KR101727231B1 - Automatically controlled growing conditions and plant nutrient solution supply plant cultivating device - Google Patents

Abstract

The present invention relates to a cultivating environment and an automatic control type plant grower for nutrient supply.
To this end, the present invention provides a plant grower (100) for automatically controlling growth conditions of a plant, the plant grower comprising: a case (101) constituting the body of a plant grower; A plant growing section 110 in which the nutrient solution receiving section 111 and the light emitting section 112 are formed in at least one layer in the case 101; And a nourishing fluid automatic regulating supply unit 120 or a nourishing fluid regulating supply unit 120a that can automatically adjust the concentration of the nutrient solution according to the electric conductivity (EC) and pH (pH) inputted by the user.
The present invention configured as described above automatically controls the growth conditions (e.g., light, temperature, humidity, etc.) of a plant and automatically adjusts the concentration of the nutrient solution according to the electric conductivity (EC) and pH This greatly improves the quality and reliability of the product, so that it meets the diverse needs (needs of users) of the user, and it is able to provide a good image.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plant cultivating apparatus,

More particularly, the present invention relates to a plant regenerator for automatically controlling the growth conditions (e.g., light, temperature, humidity, carbon dioxide (CO2), nutrient solution, etc.) of a plant, It can automatically adjust the concentration of the nutrient solution according to the inputted electric conductivity (EC) and acidity (pH). By this, it is possible to improve the quality and reliability of the product by providing the optimum environment for growing the plant, To meet various needs (needs).

As is well known, nutrient solution cultivation is a scientific farming technique that cultivates various crops by supplying a nutrient solution containing all nutrients necessary for plant growth. It is used for cultivating plants without regard to soil, This is distinguished by medium depending on the medium, such as solid medium cultivation, dipping culture, spray cultivation, and thin-film hydroponics. The above-mentioned nutrient solution cultivation can prevent the pests and diseases of various crops, and can be said to be an advanced farming method in which pollution free plants can be produced by an organic pesticide-free cultivation.

In particular, the automatic nutrient supply control device automatically adjusts the electrical conductivity (hereinafter referred to as EC) and acidity (hereinafter referred to as pH) required in cultivated crops according to the programmed data according to various cultivated crops, An alarm device is provided to notify the user of abnormality with respect to the pressure of the flow path tube in the process of supplying the fluid. However, when an abnormality occurs in various pumps, solenoid valves, etc. of the operation part for mixing- There is an inconvenience that the operator must check the abnormality of the apparatus through the periodic inspection of the malfunctioning part of the nutrient solution supplying apparatus and if the trouble occurs in the nutrient solution supplying apparatus Manually, and manually adjusting the amount of nutrients required in cultivated crops, It is inconvenient to have to be supplied.

In addition, since the operator can not appropriately supply the nutrient solution required for the cultivated crop in accordance with the environment and the climatic condition due to a trouble occurring when the operator fails to periodically check the failure of the automatic nutrient supply device, It is difficult to maintain and repair the automatic nutrient solution supply device.

In addition, another conventional nutrient solution feeding device has a slow mixing speed due to the limit of the mixing capacity when mixing water and a material solution using a mixer, and it is difficult to uniformly mix the liquid because there is a limit to formation of turbulence for mixing the liquid. Thus, when the nutrient solution is not uniformly mixed and supplied to the area, there is a problem that the development of the plant is lowered and the production phase is deteriorated.

In order to provide a nutrient solution uniformly mixed to be cultivated, the volume of the mixer is increased. However, the mixer and its peripheral structure are complicated and bulky. Moreover, due to the complexity of such peripheral configuration, it has been difficult to maintain and repair the automatic nappeid supply device.

In order to solve the above-mentioned problems, the following prior art documents have been registered in the related art, but the above-mentioned problems are still not solved.

Korean Patent Registration No. 0298214 (May 05, 2001) was registered. Korean Patent Registration No. 1407857 (Apr. 2014, 06) was registered. Korean Patent Registration No. 1090279 (November 30, 2011) has been registered. Korean Registered Patent No. 1416743 (Apr. 2014, 02) was registered.

DISCLOSURE OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art and to provide an optimal condition for plants to grow. The plant grower is equipped with a casing (insulation, non-heating), a plant growing section, A second aspect of the present invention provides a method for controlling a growth condition of a plant such as light, temperature, humidity, nutrient solution, ventilation, etc. And the third purpose is to automatically adjust the concentration of the nutrient solution according to the electrical conductivity (EC) and pH (pH) inputted by the user, and the fourth purpose is to control the concentration of the nutrient solution so as to be uniformly mixed And the fifth object is to allow the user to selectively use the plant grower in a metering pump system or a venturi system Will a rock, a sixth objective is to provide the growing conditions and nutrient solution supplied automatically controlled plants jaebaegi because significantly improve the quality and reliability of products to meet a variety of needs (needs) of the consumer user to instill a good image due.

In order to achieve the above object, the present invention provides a plant grower for automatically controlling growth conditions of a plant, the plant grower comprising: a case constituting a body of a plant grower; A plant growing section in which the nutrient solution receiving section and the light emitting section are formed of at least one layer; And a nourishment automatic regulating supply unit or a nutrient automatic regulating supply unit which can automatically adjust the concentration of the nutrient solution according to the electric conductivity (EC) and pH (pH) input by the user. Provide a cultivator.

As described in detail above, the present invention provides a plant grower with a case, a plant growing section, an automatic nutrient solution regulating and supplying section, a nutrient solution tank, and a display section.

The present invention based on the technical structure described above is capable of automatically controlling growth conditions (e.g., light, temperature, humidity, etc.) of a plant.

In addition, the present invention allows the concentration of the nutrient solution to be automatically adjusted according to the electric conductivity (EC) and pH (pH) inputted by the user.

Further, the present invention allows the nutrient solution to be uniformly mixed, thereby improving the production of the plant.

In addition, the present invention allows a user to selectively use a plant grower in a metering pump system or a venturi system.

In addition, according to the present invention, Co2 is required to grow plants through a filter-integrated type heat exchanger capable of periodically supplying new outboard units, and it is possible to supply Co2 in the indoor space as a cultivation case and to supply oxygen will be.

The present invention greatly improves the quality and reliability of a product due to the above-mentioned effects, and thus is a very useful invention that can provide a good image by satisfying various needs of consumers who are users.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a view showing the cultivation environment applied to the present invention,
Dimensional figure of.
FIG. 2 is a view showing the cultivation environment applied to the present invention,
Fig.
Fig. 3 is a view showing a cultivation environment applied to the present invention,
Fig.
Fig. 4 is a view showing the cultivation environment applied to the present invention,
Fig.
Fig. 5 is a graph showing the relationship between the cultivation environment applied to the present invention and the nutrient solution feeding type automatic plant-
And Fig.

The cultivation environment and the nutrient solution automatic regulating plant cultivator applied to the present invention are constructed as shown in FIGS. 1 to 6.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the present invention includes a plant grower (100) for automatically controlling the growth conditions of a plant. Hereinafter, the plant grower will be described in more detail.

That is, as shown in FIGS. 1, 2 and 3, the plant grower 100 includes a case 101 constituting a body of a plant grower.

The case 101 according to the present invention is provided with a plant growing section 110 in which the nutrient solution receiving section 111 and the light emitting section 112 are formed of at least one layer.

The case 101 of the present invention is provided with a cooling fan 113 that supplies air to the plant growing unit 110 to adjust the temperature inside the case 101.

At this time, the present invention is provided on the upper part of the case 101, and when the new outboard fan is supplied, the deviation between the temperature to be introduced and the temperature to be discharged is reduced to reduce the stress of the plant, Co2 is required. The total heat exchanger (160) is provided to supply Co2 in the indoor space to the cultivation case, supply the oxygen to the indoor space of the plant, and provide clean air to the plant through the filter.

Particularly, the present invention includes a nutrient solution automatic regulating supply unit 120 or a nutrient solution regulating supply unit 120a that can automatically adjust the concentration of nutrient solution according to electric conductivity (EC) and pH (pH) inputted by a user.

At this time, the more specific technical configuration of the nutrient solution automatic regulating supply unit 120 or the nutrient solution automatic regulating supply unit 120a is as follows.

The nutrient solution automatic regulating and supplying unit 120 is configured as shown in FIG. 4 in a technical configuration comprising a metering pump system.

That is, the nutrient solution in the nutrient solution tank 140 is supplied to the pipe 123 by driving the drive pump 145, and the EC sensor 125 installed inside the pipe connected to the drive pump is provided, A Co2 tank 151 is provided.

In addition, the present invention is provided with a filter 126b connected to the piping so that the PH sensor 126a is always kept immersed in water.

The first, second, third, and fourth nutrient bottles 122a, 122b (122b, 122b, 122c, 122d, 122d, 122d, and 122d) 122c and 122d.

In addition, the present invention is provided with a solenoid valve 131, 132, and manual valves 133, 134, 135 and a pressure valve 136 connected to the piping and supplying and blocking the nutrient solution.

In addition, the present invention includes a controller 121 for controlling the nutrient solution automatic regulating and supplying unit 120.

Also, the nutrient solution automatic adjusting and supplying unit 120a applied to the present invention is configured as shown in FIG. 5 in a technical configuration of a venturi system.

That is, the nutrient solution in the nutrient solution tank 140 is supplied to the pipe 123 by driving the drive pump 145, and an EC sensor 125 installed inside the pipe connected to the drive pump is provided.

In addition, the present invention is provided with a filter 126b connected to the piping so that the PH sensor 126a is always kept immersed in water.

The present invention is characterized in that the venturi pipe (127), which is a narrow passage formed in order to reduce the pressure in the vicinity of the tip of the pipe, and the solenoid valve (128) and the flow meter (129) respectively connected to the respective venturi pipes, Second, third, and fourth liquid absorbers 122a, 122b, 122c, and 122d that can automatically adjust the concentration of the liquid.

In addition, the present invention is provided with a solenoid valve 131 (132) and a manual valve 133 (134) 135 which are connected to the pipe and supply and shut off the nutrient solution.

In addition, the present invention includes a controller 121 for controlling the nutrient solution automatic regulating and supplying unit 120a.

When the main screen is displayed on the case 101 by the operation of the nutrient solution automatic regulating supply unit 120 or the nutrient solution automatic regulating and supplying unit 120a, the operator can set the lighting setting, the nutrient solution setting, the nutrient solution manual setting, A touch display unit 50 for operating a stirring setting, a temperature setting, a current temperature, a bed temperature, an external air filter, an overall heat exchange, a bed humidity, Co2, and the like.

A nutrient solution is added to the first and second nutrient bottles 122a and 122b applied to the present invention and an acid is supplied to the third nutrient bottle 122c and an acid is added to the fourth nutrient solution bottle 122d. (alkali).

In addition, the nutrient solution tank 140 applied to the present invention includes a constant water level sensor 141, a water level sensor 142, a temperature sensor 143, a bubble generator 144, an ultraviolet sterilizer 163, a filter screen 162, An electrolyzer 161 is provided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

The effect of the cultivation environment of the present invention and the nutrient solution automatic regulating plant grower constructed as described above will be described below.

First, the present invention provides a method of automatically controlling the growth conditions (e.g., light, temperature, humidity, etc.) of a plant and automatically adjusting the concentration of the nutrient solution according to the electric conductivity (EC) It is.

To this end, the cultivation environment and the nutrient solution automatic regulating type plant grower applied to the present invention are divided into a technical structure consisting of a metering pump system and a technical structure consisting of a venturi system, and will be described in more detail as follows.

(Embodiment 1)

The first embodiment of the present invention is a method of automatically controlling the growth conditions (e.g., light, temperature, humidity, etc.) of a plant through a nutrient solution automatic regulating and supplying unit 120, Respectively.

That is, when the concentration of the nutrient solution is automatically adjusted according to the electric conductivity (EC) and pH (pH) inputted by the user, the flow rate of the nutrient solution automatic regulating and supplying unit 120 is changed The user first operates the touch display unit 150 to control the controller unit 121. When the drive pump 145 is driven to perform the primary nutrient solution agitation by the signal from the controller unit 121, the nutrient solution in the nutrient solution tank 140 flows from the pipe 123 to the EC sensor 125 to the PH sensor 126a The filter 126b, the manual valve 133, the solenoid valve 131, the metering pump 124, the first, second, third and fourth liquid bottles 122a, 122b, 122c and 122d, The manual valve 134 and the controller 121 constitute the user input value comparison, the manual valve 133 and the solenoid valve 132 and the nutrient solution tank 140, And then flows into the plant growing unit 110 through the manual valve 133 and the solenoid valve 132.

The EC sensor 125 according to the present invention measures the electrical conductivity in real time, and the pH sensor 126a measures the pH of the nutrient solution in real time.

A nutrient solution is provided in the first and second nutrient bottles 122a and 122b applied to the present invention and an acid is supplied to the third nutrient bottle 122c and a fourth nutrient solution is supplied to the fourth nutrient bottle 122d. And each of the metering pumps 124 is driven by the measured data to automatically adjust the concentration of the nutrient solution in real time according to the electric conductivity (EC) and the pH (pH).

If the nutrient solution automatic regulating and supplying unit 120 does not automatically adjust the concentration of the nutrient solution according to the electric conductivity (EC) and the pH (pH), the operation is repeatedly performed and then the electric conductivity (EC) and the pH Accordingly, when the concentration of the nutrient solution is automatically adjusted, the nutrient solution is supplied to the plant growing unit 110 thereafter.

The manual valve 135 installed in the piping serves to prevent the nutrient solution from being supplied to the nutrient solution receiving chamber 111 over a predetermined amount.

On the other hand, the upper and lower water level sensors 141 and 142 provided in the nutrient solution tank 140 of the present invention sense the level of the nutrient solution and the temperature sensor 143 senses the temperature of the nutrient solution, 150, and the operation of the driving pump 145 is turned on / off so as to prevent the driving pump 145 from operating in a state where there is no nutrient solution.

Further, each of the manual valves 134, 133, and 135 is provided so that the user can turn on / off the nutrient solution is exhausted or the driving pump is continuously operated.

(Second Embodiment)

The second embodiment of the present invention is a method of automatically controlling the growth conditions (e.g., light, temperature, humidity, etc.) of a plant through a nutrient solution automatic feeding and supplying unit 120a in a venturi system and then feeding the nutrient solution to the plant growing unit 110 Respectively.

That is, when the concentration of the nutrient solution is automatically adjusted according to the electric conductivity (EC) and the pH (pH) input by the user, the flow rate of the nutrient solution automatic regulating and supplying unit 120a is determined by the following procedure The user first operates the touch display unit 150 to control the controller unit 121. When the drive pump 145 is driven by the signal from the controller unit 121, the nutrient solution in the nutrient solution tank 140 is filtered through the pipe 123, the EC sensor 125, the filter 126b provided with the PH sensor 126a, The manual valve 133 → the solenoid valve 131 → the venturi pipe 127 → the solenoid valve 128 → the flow meter 129 → the first, second, third and fourth fluid bottles 122a, 122b and 122c ) 122d through the manual valve 134 and the filter 126b and the manual valve 133 and the solenoid valve 132 to the plant growing unit 110. [

Particularly, the solenoid valve 128 and the flow meter 129 applied to the venturi system sense the amount of the nutrient solution and then adjust the supply of the nutrient solution, thereby displaying the on / off state of the touch display unit 150. The venturi tube 127 applied to the venturi system is a narrow passage provided to drop the pressure in the vicinity of the tip of the nutrient solution nozzle. When air flows through the venturi pipe 127, the nutrient solution is sucked and ejected because the pressure is strong due to Bernoulli's theorem . The contents of the first, second, third, and fourth liquid absorbers 122a, 122b, 122c, and 122d may be changed in accordance with electrical conductivity (EC) and pH (pH) So that the amount of the nutrient solution to be ejected can be corrected in real time.

The operation and effect of the other technical configurations are the same as those of the above-mentioned nutrient solution regulating and supplying unit 120, and therefore detailed description thereof will be omitted.

The technical idea of the cultivation environment and the nutrient solution automatic control type plant grower according to the present invention is that the same result can be repeatedly practiced. In particular, by carrying out the present invention as described above, it is possible to contribute to industrial development by promoting technological development, .

Description of the Related Art
100: Plant Grower
101: Case
110: Plant Growth Department
120, 120a: automatic nutrient supply portion
140: Nutrient solution tank
150:

Claims (7)

There is provided a plant grower (100) for automatically controlling a growth condition of a plant,
A case 101 constituting the body of the plant grower;
A plant growing section 110 in which the nutrient solution receiving section 111 and the light emitting section 112 are formed in at least one layer in the case 101;
The case 101 includes a cooling fan 113 for supplying air to the plant growing unit 110 to adjust the temperature inside the case 101;
In the case 101, when the new outboard fan is supplied, the deviation of the temperature to be introduced and the temperature to be discharged is reduced to reduce the stress of the plant and to reduce the energy loss. An overall heat exchanger (160) for supplying Co2 in the indoor space to the cultivation case, supplying oxygen from the plants to the indoor space and providing clean air to the plants through the filter;
When the main screen is displayed on the case 101 by the operation of the nutrient liquid automatic adjusting and supplying unit 120 or the nutrient liquid automatic adjusting and supplying unit 120a, the operator can set the lighting setting, the nutrient solution setting, the nutrient solution manual setting, A touch display unit 50 for operating the current temperature, bed temperature, Co2, and bed humidity; And
A constant water level sensor 141 and a water level sensor 142, a temperature sensor 143 and a bubble generator 144, a water level sensor 143, and a water level sensor 144 are provided for automatically adjusting the concentration of the nutrient solution according to the electric conductivity (EC) A nourishing liquid automatic regulating supply unit 120 or a nourishing liquid automatic regulating supply unit 120a provided with a nourishing liquid tank 140 including an ultraviolet sterilizer 163, a filter screening network 162 and an electrolyzer 161 Cultivation environment and nutrient supply automatic control type plant grower.
delete The method according to claim 1,
The nutri- < RTI ID = 0.0 > automatic regulator < / RTI &
An EC sensor 125 which supplies nutrient solution in the nutrient solution tank 140 to the pipe by driving the drive pump 145 and is installed inside the pipe connected to the drive pump;
A filter 126b connected to the piping so that the PH sensor 126a is always immersed in water;
Second, third, and fourth liquid bottles 122a, 122b, 122c, and 122d that are connected to the piping and are capable of automatically adjusting the concentration of the nutrient solution by driving each of the metering pumps 124, ;
A solenoid valve 131 (132) and a manual valve 133 (134) 135 which are connected to the piping and supply and shut off the nutrient solution; And
And a controller (121) for controlling the nutrient solution automatic regulating and supplying unit (120).
The method according to claim 1,
The nutri- < RTI ID = 0.0 > automatic regulator < / RTI &
An EC sensor 125 which supplies nutrient solution in the nutrient solution tank 140 to the pipe by driving the drive pump 145 and is installed inside the pipe connected to the drive pump;
A filter 126b connected to the piping so that the PH sensor 126a is always immersed in water;
The concentration of the nutrient solution is automatically controlled by the solenoid valve 128 and the flow meter 129 connected to the respective venturi pipes 127 and 127, respectively, which are narrow passages provided to drop the pressure in the vicinity of the tip of the pipe, First, second, third, and fourth liquid bottles 122a, 122b, 122c, and 122d that can be adjusted;
A solenoid valve 131 (132) and a manual valve 133 (134) 135 which are connected to the piping and supply and shut off the nutrient solution; And
And a controller (121) for controlling the nutrient solution automatic regulating and supplying unit (120a).
delete The method according to claim 3 or 4,
A nutrient solution is contained in the first and second liquid bottles 122a and 122b and an acid is contained in the third liquid absorber 122c and an alkali is contained in the fourth liquid absorber 122d And a nutrient replenishment control type plant grower.
delete

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