CN111587780A - Induction type water planting plant incubator - Google Patents

Abstract

The invention discloses an induction type hydroponic plant incubator which comprises a box body with an open upper end, wherein the box body is symmetrically provided with a plurality of mounting grooves for communicating the interior of the box body with the outside, the box body is symmetrically provided with a plurality of liquid storage tanks matched with the mounting grooves, each mounting groove is internally provided with a turntable in a sealing and rotating manner, the turntable is uniformly provided with a plurality of placing grooves along the radial direction, each placing groove is internally connected with a piston plate through thermal deformation metal, each piston plate is in sealing and sliding connection with the corresponding placing groove, each piston plate divides the corresponding placing groove into two sealing spaces, and the space where the thermal deformation metal is located is a driving area. The invention can automatically replenish water for the hydroponic plants in the box body when the external temperature is overhigh, and can squeeze external air into the box body, thereby not only supplying nutrients for the hydroponic plants, but also disturbing culture solution in the box body and avoiding the sedimentation and layering of the culture solution.

Description

Induction type water planting plant incubator

Technical Field

The invention relates to the technical field of plant cultivation, in particular to an induction type hydroponic plant incubator.

Background

More and more people like to cultivate some flowers and plants trees in family balcony or parlor, and all adopt alone cultivated in a pot to some plants such as flowers that have ornamental value, be convenient for vwatch, nevertheless because soil cultivation needs often to be changed soil in order to guarantee the soil property, consequently, more and more people select the cultivation of water planting mode, and it has cleanly easily to clean, easily adds the nutrient solution and is liked by masses.

The aquatic plants need to be discontinuously watered with a large amount of water in the vigorous growth period or in the environment with higher air temperature to maintain the growth environment of the aquatic plants, but the root system is difficult to breathe due to excessive water, even the roots are rotten, the watering amount is too little to meet the growth water amount of the aquatic plants, the watering amount of a user is not controlled well, time and labor are wasted, and the potted plant maintenance experience is reduced.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an induction type hydroponic plant incubator.

In order to achieve the purpose, the invention adopts the following technical scheme:

an induction type hydroponic plant incubator comprises a box body with an open upper end, wherein the box body is symmetrically provided with a plurality of mounting grooves for communicating the interior of the box body with the outside, the box body is symmetrically provided with a plurality of liquid storage tanks matched with the mounting grooves, and a turntable is hermetically and rotatably mounted in each mounting groove;

the improved structure of the circulating tank is characterized in that a plurality of placing grooves are uniformly formed in the rotating disc along the radial direction, each placing groove is internally and fixedly provided with a piston plate through thermal deformation metal, each piston plate is in sealing sliding connection with the corresponding placing groove, each piston plate divides the corresponding placing groove into two sealing spaces, the space where the thermal deformation metal is located is a driving area, each driving area and the side wall of the rotating disc are uniformly communicated with one-way liquid discharge pipes and one-way liquid inlet pipes, through holes matched with the one-way liquid inlet pipes are communicated between the liquid storage grooves and the corresponding mounting grooves, the middle of the rotating disc is coaxially provided with circulating grooves, each placing groove and each circulating groove are communicated with one another and provided with communicating pipes, and the box is respectively provided with one-way air inlet pipes communicated with the outside and one-way exhaust pipes communicated with the inside of the circulating grooves.

Preferably, the turntable is made of a heat-conducting rubber material.

Preferably, the connection part of each thermal deformation metal and the groove wall of the placing groove is positioned on one side of the placing groove close to the side wall of the rotating disc.

The invention has the beneficial effects that:

1. through setting up thermal deformation metal, can change the position of the piston board that links to each other with it when ambient temperature is too high to drive the carousel and rotate, and then shift the culture solution in the reservoir to the box and carry out the moisturizing to the water planting plant, and need not the artifical input that need not the external energy.

2. Through setting up one-way blast pipe and one-way intake pipe, when the carousel rotated, can also carry external gas to the box in to both can supply with nourishment for the water planting plant in the box, can disturb the culture solution in the box again, avoid its deposit layering.

3. Through setting up the nature that changes the thermal deformation metal in the carousel of right side to can be when ambient temperature is too high, this device can be automatic add into the case with the culture solution of the standard concentration in the reservoir in, the culture solution discharge of low concentration is collected in the box simultaneously, and then keeps the growth of the suitable culture solution of concentration of culture solution in the box, and need not the manual work, degree of automation is high, excellent in use effect.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment 1 of an induction hydroponic plant incubator according to the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a view taken at B in FIG. 1;

FIG. 4 is a schematic structural diagram of an induction hydroponic plant incubator of embodiment 2 of the present invention;

fig. 5 is an enlarged view at C in fig. 4.

In the figure: the device comprises a box body 1, a mounting groove 2, a rotary table 3, a placing groove 4, a thermal deformation metal 5, a piston plate 6, a one-way liquid discharge pipe 7, a one-way liquid inlet pipe 8, a flow groove 9, a communicating pipe 10, a liquid storage tank 11, a through hole 12, a one-way air inlet pipe 13 and a one-way exhaust pipe 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-3, an induction type hydroponic plant incubator comprises a box body 1 with an open upper end, and is characterized in that the box body 1 is symmetrically provided with a plurality of mounting grooves 2 for communicating the interior of the box body 1 with the outside, the box body 1 is symmetrically provided with a plurality of liquid storage tanks 11 matched with the mounting grooves 2, each liquid storage tank 11 is filled with culture solution, each mounting groove 2 is internally provided with a rotary table 3 in a sealing and rotating manner, and the rotary tables 3 are made of heat-conducting rubber materials, so that the outside heat can be more rapidly conducted to the number of thermally-deformable parts 5;

four placing grooves 4 are uniformly arranged on the turntable 3 along the radial direction, a piston plate 6 is connected in each placing groove 4 through a thermal deformation metal 5, the connection part of each thermal deformation metal 5 and the groove wall of each placing groove 4 is positioned at one side of each placing groove 4 close to the side wall of the turntable 3, two ends of each thermal deformation metal 5 are respectively fixedly connected with the piston plate 6 and the placing groove 4, each piston plate 6 is in sealing sliding connection with the corresponding placing groove 4, each piston plate 6 divides the corresponding placing groove 4 into two sealing spaces, the space where the thermal deformation metal 5 is positioned is a driving area, a one-way liquid discharge pipe 7 and a one-way liquid inlet pipe 8 are respectively communicated between each driving area and the side wall of the turntable 3, the one-way liquid discharge pipe 7 only allows gas or liquid in the placing groove 4 to be discharged to the outside through the one-way liquid discharge pipe 7, the one-way liquid inlet pipe 8 only allows external gas or liquid to enter the placing groove 4 through the one-way liquid, the liquid storage tank 11 and the corresponding mounting groove 2 are communicated with each other and provided with a through hole 12 matched with the one-way liquid inlet pipe 8, the middle part of the rotary table 3 is coaxially provided with a circulation groove 9, a communicating pipe 10 is communicated between each placing groove 4 and the circulation groove 9, the box body 1 is respectively provided with a one-way air inlet pipe 13 for communicating the circulation groove 9 with the outside and a one-way exhaust pipe 14 for communicating the circulation groove 9 with the inside of the box body 1, the one-way exhaust pipe 14 and the inside of the box body 1 are communicated and positioned at the lower side of the inner wall of the box body 1, the one-way air inlet pipe 13 only allows the outside gas to enter the circulation groove 9 through the one-way air inlet pipe 13, and the one.

The invention can be illustrated by the following operating modes: as shown in the initial state in figures 1 and 3, when the external temperature is too high, the thermal deformation metal 5 positioned outside the box body 1 firstly heats up, deforms and stretches and pushes the corresponding piston plate 6 to move towards the direction close to the circulation groove 9, so that negative pressure is formed in the driving area, meanwhile, according to the lever principle, the rotating disc 3 rotates anticlockwise under the action of the gravity of the corresponding piston plate 6, the placing groove 4 on the right side moves to the upper side, the one-way liquid inlet pipe 8 communicated with the upper side is opposite to the through hole 12, so that the culture liquid in the liquid storage tank 11 enters the driving area through the through hole 12, the thermal deformation metal 5 in the driving area is rapidly cooled, contracted and reset under the immersion of the culture liquid, the culture liquid in the driving area is extruded to be discharged into the box body 1 through the one-way liquid outlet pipe 7 to replenish water for the plants in the box body 1, and the circulation is realized, so that the culture liquid can be timely added into the box body 1, and the manual work is not needed, and the input of external energy sources is not needed.

It is worth noting that when the thermal deformation metal 5 on the right side extends and pushes the corresponding piston plate 6 to move towards the direction of the circulation groove 9, the gas in the right side placing groove 4 sequentially passes through the communicating pipe 10, the circulation groove 9 and the one-way exhaust pipe 14 to enter the culture solution in the box body 1, so that oxygen and carbon dioxide can be conveyed to the culture solution in the box body 1, meanwhile, the culture solution in the box body 1 can be disturbed, precipitation and delamination are avoided, when the thermal deformation metal 5 on the right side moves to the upper part to restore and drive the corresponding piston plate 6 to reset, the external gas sequentially passes through the one-way air inlet pipe 13, and the circulation groove 9 and the communicating pipe 10 are supplemented.

Example 2

Its thank exise speed also can accelerate when the higher time of temperature is cultivateed to water planting plant, consequently the nutrient substance concentration in its culture solution can descend fast, if can not in time add the growth that the influence water planting plant that the nutrient solution can be very big, but ambient temperature's change is various, thereby cultivates the person and sometimes can not in time add the culture solution and can influence water planting plant's growth, and if adopt to add a large amount of nutrient substance in advance very easily again because the too high and root system of burning water planting plant of nutrient substance concentration in the culture solution.

Referring to fig. 4 to 5, the present embodiment is different from embodiment 1 in that: in fig. 1, the thermal deformation metal 5 in the left turntable 3 is named as thermal deformation metal 5a, the thermal deformation metal 5a is stretched and extended when the temperature is higher than the metamorphosis temperature, the thermal deformation metal 5b in the right turntable 3 is named as thermal deformation metal 5b, the thermal deformation metal 5b is contracted and coiled when the temperature is higher than the metamorphosis temperature, the thermal deformation metal is stretched and extended when the temperature is lower than the metamorphosis temperature, a liquid storage tank 11 and a through hole 12 are not arranged above the right turntable 3, when the external temperature is overhigh, the thermal deformation metal 5a performs the process shown in the embodiment 1 to transfer the culture solution in the left liquid storage tank 11 into the box 1, the thermal deformation metal 5b positioned outside the box performs thermal contraction and extrusion on the corresponding driving area, the gas in the corresponding driving area is extruded out, the right turntable 3 rotates counterclockwise according to the lever principle, and the process is repeated, the thermal deformation metal 5b that is located the box 1 outside and the thermal deformation metal 5b position interconversion that is located the box 1 inboard, then the culture solution in the box 1 passes through-hole 12 and gets into and corresponds the drive area, the culture solution that the tensile extension of rapid cooling stretches the suction box 1 inside under the submergence of culture solution of the thermal deformation metal 5b that corresponds in the drive area gets into and corresponds in the drive area, then can last under 5a and 5 b's effect with the standard concentration culture solution transfer to the box 1 in the reservoir 11 and transfer to the box 1 outside with the lower culture solution of box 1 internal concentration, guarantee the concentration of the inside culture solution of box 1, can set up collection fill in box 1 right side outer wall department simultaneously and be used for collecting the culture solution of following discharge in the box 1 with recycle, improve the utilization efficiency of culture solution.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (3)

1. An induction type hydroponic plant incubator comprises a box body (1) with an open upper end, and is characterized in that the box body (1) is symmetrically provided with a plurality of mounting grooves (2) for communicating the interior of the box body (1) with the outside, the box body (1) is symmetrically provided with a plurality of liquid storage tanks (11) matched with the mounting grooves (2), and a turntable (3) is hermetically and rotatably mounted in each mounting groove (2);

the rotary table (3) is uniformly provided with a plurality of placing grooves (4) along the radial direction, each placing groove (4) is internally connected with a piston plate (6) through a thermal deformation metal (5), each piston plate (6) is in sealing sliding connection with the corresponding placing groove (4), each piston plate (6) divides the corresponding placing groove (4) into two sealing spaces, the space where the thermal deformation metal (5) is located is a driving area, a one-way liquid discharge pipe (7) and a one-way liquid inlet pipe (8) are respectively communicated between each driving area and the side wall of the rotary table (3), a through hole (12) matched with the one-way liquid inlet pipe (8) is communicated between the liquid storage tank (11) and the corresponding mounting groove (2), the middle part of the rotary table (3) is coaxially provided with a circulation groove (9), and a communication pipe (10) is communicated between each placing groove (4) and the circulation groove (9), the box body (1) is respectively provided with a one-way air inlet pipe (13) for communicating the circulation groove (9) with the outside and a one-way exhaust pipe (14) for communicating the circulation groove (9) with the inside of the box body (1).

2. An induction hydroponic plant incubator as claimed in claim 1, wherein the turntable (3) is made of a heat-conducting rubber material.

3. An induction hydroponic plant incubator as claimed in claim 1, wherein the junction of each of said heat-deformable metals (5) with the wall of the standing tank (4) is located on the side of the standing tank (4) close to the side wall of the rotating disc (3).

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