CN210017161U - Portable observation device for plant adversity growth - Google Patents

Abstract

The utility model belongs to the technical field of the plant is surveyd, a portable plant adversity growth's observation device is disclosed. The utility model discloses a be equipped with the box, the inside baffle that is equipped with of box, the box is inside to be cut apart through the baffle, exists between a plurality of cultivations, box one side is transparent material, natural soil has been placed to the bottom between the cultivation, including different types such as moisture disappearance, low temperature, high temperature, saline and alkaline between the cultivation, all slide between the cultivation and connect on the box, inside moisture control structure and the temperature control structure of being equipped with of box, the bottom half is equipped with the area wheel of braking, and box one side is equipped with the push rod. The utility model discloses a reason natural soil carries out the plant cultivation, creates different adverse circumstances through the classification difference between cultivateing, but the growth condition of visual observation plant, and whole device easily removes and carries.

Description

Portable observation device for plant adversity growth

Technical Field

The utility model belongs to the technical field of the plant is surveyd, especially, relate to an observation device that portable plant adverse circumstances grows.

Background

In the field of plant science, stress refers to the general term for various environmental factors that are not conducive to plant growth. When a stress sound field test is carried out, the stress mainly comprises physicochemical stress indexes such as water shortage, low temperature, high temperature, salt and alkali, environmental pollution and the like. In the existing plant growth observing equipment. The method aims to influence the growth of plants under the condition of setting different parameters such as water, saline and alkaline, temperature, illumination and the like. However, in general, when the apparatus is set for a liquid such as water, saline, or the like, measured plant growth data often appears and does not match the actual situation. The reason is mainly that the compartment is a limited simulated growth space, the simulated situation is different from the situation of actual planting in soil, when liquid permeates in the soil, the covered area is large, the liquid is well absorbed and stored, when the liquid permeates in the compartment, the filter screen is simply arranged below the compartment, most of the liquid directly runs off from the filter screen, namely, moisture does not obtain the absorption situation similar to the soil, after a comparison test is carried out, the same growth result as the plant actually growing in the soil cannot be obtained due to different absorption situations of the liquid, and finally the problem of inaccurate adverse environment test result occurs.

In summary, the problems of the prior art are as follows: the device that current survey plant grows in the adverse circumstances generally is difficult for carrying the removal, and in the observation process, because simulation soil is different with real soil, causes the experimental data inaccurate.

Disclosure of Invention

To the problem that prior art exists, the utility model provides a portable plant adversity growth's observation device.

The utility model discloses a realize like this, a portable plant adversity growth's observation device, portable plant adversity growth's observation device is equipped with the box, the inside baffle that is equipped with of box, the box is inside to be cut apart through the baffle, has between a plurality of cultivations, natural soil has been placed to the bottom between cultivations, including different types such as moisture disappearance, low temperature, high temperature, salt and alkali between cultivations, all slide between the cultivation and connect on the box, inside moisture control structure and the temperature control structure of being equipped with of box, the bottom half is equipped with the area brake wheel, and box one side is equipped with the push rod.

Furthermore, all welded connection has the guide rail to cultivate the side between, and the guide rail cross-section is the T type, it is equipped with the pull buckle to be close to the box outside to cultivate between.

Further, the water control structure is including wearing to establish the aqueduct in the box inside, the aqueduct is located to cultivate between the baffle, and the aqueduct is close to cultivate between one end and is equipped with the spray structure, keeps away from to cultivate between one end stretch out the box, but external water pump.

Furthermore, the spraying structure comprises a spraying pipe fixed on the water guide pipe through screws, and the position of the spraying pipe is higher than the height of the culture room.

Furthermore, one end of the water guide pipe, extending out of the box body, is positioned in a groove formed in the box body, so that the water guide pipe is convenient to be externally connected with a water pump, and the box body is hinged to a baffle and positioned outside the groove.

Further, the temperature control structure includes the condensation atomizer of screw fixation on the box, is located to cultivate the top, still includes the heating resistor board of screw fixation on the box, is located to cultivate the top, the equal electricity of condensation atomizer and heating resistor board is connected to the block terminal.

Further, the block terminal passes through the bolt fastening in box top, the block terminal upper end is equipped with the battery box, the block terminal side is equipped with control switch for control condensation atomizer and heating resistance board work.

The utility model discloses an advantage and positive effect do: the utility model discloses an in, at first, natural soil has been placed to inside between cultivateing, more simulation soil, improves the accuracy of the observation of experimental plant, is equipped with simultaneously between a plurality of cultivations, and different environment is created with spray tube, condensation atomizer, heating resistor board to the accessible aqueduct, corresponding to environment such as moisture disappearance, low temperature, high temperature, can add acidity or alkaline solution in natural soil and change the pH valve, make pH valve environment adversity.

Secondly, be equipped with at the bottom of the box and take the brake wheel, be equipped with the push rod on one side of the box, make things convenient for the removal of whole device in carrying, be equipped with the block terminal on the box, break away from the limitation of socket power supply always, be equipped with the baffle on the box, can connect the water pump when needing, can dismantle when not needing.

Drawings

Fig. 1 is a schematic structural diagram of a portable observation device for plant adversity growth provided by the embodiment of the present invention;

fig. 2 is a schematic view of the inside of the box body of the portable observation device for plant adversity growth provided by the embodiment of the utility model;

fig. 3 is a schematic view of the baffle opening of the portable observation device for plant adversity growth provided by the embodiment of the present invention;

FIG. 4 is a schematic view of the internal structure of the cultivation room of the portable observation device for plant growth in adverse environment provided by the embodiment of the present invention;

in the figure: 1. a box body; 2. a partition plate; 3. a culture room; 4. natural soil; 5. a brake wheel is arranged; 6. a push rod; 7. a guide rail; 8. pulling the button; 9. a water conduit; 10. a nozzle; 11. a baffle plate; 12. a condensation sprayer; 13. heating the resistance plate; 14. a distribution box; 15. a battery case; 16. and controlling the switch.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

The structure of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1-4, a portable plant adversity growth's observation device, includes box 1, box 1 is inside to be equipped with baffle 2, and box 1 is inside to be cut apart through baffle 2, has 3 between a plurality of cultivations, and natural soil 4 is placed to 3 bottoms between cultivations, and 3 all slide through T type spout and connect on box 1 between cultivations, and box 1 is inside to be equipped with moisture control structure and temperature control structure, and box 1 bottom screw fixation connecting band brake wheel 5, box 1 one side welded connection push rod 6.

The side surfaces of the cultivation room are all welded with guide rails 7, the sections of the guide rails 7 are T-shaped, and the cultivation room 3 is close to the outer side of the box body and is welded with pull buckles 8. Aqueduct 9 wears to establish inside box 1 among the moisture control structure, and aqueduct 9 is located and cultivates 3 between the baffle, and aqueduct 9 is close to 3 one ends between cultivateing, including the spray tube 10 of screw fixation on aqueduct 9, keeps away from 3 one end between cultivateing and stretches out box 1, but external water pump. The nozzle 10 is positioned above the height of the culture compartment 3. The water guide pipe 9 extends out of one end of the box body 1 and is positioned in a groove formed in the box body 1, so that the water guide pipe is convenient for being externally connected with a water pump, and the box body 1 is hinged to a baffle 11 and is positioned outside the groove. The temperature control structure comprises a condensation sprayer 12 fixed on the box body 1 through screws and positioned at the top of the cultivation room 3, and further comprises a heating resistance plate 13 fixed on the box body through screws and positioned at the top of the cultivation room 3, wherein the condensation sprayer 12 and the heating resistance plate 13 are electrically connected to a distribution box 14. The distribution box 14 is fixed on the top of the box body 1 through bolts, the upper end of the distribution box 14 is provided with a storage battery box 15, and a control switch 16 is fixedly mounted on a screw on the side surface of the distribution box 14 and used for controlling the operation of the condensation sprayer 12 and the heating resistance plate 13.

The utility model discloses a theory of operation is: when the device is used, firstly, a storage battery is installed in a storage battery box 15, a control switch 16 is controlled to open a condensation sprayer 12 and a heating resistance plate 13 to create an environment with low temperature and high temperature, meanwhile, a culture room 3 is stretched out of a box body 1 from the interior of the box body 1, natural soil 4 is added into the culture room 3, plants are transplanted while the natural soil 4 is added, the culture room 3 is slid into the box body 1 after the transplantation is completed, meanwhile, a water guide pipe 9 is connected into a water pump, a spray pipe 10 is opened to irrigate the interior of the culture room 3 with water, one spray pipe 10 is closed during the irrigation, the environment is marked as a water loss environment, the rest culture rooms 3 are marked according to the environment difference, when the sunlight irradiation is insufficient, a push rod 6 can be pushed to the whole device to move, and after the plants are cultured for a period of time, the plant growth conditions.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all the modifications and equivalents of the technical spirit of the present invention to any simple modifications of the above embodiments are within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides an observation device of portable plant adversity growth, a serial communication port, observation device of portable plant adversity growth is equipped with the box, the inside baffle that is equipped with of box, the box is inside to be cut apart through the baffle, has between a plurality of cultivations, box one side is transparent material, natural soil has been placed to the bottom between cultivations, including different types such as moisture disappearance, low temperature, high temperature, salt and alkali between cultivateing, all slide between cultivateing and connect on the box, inside moisture control structure and the temperature control structure of being equipped with of box, the bottom half is equipped with and takes the brake wheel, and box one side is equipped with the push rod.

2. The portable observation device for plant growth under stress as claimed in claim 1, wherein the side surfaces of the cultivation room are welded with guide rails, the cross section of the guide rails is T-shaped, and the cultivation room is provided with a pull buckle near the outer side of the box body.

3. The portable plant stress growth observation device of claim 1, wherein the moisture control structure comprises a water conduit penetrating the inside of the box body, the water conduit is positioned between the partition plates and the cultivation room, a spraying structure is arranged at one end of the water conduit close to the cultivation room, and one end of the water conduit far away from the cultivation room extends out of the box body and can be externally connected with a water pump.

4. The portable plant stress growth observation device of claim 3, wherein the spraying structure comprises a spray pipe screwed on the water guide pipe, and the spray pipe is positioned higher than the height of the cultivation room.

5. The portable plant stress growth observation device of claim 3, wherein one end of the water conduit extending out of the box body is positioned inside a groove formed in the box body so as to be externally connected with a water pump, and the box body is hinged to the baffle plate and positioned outside the groove.

6. The portable plant stress growth observation device of claim 1, wherein the temperature control structure comprises a condensing sprayer screwed to the box body and located at the top of the cultivation room, and a heating resistor plate screwed to the box body and located at the top of the cultivation room, wherein the condensing sprayer and the heating resistor plate are electrically connected to the distribution box.

7. The portable plant stress growth observation device of claim 6, wherein the distribution box is fixed on the top of the box body through bolts, the upper end of the distribution box is provided with a storage battery box, and the side surface of the distribution box is provided with a control switch for controlling the operation of the condensation sprayer and the heating resistance plate.

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