission device 11 are separately fixed on the three and half arm crossbeams 3; U type beam 4 is fixed on the straight-bar frame 2, and radiation sensor 10 is fixed on the U type beam 4; Wind speed wind direction sensor 6 is fixed on the straight-bar frame 2 by cantilever lever; Wind speed and direction signal conversion module 7 is fixed on the straight-bar frame 2.

Select three and half arm crossbeams fixedly thermometer screen, rain sensor and signal transmission device respectively for use, can increase the reliability of system,, can not influence the operate as normal of other sensors or signal transmission device even if hidden danger of quality appears in one and half arm crossbeams in the reality.

In actual the use, for simplifying installation and guaranteeing fixedly connected reliability, cantilever lever is fixed on the straight-bar frame 2 by two U-bolts 5; Wind speed and direction signal conversion module 7 is fixed on the straight-bar frame 2 by U-bolt 5.

Further, for simplifying the processing and the mounting process of three and half arm crossbeams 3 and U type beam 4, the root of three and half arm crossbeams 3 and U type beam 4 is fixedly connected on the axle sleeve; The axle sleeve socket is fixed on the straight-bar frame 2.Can form four and half arm crossbeams simultaneously like this on axle sleeve, be bent to form U type beam by one of them half arm crossbeam, each supporting construction need not independently prepare and install, and has reduced the part number.

Further, the root of three and half arm crossbeams 3 and U type beam 4 is positioned at same plane, and distributes evenly and at intervals.The root of three and half arm crossbeams 3 and U type beam 4 is positioned at the processing that three and half arm crossbeams 3 and U type beam 4 can be simplified in same plane, at interval evenly distribution then is that fixed sensing and signal transmission device 11 block each other on three and half arm crossbeams 3 and the U type beam 4, guarantees the accuracy that meteorologic parameter is gathered.

Further, consider cost performance, wireless transmitter module is a ZigBee module 17, and acquisition module is a circuit board 16, and ZigBee module 17 is embedded on the circuit board 16.

Further, the meteorologic parameter harvester that the utility model embodiment provides also comprises Power Supply Assembly, and Power Supply Assembly comprises rechargeable battery 15 and solar panels 13, and rechargeable battery 15 links to each other with signal transmission device 11 and powers.

Daytime, solar panels 13 are responsible for to rechargeable battery 15 chargings, powered to signal transmission device 11 by rechargeable battery 15 evening, particularly, rechargeable battery 15 is powered to the circuit board 16 of signal transmission device 11, and is powered to the meteorologic parameter harvester that the utility model embodiment provides by data line 12 through data line interface 18 by circuit board 16.

The signal wireless that the meteorologic parameter harvester that the utility model embodiment provides directly collects acquisition module transfers out, so whole plant energy consumption is less, the energy that rechargeable battery provides is enough to keep the operate as normal of whole meteorologic parameter harvester.

Further, signal transmission device 11 also comprises tubular shell 14; Wireless transmitter module, acquisition module and rechargeable battery 15 are arranged in the tubular shell 14 of signal transmission device 11, and solar panels 13 cover the top of tubular shell 14, so that gather solar energy.

It should be noted that at last: above embodiment only in order to the explanation the technical solution of the utility model, is not intended to limit; Although the utility model is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. a meteorologic parameter harvester is characterized in that: comprise support member, wind speed wind direction sensor, temperature sensor, humidity sensor, rain sensor, radiation sensor and signal transmission device; Wind speed wind direction sensor, temperature sensor, humidity sensor, rain sensor and radiation sensor are fixedly installed on the described support member, are used to measure corresponding meteorologic parameter; Described signal transmission device is fixedly installed on the described support member, described signal transmission device comprises acquisition module and wireless transmitter module, described acquisition module links to each other by data line with each sensor, the meteorologic parameter that collection measures, described wireless transmitter module links to each other with acquisition module, and the meteorologic parameter that collects is launched based on wireless mode.

2. meteorologic parameter harvester according to claim 1, it is characterized in that, also comprise: the wind speed and direction signal conversion module, be connected between the acquisition module of described wind speed wind direction sensor and signal transmission device, the wind speed and direction Parameters Transformation that described wind speed wind direction sensor is measured is a digital signal, and offers described acquisition module.

3. meteorologic parameter harvester according to claim 2 is characterized in that: described temperature sensor and humidity sensor are integrated in the thermometer screen.

4. meteorologic parameter harvester according to claim 3 is characterized in that:

Described support member comprises tripod, straight-bar frame, three and half arm crossbeams and U type beam; Described straight-bar frame is fixed on the described tripod; Described three and half arm crossbeams are separately fixed on the described straight-bar frame, and described thermometer screen, rain sensor and signal transmission device are separately fixed on three described half arm crossbeams; Described U type beam is fixed on the described straight-bar frame, and described radiation sensor is fixed on the described U type beam; Described wind speed wind direction sensor is fixed on the described straight-bar frame by cantilever lever; Described wind speed and direction signal conversion module is fixed on the described straight-bar frame.

5. meteorologic parameter harvester according to claim 4 is characterized in that: described cantilever lever is fixed on the described straight-bar frame by two U-bolts; Described wind speed and direction signal conversion module is fixed on the described straight-bar frame by U-bolt.

6. meteorologic parameter harvester according to claim 4 is characterized in that: the root of described three and half arm crossbeams and U type beam is fixedly connected on the axle sleeve; Described axle sleeve socket is fixed on the described straight-bar frame.

7. meteorologic parameter harvester according to claim 6 is characterized in that: the root of described three and half arm crossbeams and U type beam is positioned at same plane, and distributes evenly and at intervals.

8. meteorologic parameter harvester according to claim 1 is characterized in that: described wireless transmitter module is the ZigBee module, and described acquisition module is a circuit board, and described ZigBee module is embedded on the described circuit board.

9. according to the arbitrary described meteorologic parameter harvester of claim 1～8, it is characterized in that, also comprise: Power Supply Assembly, described Power Supply Assembly comprises rechargeable battery and solar panels, described rechargeable battery links to each other with signal transmission device and powers.

10. meteorologic parameter harvester according to claim 9 is characterized in that: described signal transmission device also comprises tubular shell; Described wireless transmitter module, acquisition module and rechargeable battery are arranged in the tubular shell of described signal transmission device, and described solar panels cover the top of described tubular shell.

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