KR102121023B1 - Cultivation system using plant cultivation container - Google Patents

Abstract

The present invention relates to a cultivation system using a plant cultivation container. The present invention is to promote the growth of a crop and achieve fruit quality improvement by controlling the internal temperature of a container main body to a temperature suitable for the crop by supplying hot or cold water through a circulation pipe. The plant cultivation container of the present invention includes: a container main body (110) having an open upper end, accommodating a plant to be cultivated therein, and having an upper-end width exceeding the lower-end width of the container main body (110); a stem support (120) extending and inclined downward at the upper ends of both sides of the container main body (110); a drain pipe (130) formed so as to be open in a length direction in the lower end central portion of the container main body (110) and allowing moisture to be discharged after supply into the container main body (110); and a circulation pipe (140) provided on both sides of the lower end of the container main body (110) and internally supplied with cooling or heating water.

Description

Cultivation system using plant cultivation container}

The present invention relates to a cultivation system using a plant cultivation container, and more particularly, to a cultivation system using a plant cultivation container capable of realizing an environment suitable for strawberries grown in a greenhouse or a greenhouse.

In general, since the strawberries were grown in the open field, weeds growing together with the seedlings had to be removed individually, and there was a problem in that a lot of time and manpower were consumed for raising seedlings because of difficult application of fertilizer and water management.

Therefore, a technique for growing strawberries in a cultivation container is used, and the conventional plant cultivation container is made of a long rectangle with an open top.

In the conventional cultivation container, when the strawberry grows and the fruit is opened, the stem is bent due to the weight of the strawberry fruit.

The curved stems were broken across the both sides of the wall, or excessively bent, so that the nutrients could not be supplied smoothly, so that the strawberries could not develop properly.

As a prior art for plant cultivation containers, Korean Registered Utility Model 20-0234604 is disclosed.

The prior art is extremely easy to separate the seedlings from the seedling pot, and at the same time, the roots of the seedlings grow along the rooting groove formed on the outer periphery of the seedling casing so that the rooting of the roots can be achieved more quickly after planting the seedlings. It was about a pot for strawberry seedlings to increase the yield.

However, the prior art is a technology limited to seedlings, and there was a significant difference from the technology for solving the above-mentioned problem with respect to the time when the strawberry fruit is formed, and no configuration to implement this was found.

Therefore, due to the weight of the strawberry fruit, the stem is bent or broken or excessively curved, so that the nutrients cannot be supplied smoothly, the problem that the strawberry cannot develop properly has still existed.

The present invention is to solve the above problems, by supplying hot or cold water through a circulation pipe to control the temperature inside the container body to be maintained at a temperature suitable for the crop, thereby promoting the growth of the crop and improving the quality of fruit. The purpose is to provide a cultivation system using a plant cultivation container.

In order to achieve the above object, the plant cultivation container of the present invention includes a container body 110 in which an upper end is opened to accommodate a plant to be cultivated therein, and a lower width is formed narrower than an upper width; Stem supports 120 formed to be inclined downwardly at the upper ends of both sides of the container body 110; A drain pipe 130 that is formed to open in the longitudinal direction at the lower center of the container body 110 and discharges moisture supplied to the container body 110; Including, but the lower end of the container body 110 is formed to be inclined downward in the direction of the drain pipe (130).

It is provided on both sides of the bottom of the container body 110, the circulation pipe 140 is supplied with cooling water or heating water therein; It further includes.

The container body 110 is made of a synthetic resin material, the circulation pipe 140 is made of an aluminum material having a high heat transfer rate, but when the extrusion molding of the container body 110, the circulation pipe 140 has an inner circumferential surface and an outer circumferential surface. Insert extrusion is formed so as to be covered with synthetic resin, and the outer circumferential surface of the circulation pipe 140 protrudes in an inner direction of the container body 110 and an extension 141 that is inserted and disposed on the side wall of the container body 110. A plurality of heat exchange protrusions 142 are provided.

In order to achieve the above object, the plant cultivation container of the present invention includes a container body 110 in which an upper end is opened to accommodate a plant to be cultivated therein, and a lower width is formed narrower than an upper width; Stem support 120 formed to be inclined downward at both ends of the container body 110; A drain pipe 130 which is formed to open in the longitudinal direction at the lower center of the container body 110, and discharges moisture supplied to the container body 110; A circulation pipe 140 provided at both lower ends of the container body 110 and supplied with cooling water or heating water therein; In the cultivation system using a plant cultivation container 100 comprising: a watering device 200 for supplying water to the container body 110 at regular time intervals; An air supply device 300 that supplies cold or warm air to the drain pipe 130; A temperature sensor 400 mounted inside the container body 110; a control device 600 for controlling the operation of the watering device 200 and the air supply device 300; Including, but, the control device 600 stops the air supply device 300 when the watering device 200 is operated, and after the predetermined time has elapsed after the water supply device 200 supplies moisture, the air The supply device 300 is controlled to operate.

A circulation water supply device 500 that supplies cooling water or heating water to the circulation pipe 140; Further comprising, when the temperature measured by the temperature sensor 400 exceeds a certain value, the control device 600 supplies cooling water to the circulation pipe 140 to the circulation water supply device 500, the When the temperature measured by the temperature sensor 400 is equal to or less than a certain value, it is controlled to supply heating water to the circulation pipe 140 by the circulation water supply device 500.

The cultivation system using the plant cultivation container of the present invention as described above has the following effects.

By supplying cooling water or heating water to the circulation pipe 140, the circulation water supply device 500 is provided to control the temperature inside the container body 110, so that a temperature suitable for cultivation of crops is continuously maintained. It has the effect of promoting plant growth and improving fruit quality.

By providing the stem support 120 formed in a curved shape at the top of the container body 110, the effect of minimizing that the stem of the strawberry rubs against the stem support 120 or the contact portion is damaged by a load. Have

The container body 110 is formed in a hexahedral shape in which the upper width is narrower than the lower width, and as a result, when transporting a plurality of the container bodies 110, the container body 110 can be stacked to be stacked up and down, thereby facilitating transport.

The lower end of the container body 110 is formed to be inclined downward in the direction of the drain pipe 130, whereby the water supplied to the container body 110 does not accumulate inside the container body 110 and the drain pipe 130 It has the effect of moving quickly to make drainage quick and smooth.

1 is a perspective view of a plant cultivation container 100 according to an embodiment of the present invention,
Figure 2 is a cross-sectional view of the plant cultivation container 100 according to an embodiment of the present invention,
3 is a structural diagram of a cultivation system using the plant cultivation container 100 according to an embodiment of the present invention,
4 is a structural diagram of the air supply device 300 of the cultivation system using the plant cultivation container 100 according to an embodiment of the present invention,
5 is a cross-sectional view of a plant cultivation container 100 according to another embodiment of the present invention.

1 is a perspective view of a plant cultivation container 100 according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of a plant cultivation container 100 according to an embodiment of the present invention, and FIG. 3 is a plant cultivation according to an embodiment of the present invention Structure diagram of the cultivation system using the container 100, Figure 4 is a structural diagram of the air supply device 300 of the cultivation system using the plant cultivation container 100 according to an embodiment of the present invention, Figure 5 is another embodiment of the present invention Cross-sectional view of the plant cultivation container 100 according to the embodiment.

1 and 2, the plant cultivation container 100 of the present invention is composed of a container body 110, a stem support 120, a drain pipe 130 and a circulation pipe 140.

The container body 110 is a container having a space for growing a plant therein with the upper end open, made of a synthetic resin material, and extruded into a mold.

The container body 110 is formed in a hexahedral shape in which the upper width is narrower than the lower width, and as a result, when transporting the plurality of the container bodies 110, the container body 110 can be stacked to be stacked up and down, thereby facilitating transport. .

In addition, a base 111 is formed at the bottom of the container body 110.

The pedestal 111 is disposed on both sides of the drain pipe 130, which will be described later, and is formed to protrude downward from the drain pipe 130.

The pedestal 111 is supported so that the container body 110 is in contact with the bottom surface so that the container body 110 is erected at a predetermined distance from the bottom surface.

The stem support 120 is formed to extend downwardly inclined from the top of both sides of the container body 110 toward the outside, and the upper edge is gently rounded in a curved shape.

The stem support 120 supports the stem of a plant grown in the container body 110.

Specifically, the crops cultivated in the container body 110 are mainly strawberries, and the strawberries are drooped downward due to weight when fruits are formed on the stems.

At this time, the stem of the strawberry is in contact with the stem support 120, the top of the stem support 120 is formed in a round shape to increase the contact area, it is possible to gently support the angle of the stem hitting.

Thus, by providing the stem support 120 formed in a curved shape at the top of the container body 110, the stem of the strawberry is rubbed with the stem support 120 or minimize the damage to the contact portion by the load It has an effect.

On the other hand, the drain pipe 130 is formed in the shape of a cylindrical tube opened in the longitudinal direction, it is disposed long in the longitudinal direction in the lower center of the container body (110).

A plurality of through holes 131 are formed at the upper end of the drain pipe 130 to communicate with the inside of the container body 110.

The drain pipe 130 discharges moisture supplied to the inside of the container body 110 to the outside.

Here, the lower end of the container body 110 is formed to be inclined downward in the direction of the drain pipe 130, whereby the water supplied to the container body 110 does not accumulate inside the container body 110 and the drain pipe ( 130) has the effect of moving quickly to make drainage quick and smooth.

On the other hand, the circulation pipe 140 is a cylindrical shape penetrated in the longitudinal direction, it is provided on both sides of the lower end of the container body (110).

The circulation pipe 140 is formed in a'U' shape, one end is disposed on the left side of the container body 110, and the other end is disposed on the right side of the container body 110.

The circulation pipe 140 is connected to the circulation water supply device 500 to be described later, and cooling water or heating water is supplied to one end and discharged to the other end.

By providing the circulation pipe 140 for circulating cooling water or heating water in this way, the internal temperature of the container body 110 can be adjusted while the cooling water or heating water circulates through the circulation pipe 140. Due to this, it has an effect of improving productivity by maintaining an optimal temperature for plants to be cultivated.

Meanwhile, as illustrated in FIG. 4, in some cases, the circulation pipe 140 may be formed of a pipe made of aluminum having a high heat transfer rate, and when the extrusion of the container body 110 is extruded, the circulation pipe 140 is an inner peripheral surface. And the outer circumferential surface may be formed by insert extrusion so as to be covered with synthetic resin.

This has the effect of increasing the heat transfer rate between the circulation pipe 140 and the container body 110 while blocking the metal component of aluminum from entering the soil.

In particular, the outer peripheral surface of the circulation pipe 140 may be formed with an extended portion 141 that is inserted and disposed on the side wall of the container body 110, whereby the heat and cold air to the side wall of the container body 110 further It has the effect of being delivered quickly.

In addition, a plurality of heat exchange protrusions 142 protruding in the inner direction of the container body 110 may be provided on the outer circumferential surface of the circulation pipe 140 to further increase the heat transfer rate.

On the other hand, as shown in Figure 3, the cultivation system using the plant cultivation container 100 of the present invention, the plant cultivation container 100, watering device 200, air supply device 300, temperature sensor 400 ), circulating water supply device 500 and control device 600.

The irrigation device 200 is a device that supplies water to the container body 110 at regular time intervals, specifically, an irrigation channel installed along the container body 110, a water tank in which water is stored, and the water It consists of a supply pump to move the water in the tank to the water pipe.

The air supply device 300 is connected to the drain pipe 130 to supply cold or warm air to the drain pipe 130.

Specifically, the air supply device 300 includes a ventilation pipe 310 connected to the drain pipe 130, an air pump 320 for injecting air into the ventilation pipe 310, and air supplied from the air pump 320 It consists of a heat exchanger 330 for heating or cooling.

Here, the heat exchanger 330 is mounted between the vents 310 and has a space 331 connected to the vents 310 and installed in a zigzag shape inside the housing 331 and cold water therein. Or it is made of a heat exchange pipe 332 through which hot water circulates.

The heat exchange device 330 is injected into the drain pipe 130 after the air supplied to the inside of the housing 331 by the air pump 320 is heated or cooled while colliding with the heat exchange pipe 332. .

Here, the cold water or hot water supplied to the heat exchange pipe 332 is the same as the cooling water and heating water supplied to the circulation pipe 140, and is supplied and used from the circulation water supply device 500, which will be described later. No heater or cooler is required.

As described above, the air supply device 300 is configured to generate cold air or warm air by cold water and hot water and supply it to the drain pipe 130, thereby reducing the configuration of the system by generating cold air and hot air without separate heaters or coolers. , This has the effect of reducing the manufacturing cost and improving the energy efficiency.

In addition, by supplying cold or warm air to the drainage pipe 130 with the air supply device 300, moisture does not stay in the soil for a long time and evaporates quickly to prevent root rot and supply oxygen to the root part to further promote growth. It has the effect.

Meanwhile, the temperature sensor 400 is mounted inside the container body 110, measures the temperature inside the container body 110, and transmits the measurement information to the control device 600, which will be described later. .

The circulating water supply device 500 is a device for supplying cooling water or heating water to the circulating pipe 140, a connection pipe connecting one end and the other end of the circulating pipe 140, and hot water installed between the connecting pipes Or it is made of a generator for generating cold water and a circulation pump that allows hot or cold water generated in the generator to circulate through the circulation pipe 140.

The control device 600 controls the operation of the irrigation device 200, the air supply device 300, and the circulating water supply device 500, and the air supply device when the irrigation device 200 is operated (300) is stopped.

Thereafter, the irrigation device 200 supplies moisture, and controls to operate the air supply device 300 after the predetermined time has elapsed and the moisture is removed from the rear tube 130.

In addition, the control device 600 controls the air supply device 300 to supply cold air when the temperature measured by the temperature sensor 400 is greater than or equal to a certain value, and controls to supply warm air when it is less than or equal to a certain value. .

In addition, when the temperature measured by the temperature sensor 400 exceeds a certain value, the control device 600 supplies cooling water to the circulation pipe 140 to the circulation water supply device 500, and the temperature sensor ( When the temperature measured by 400) is equal to or less than a certain value, it is controlled to supply heating water to the circulation pipe 140 by the circulation water supply device 500.

In this way, by supplying cooling water or heating water to the circulation pipe 140, the circulation water supply device 500 for controlling the temperature inside the container body 110 is provided, so that a temperature suitable for cultivation of crops is continuously maintained. It has the effect of promoting the growth of plants and improving the quality of fruits.

The present invention is not limited thereto, and may be modified in various ways by those skilled in the art without departing from the spirit and scope of the appended claims below, and thus such modifications should be interpreted as being within the scope of the present invention. something to do.

100: plant cultivation container 110: container body
120: stem support 130: drain pipe
140: circulation pipe 141: expansion
142: heat exchange projection 200: watering device
300: air supply 400: temperature sensor
500: circulating water supply device 600: control device

Claims (5)

A plant body 110 in which a plant to be cultivated is accommodated inside the open top, and the bottom width is narrower than the top width; Stem support 120 formed to be inclined downward at both ends of the container body 110; A drain pipe 130 which is formed to open in the longitudinal direction at the lower center of the container body 110, and discharges moisture supplied to the container body 110; A circulation pipe 140 provided at both lower ends of the container body 110 and supplied with cooling water or heating water therein; In the cultivation system using the plant cultivation container 100 comprising a,
Irrigation device 200 for supplying water to the container body 110 at regular time intervals;
An air supply device 300 that supplies cold or warm air to the drain pipe 130;
A temperature sensor 400 mounted inside the container body 110;
A control device 600 for controlling the operation of the watering device 200 and the air supply device 300; Including,
The control device 600 stops the air supply device 300 when the watering device 200 is operated, and after the predetermined time has elapsed after the water supply device 200 supplies moisture, the air supply device 300 Cultivation system using a plant cultivation vessel, characterized in that to control to operate.
According to claim 1,
A circulation water supply device 500 that supplies cooling water or heating water to the circulation pipe 140; Including more,
The control device 600 supplies cooling water to the circulation pipe 140 to the circulation water supply device 500 when the temperature measured by the temperature sensor 400 exceeds a predetermined value, and the temperature sensor 400 Cultivation system using a plant cultivation vessel, characterized in that to control the heating water to be supplied to the circulation pipe 140 to the circulating water supply device 500 when the measured temperature is below a certain value.
According to claim 1,
The container body 110 is made of a synthetic resin material,
The circulation pipe 140 is made of an aluminum material having a high heat transfer rate,
When the extrusion molding of the container body 110, the circulation pipe 140 is formed by insert extrusion so that the inner and outer surfaces are covered with synthetic resin.
The outer circumferential surface of the circulation pipe 140 is provided with an expansion portion 141 which is inserted into a sidewall of the container body 110 and a plurality of heat exchange protrusions 142 protruding in the inner direction of the container body 110. Cultivation system using a plant cultivation container, characterized in that.
According to claim 2,
The air supply device 300 includes a ventilation pipe 310 connected to the drain pipe 130;
An air pump 320 for injecting air into the ventilation pipe 310;
Includes; heat exchange device 330 for heating or cooling the air supplied from the air pump 320,
The heat exchanger 330 includes a housing 331 mounted between the ventilation pipes 310 and having a space therein connected to the ventilation pipes 310; A cultivation system using a plant cultivation container, comprising; a heat exchange pipe (332) installed inside the housing (331) in a zigzag form and circulating cold water or hot water therein.
The method of claim 4,
The heat exchanger 330, the air supplied to the interior of the housing 331 by the air pump 320 is heated or cooled while colliding with the heat exchange pipe 332 is injected into the drain pipe 130 Cultivation system using a plant cultivation container, characterized in that.

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