CN206274885U - Drought tolerance in plants identification apparatus - Google Patents

Abstract

The utility model discloses a kind of drought tolerance in plants identification apparatus, it is related to drought resistance in plants identification technology field.It includes cultivating chamber；Uniformly A cultivation trays and B cultivation trays are placed with cultivating chamber；A cultivation trays and B cultivation tray internal upper parts have been fixedly connected with support frame；Cultivating chamber madial wall is installed with A liquid reserve tanks and B liquid reserve tanks respectively；A drip irrigation pipes and B drip irrigation pipes have been respectively communicated with A liquid reserve tanks；C drip irrigation pipes are communicated with B liquid reserve tanks；Drip irrigation controller and water meter are mounted in described A drip irrigation pipes, B drip irrigation pipes and C drip irrigation pipes；Uniformly A droppers are communicated with A drip irrigation pipes.The beneficial effects of the utility model are：It can precise control moisture, and can significantly cut down air weather conditions to the influence that causes of identification, eliminating soil water sorption causes moisture to control inaccurate problem, and there is provided the control of simulation soil environment and soilless culture environment, identification result is good.

Description

Drought tolerance in plants identification apparatus

Technical field

The utility model is related to drought resistance in plants identification technology field.

Background technology

In recent years due to the change of weather, often there is year after year arid situation, have a strong impact on the growth of industrial crops, remove Beyond this, traditional agriculture is irrigated and wastes substantial amounts of water resource, and the WUEL for improving agricultural is extremely urgent therefore right Just turn into the very important work of plant research in the identification of drought tolerance in plants.How to determine the anti-of crops in the prior art Drought aspect, lacks highly effective and simple method, using potted plant experiment, although can control water always, but not Field state can be simulated, and the drought resisting carried out in field is tested because the presence of soil is unable to precise control moisture, and outward The air conditionses on boundary may influence the identification that plant absorbs water, and cause experimental result inaccurate.A kind of plant is we disclosed for this Drought-enduring identification apparatus can effectively solve the problem that above mentioned problem.

Utility model content

Technical problem to be solved in the utility model, is directed to above-mentioned technical deficiency, there is provided a kind of plant is resistance to Non-irrigated identification apparatus, its can precise control moisture, and can significantly cut down air weather conditions to the influence that causes of identification, disappear Except soil water sorption causes moisture to control inaccurate problem, and there is provided the right of simulation soil environment and soilless culture environment According to identification result is good.

The technical solution adopted in the utility model is：A kind of drought tolerance in plants identification apparatus, including cultivating chamber are provided；Cultivating chamber It is interior to be uniformly placed with A cultivation trays and B cultivation trays；A cultivation trays and B cultivation tray internal upper parts have been fixedly connected with support frame；Cultivating chamber Madial wall is installed with A liquid reserve tanks and B liquid reserve tanks respectively；A drip irrigation pipes and B drip irrigation pipes have been respectively communicated with A liquid reserve tanks；B is stored up C drip irrigation pipes are communicated with liquid case；Drip irrigation controller and water meter are mounted in described A drip irrigation pipes, B drip irrigation pipes and C drip irrigation pipes； Uniformly A droppers are communicated with A drip irrigation pipes；Uniformly B droppers are communicated with B drip irrigation pipes；Uniformly C droppers are communicated with C drip irrigation pipes；Institute The A droppers stated are respectively protruding into A cultivation trays；B droppers and C droppers are respectively protruding into B cultivation trays；Cultivating chamber top is solid respectively Dingan County is equipped with dehumidification system and thermoregulating system.

Further optimize the technical program, the dehumidification system of drought tolerance in plants identification apparatus is dehydrating unit；Thermoregulating system is Heating lamp；Drainpipe is communicated with dehydrating unit；Drainpipe is connected with A liquid reserve tanks.

Further optimize the technical program, the dehumidification system of drought tolerance in plants identification apparatus can be air-conditioning.

The beneficial effects of the utility model are：

1st, cultivating chamber can provide a suitable space for drought tolerance in plants identification；Can be planted in A cultivation trays and B cultivation trays Plant is planted, drought-enduring identification is carried out；Plant can be supported fixation by the support frame in A cultivation trays and B cultivation trays；A liquid reserve tanks It is interior to hold nutrient solution, the soil liquid can be held in B liquid reserve tanks；A drip irrigation pipes and B drip irrigation pipes can respectively pass through A droppers With B droppers to injecting nutrient solution in A cultivation trays and B cultivation trays；C drip irrigation pipes can be by C droppers to injecting soil in B cultivation trays Solution, simulates soil environment；Drip irrigation controller can control uninterrupted and keying, and water meter can intuitively show data on flows； Dehumidification system can be to dehumidifying in cultivating chamber, and thermoregulating system can be to heating up in cultivating chamber.

2nd, the moisture of dehydrating unit dehumidifying can be flowed into A liquid reserve tanks with drainpipe, and heating lamp can be in cultivating chamber Air carry out heat temperature raising ensure growing temperatures, influence of the external condition to identification result can be reduced by two ways, Ensure the accuracy of drought-enduring identification.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is partial structural diagram of the present utility model；

Fig. 3 is circuit diagram of the present utility model；

In figure, 1, cultivating chamber；2nd, A cultivation trays；3rd, B cultivation trays；4th, support frame；5th, A liquid reserve tanks；6th, B liquid reserve tanks；7th, A drops Fill pipe；8th, B drip irrigation pipes；9th, C drip irrigation pipes；10th, drip irrigation controller；11st, water meter；12nd, A droppers；13rd, B droppers；14th, C droppers；15、 Heating lamp；16th, drainpipe；17th, dehydrating unit.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

As Figure 1-3, drought tolerance in plants identification apparatus, including cultivating chamber 1；Uniformly A cultivation trays 2 are placed with cultivating chamber 1 With B cultivation trays 3；A cultivation trays 2 and the internal upper part of B cultivation trays 3 have been fixedly connected with support frame 4；The madial wall of cultivating chamber 1 is fixed respectively A liquid reserve tanks 5 and B liquid reserve tanks 6 are installed；A drip irrigation pipes 7 and B drip irrigation pipes 8 have been respectively communicated with A liquid reserve tanks 5；Connect on B liquid reserve tanks 6 It is connected with C drip irrigation pipes 9；Drip irrigation controller 10 and water meter 11 are mounted in described A drip irrigation pipes 7, B drip irrigation pipes 8 and C drip irrigation pipes 9； Uniformly A droppers 12 are communicated with A drip irrigation pipes 7；Uniformly B droppers 13 are communicated with B drip irrigation pipes 8；Uniformly C is communicated with C drip irrigation pipes 9 Dropper 14；Described A droppers 12 are respectively protruding into A cultivation trays 2；B droppers 13 and C droppers 14 are respectively protruding into B cultivation trays 3 It is interior；The top of cultivating chamber 1 is installed with dehumidification system and thermoregulating system respectively；Described dehumidification system is dehydrating unit 17；Adjust Warm system is heating lamp 15；Drainpipe 16 is communicated with dehydrating unit 17；Drainpipe 16 is connected with A liquid reserve tanks 5；Dehumidification system can It is air-conditioning.

When carrying out drought tolerance in plants identification, experimental plant is respectively put into A cultivation trays 2 and B cultivation trays 3 first, then Support is fixed to plant by support frame 4, Spray Irrigation Controller is adjusted afterwards, the nutrient solution in control A liquid reserve tanks 5 leads to respectively Cross by A drip irrigation pipes 7 and B drip irrigation pipes 8, and flowed out from A droppers 12 and B droppers 13, to injection in A cultivation trays 2 and B cultivation trays 3 Nutrient solution；The aqueous solution of nutrient solution trace element for needed for plant growth, so the flow of the flow of nutrient solution i.e. moisture, The concrete content of the moisture irrigated A cultivation trays 2 and B cultivation trays 3 can be learnt by the data of water meter 11；In addition in order to Simulating the environment of soil, such as some impurity in soil etc. may cause damage to plant growth, needed for the plant in soil Moisture may be different from moisture needed for nutrient fluid cultivation, therefore, the utility model is provided with B liquid reserve tanks 6, inside B liquid reserve tanks 6 The soil liquid is held, by the C droppers 14 in C drip irrigation pipes 9 to the injection soil liquid in B cultivation trays 3, simulation soil environment is played Effect, the inaccurate phenomenon of the experiment effect that block soil water sorption causes also is avoided that by the form of the soil liquid, and With the effect that A cultivation trays 2 can play check experiment, similarly the flow of soil liquid moisture is the flow that can be considered water, is passed through Drip irrigation controller 10 realizes precise control, and specific data are observed by water meter 11.

In the utility model, dehydrating unit 17 is set at the top of cultivating chamber 1, the moisture in air can be removed, it is to avoid Experiment is impacted, and high air temperature can suitably be risen by heating lamp 15, it is ensured that cultivation effect, facilitated to plant The identification of drought resistance, it is ensured that the accuracy of identification result；The moisture injection that the drainpipe 16 of dehydrating unit 17 will can absorb To in A liquid reserve tanks 5, the recycling to moisture in air is realized；Dehumidification system in the utility model may be configured as air-conditioning, or Person other dehumidifying specific device；Drip irrigation controller 10 is prior art, and the utility model is not illustrated.To plant Drought tolerance when being identified, it is only necessary to according to experimental conditions, injection A cultivation trays 2 are adjusted by drip irrigation controller 10 and B are cultivated The flow of the nutrient solution in basin 3, and the flow of the soil liquid in B cultivation trays 3 is injected into, with reference to the growing state of plant, Calculate specific data, you can obtain the more accurately exact level of the drought tolerance of different plants.

Claims (3)

1. a kind of drought tolerance in plants identification apparatus, it is characterised in that：Including cultivating chamber（1）；Cultivating chamber（1）The interior uniform A that is placed with is planted Training basin（2）With B cultivation trays（3）；A cultivation trays（2）With B cultivation trays（3）Internal upper part has been fixedly connected with support frame（4）；Cultivating chamber （1）Madial wall is installed with A liquid reserve tanks respectively（5）With B liquid reserve tanks（6）；A liquid reserve tanks（5）On be respectively communicated with A drip irrigation pipes （7）With B drip irrigation pipes（8）；B liquid reserve tanks（6）On be communicated with C drip irrigation pipes（9）；Described A drip irrigation pipes（7）, B drip irrigation pipes（8）With C drops Fill pipe（9）On be mounted on drip irrigation controller（10）And water meter（11）；A drip irrigation pipes（7）On be uniformly communicated with A droppers（12）；B drops Fill pipe（8）On be uniformly communicated with B droppers（13）；C drip irrigation pipes（9）On be uniformly communicated with C droppers（14）；Described A droppers（12） It is respectively protruding into A cultivation trays（2）It is interior；B droppers（13）With C droppers（14）It is respectively protruding into B cultivation trays（3）It is interior；Cultivating chamber（1）Top Portion is installed with dehumidification system and thermoregulating system respectively.

2. drought tolerance in plants identification apparatus according to claim 1, it is characterised in that：Described dehumidification system is dehydrating unit （17）；Thermoregulating system is heating lamp（15）；Dehydrating unit（17）On be communicated with drainpipe（16）；Drainpipe（16）With A liquid reserve tanks （5）Connection.

3. drought tolerance in plants identification apparatus according to claim 1, it is characterised in that：Dehumidification system can be air-conditioning.