CN206818614U - A kind of plant chlorophyll fluorescence continuous monitoring device - Google Patents

Abstract

The utility model discloses a kind of plant chlorophyll fluorescence continuous monitoring device, including monitor and send the monitoring side of chlorophyll fluorescence data；Receive and handle the client of chlorophyll fluorescence data；Sent between described client and monitoring side by wireless communication networks/receive Monitoring Data；The monitoring side includes：The solar panels and the battery of storage electric energy converted solar energy into electrical energy；The output end of described charge controller is electrically connected with data acquisition unit, wireless communication module and chlorophyll fluorescence sensor；The charge controller, battery, data acquisition unit and wireless communication module are arranged in control cabinet, and control cabinet and solar panels are installed on support；Described support is fixed on the ground by being spirally connected for frame bottom；Described chlorophyll fluorescence sensor is fixed up by optical fiber and leaf folder with the plant leaf blade for needing to measure.The utility model has the advantages of following unattended, long-term, continuous monitoring.

Description

A kind of plant chlorophyll fluorescence continuous monitoring device

Technical field

A kind of detection means is the utility model is related to, specially a kind of plant chlorophyll fluorescence continuous monitoring device.Belong to Agricultural technology field.

Background technology

Chlorophyll fluorescence is the lossless probe for detecting plant photosynthesis physiological status, can quickly, reliable, sensitive record plant The photosynthesis change of thing is without destroying plant.The chlorophyll fluorescence instrument of most measurement photosynthesis of plant is portable at present Design, with battery powered and needs experimenter's execute-in-place.

Because photosynthesis is influenceed by environment particularly light intensity change in real time, therefore carry portable instrument and surveyed to field The data of amount once or several times are not strong to the representativeness of plant whole Diurnal change photosynthesis change.

For field measurement, researcher is badly in need of can be green with the leaf of solar powered, unattended long term monitoring Plain fluorescence measuring systems.

Utility model content

The purpose of this utility model is to provide for a kind of plant chlorophyll fluorescence continuous monitoring device, to solve existing skill The above mentioned problem of art.

The purpose of this utility model is achieved through the following technical solutions.

A kind of plant chlorophyll fluorescence continuous monitoring device, including monitor and send the monitoring side of chlorophyll fluorescence data； Receive and handle the client of chlorophyll fluorescence data；Sent out between described client and monitoring side by wireless communication networks Give/receive Monitoring Data；The monitoring side includes：The electric power storage of the solar panels and storage electric energy that convert solar energy into electrical energy Pond；It is electrically connected between described solar panels and battery by charge controller；The output end of described charge controller It is electrically connected with data acquisition unit, wireless communication module and chlorophyll fluorescence sensor；Described data acquisition unit and chlorophyll Fluorescent optical sensor is electrically connected with；Pass through wireless communication module wireless connection and biography between described data acquisition unit and client It is defeated；The charge controller, battery, data acquisition unit and wireless communication module are arranged in control cabinet, control cabinet and the sun Energy plate is installed on support；Described support is fixed on the ground by being spirally connected for frame bottom；Described chlorophyll fluorescence passes Sensor is fixed up by optical fiber and leaf folder with the plant leaf blade for needing to measure, and is connected to by waterproof data wire in control cabinet Data acquisition unit on.

Chlorophyll fluorescence sensor is embedded in the soil layer of different depth according to measurement demand, and connected by waterproof data wire It is connected on the data acquisition unit in control cabinet.

The number of the plant chlorophyll fluorescent optical sensor can be 1-200.

Compared with prior art, the utility model has the advantages of following unattended, long-term, continuous monitoring.

Brief description of the drawings

Of the present utility model above-mentioned and other feature, property and advantages will be by with reference to the accompanying drawings and examples Description and become readily apparent from, wherein：

Fig. 1 is the scheme of installation of one embodiment of the present utility model.

Fig. 2 is the composition schematic diagram of one embodiment of the present utility model.

In figure, 1, solar panels 2, charge controller 3, battery 4, data acquisition unit 5, wireless communication module 6, Sensor 7, support 8, control cabinet 9, optical fiber 10, leaf folder 20, monitoring side 30, client.

Embodiment

With reference to specific embodiments and the drawings, the invention will be further described, elaborates in the following description more Details to facilitate a thorough understanding of the present invention, still the present invention obviously can with it is a variety of be different from this description ground other manner come it is real Apply, those skilled in the art can make similar popularization according to practical situations in the case of without prejudice to intension of the present invention, drill Unravel silk, therefore should not be limited the scope of the invention with the content of this specific embodiment.

A kind of plant chlorophyll fluorescence continuous monitoring device as depicted in figs. 1 and 2, including monitor and to send chlorophyll glimmering The monitoring side of light data；Receive and handle the client of chlorophyll fluorescence data；Between described client 30 and monitoring side 20 Sent by wireless communication networks/receive Monitoring Data；The monitoring side 20 includes：The solar energy converted solar energy into electrical energy The battery 3 of plate 1 and storage electric energy；It is electrically connected between described solar panels 1 and battery 2 by charge controller 3；Institute The output end for the charge controller 3 stated electrically connects with data acquisition unit 4, wireless communication module 5 and chlorophyll fluorescence sensor 6 Connect；Described data acquisition unit 4 is electrically connected with chlorophyll fluorescence sensor；Lead between described data acquisition unit and client Cross wireless communication module wireless connection and transmission；The charge controller 3, battery 2, data acquisition unit 4 and wireless telecommunications mould Block 5 is arranged in control cabinet 8, and control cabinet and solar panels are installed on support 7；The spiral shell that described support 7 passes through the bottom of support 7 Connect and fix on the ground；Described chlorophyll fluorescence sensor 6 is consolidated by optical fiber 9 and leaf 10 plant leaf blade with needing to measure of folder Get up calmly, and be connected to by waterproof data wire on the data acquisition unit 4 in control cabinet 8.

Chlorophyll fluorescence sensor 6 is embedded in the soil layer of different depth according to measurement demand, and passes through waterproof data wire It is connected on the data acquisition unit 4 in control cabinet 8.

The number of the plant chlorophyll fluorescent optical sensor 6 is 1-200.

Although the utility model is disclosed as above with preferred embodiment, its be not for limiting the utility model, it is any Those skilled in the art are not being departed from spirit and scope of the present utility model, can make possible variation and modification.Cause This, every content without departing from technical solutions of the utility model, according to the technical essence of the utility model to above example institute Any modification, equivalent variations and the modification made, each fall within the protection domain that the utility model claims are defined.

Claims (2)

1. a kind of plant chlorophyll fluorescence continuous monitoring device, including monitor and send the monitoring side of chlorophyll fluorescence data；Its It is characterised by：Receive and handle the client of chlorophyll fluorescence data；Pass through channel radio between described client and monitoring side News network send/receive Monitoring Data；The monitoring side includes：The solar panels and storage electric energy converted solar energy into electrical energy Battery；It is electrically connected between described solar panels and battery by charge controller；Described charge controller Output end is electrically connected with data acquisition unit, wireless communication module and chlorophyll fluorescence sensor；Described data acquisition unit with Chlorophyll fluorescence sensor is electrically connected with；Pass through wireless communication module wireless connection between described data acquisition unit and client And transmission；The charge controller, battery, data acquisition unit and wireless communication module be arranged on control cabinet in, control cabinet and Solar panels are installed on support；Described support is fixed on the ground by being spirally connected for frame bottom；Described chlorophyll is glimmering Optical sensor is fixed up by optical fiber and leaf folder with the plant leaf blade for needing to measure, and is connected to control by waterproof data wire On data acquisition unit in case.

A kind of 2. plant chlorophyll fluorescence continuous monitoring device according to claim 1, it is characterised in that：The leaves of plants The number of green plain fluorescent optical sensor is 1-200.