KR102462082B1 - Container House for Cultivation - Google Patents

Abstract

The container house for plant cultivation, in which glass windows and doors are installed by cutting the wall of the container of the present invention, and capable of cultivating plants inside, is installed in the central portion of the upper side of the container house and selectively according to the position of the sun a solar panel that is tilted and pivoted; a cultivation unit for accommodating soil for plant cultivation; It may include a; slide door moved along the guide rail to selectively open and close the ventilation holes formed on both sides of the solar panel.

Description

Container House for Cultivation

The present invention relates to a container house, and to a container house for plant cultivation in which a container used for freight delivery can be utilized as a structure for plant cultivation.

In general, containers have been mainly used for the purpose of transporting cargo, but recently, containers have been remodeled and used as simple offices, lodgings, or warehouses, and are manufactured in a suitable shape or size according to the purpose of use. for the convenience of As a typical prior art of a container for simple accommodation for rest or sleep, Korean Patent Registration No. 10-1220985 (container for simple accommodation) has been proposed.

Such a container house is implemented in the form of a box by adding an iron plate to a hexahedral steel frame as a whole. Accordingly, it is installed in a specific terrain and used for climate or earthquake observation purposes, or installed in mountainous terrain for various purposes such as flood control stations. Such a container house is manufactured in a factory and then transported by a vehicle, and then lifted from the vehicle by a vehicle crane and installed on the pre-constructed concrete foundation on the ground. As a result, the construction period is dramatically reduced. can

On the other hand, the need to enjoy leisure activities while cultivating plants in schools, public institutions, or hospitals is increasing, and in addition, the needs to improve mental health such as depression treatment while cultivating plants are increasing. Accordingly, there has been a demand for a technology for easily cultivating plants in a small-scale cultivation space rather than a family farm scale that requires a large existing site.

Korean Patent Registration No. 10-1220985

An object of the present invention is to provide a container house for plant cultivation that can utilize a container as a small-scale plant cultivation space.

In the container house for plant cultivation in which glass windows and doors are installed by cutting the wall of the container of the present invention, and plants can be grown inside, the container house is installed in the central portion of the upper side of the container house, and the sun a solar panel that is selectively tilted and pivotally driven along the position of the; a cultivation unit for accommodating soil for plant cultivation; It may include a; slide door moved along the guide rail to selectively open and close the ventilation holes formed on both sides of the solar panel.

Here, the container house includes a rechargeable battery for supplying power for driving the solar panel and the slide door; and a control unit for controlling driving of the solar panel and the slide door.

In addition, the rechargeable battery may be charged with electricity supplied from the outside of the container house or may be charged by the solar panel.

In addition, the slide door has an inclined upper surface so that a cross-sectional portion adjacent to the solar panel may be thicker than a cross-sectional portion facing away from the solar panel.

In addition, the slide door may have a guard wing installed on the upper side adjacent to the solar panel to prevent rain or snow from flowing toward the solar panel.

In addition, the container house further includes an environment control unit for controlling the internal environment, and the environment control unit is a ventilator for ventilating the indoor air, an air conditioner for controlling the temperature and humidity of the indoor air, water is supplied to the soil It may include a water supply unit and an environmental sensor for sensing the indoor environment of the container house.

In addition, the control unit receives the temperature, humidity, and soil moisture data of the indoor air from the environmental sensor, and controls the opening and closing of the slide door, the driving of the ventilator, the driving of the air conditioner, and the driving of the water supply unit. can

In addition, a water storage tank for collecting and storing the water discharged from the cultivation part of the container house and the rainwater collected from the container house; a purification filter for purifying the water in the water storage tank; It may include a water pump for supplying the purified water to the water supply unit of the container house.

In addition, it is installed on both sides of the upper side of the container house, the rain gutter to collect the rainwater flowing through the inclined upper surface of the slide door; And it may further include a rainwater pipe for transferring the rainwater collected in the rainwater tank to the storage tank.

In addition, the cultivation unit may include: a drainage unit connected to the water storage tank to deliver the water discharged from the soil to the water storage tank; It may include a porous support plate in which a plurality of holes are formed to support the soil in the upper part of the drainage unit and to facilitate the discharge of the water.

According to the container house for plant cultivation of the present invention, it is possible to easily grow and cultivate plants even in locations where water supply and electricity supply are not easy.

In addition, it is possible to realize eco-friendly plant cultivation by securing a driving power source for driving various electronic equipment of the container house through sunlight, purifying used water and rainwater, and recycling it as arable water for plant cultivation.

1 is a schematic perspective view of a container house for plant cultivation according to an embodiment of the present invention.
2 is a schematic cross-sectional view of a container house for plant cultivation according to an embodiment of the present invention.
3 is a schematic upper cross-sectional view of a container house for plant cultivation according to an embodiment of the present invention.
4 is a schematic diagram showing a water treatment process of a container house for plant cultivation according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

In the present specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof. Also, when a part of a layer, film, region, plate, etc. is said to be “on” another part, this includes not only the case where the other part is “directly on” but also the case where there is another part in between. Conversely, when a part, such as a layer, film, region, plate, etc., is "under" another part, it includes not only cases where it is "directly under" another part, but also a case where another part is in between.

1 is a schematic perspective view of a container house for plant cultivation according to an embodiment of the present invention. As shown in FIG. 1 , the container house 10 for plant cultivation of this embodiment may be manufactured by remodeling a container mainly used for freight delivery. The container house 10 for plant cultivation can form a plurality of installation holes by cutting the wall so that the sliding glass windows 11 and the opening and closing doors 12 can be installed on the walls of all directions of the container. The glass windows 11 installed on the wall of the container house 10 may be automatically opened and closed by a driving motor that generates a driving force by electricity. A control unit (not shown) for controlling the automatic opening and closing of the glass windows 11 and various actuators constituting the container house 10 may be provided in the container house 10 .

In addition, the container house 10 may further include a power supply facility for supplying electricity to a driving motor or various actuators and a rechargeable battery. If there is a generator or an external electric facility capable of supplying power to the area where the container house 10 is installed, the power facility may be electrically connected to the generator or the external electric facility. The rechargeable battery may be charged by receiving electricity from a power supply facility. Since electricity supplied at night is generally cheaper, the controller may control the rechargeable battery to be charged with midnight electricity. On the other hand, for the case where a generator or an external electric facility does not exist in the area where the container house 10 is installed, the container house 10 may further include a photovoltaic panel 110 for generating electricity from sunlight. have. Here, the solar panel 110 may be connected to a rechargeable battery to charge the rechargeable battery with electricity generated by the solar panel 110 .

The solar panel 110 installed in the container house 10 is most preferably orthogonal to the sunlight in order to receive a greater amount of sunlight from the sun. That is, by controlling the angle of the solar panel 110 by tracking the position of the sun, electricity generation efficiency can be maximized. To this end, the solar panel 110 may be installed on the upper surface of the container house 10 via an electric hinge 111 that pivots the solar panel 110 with respect to the upper surface of the container house 10 . . The electric hinge 111 may adjust the angle of the solar panel 110 so that the solar panel 110 and the sunlight are orthogonal to or track the sun under the control of the controller. In order to track the position of the sun, the container house 10 may include a plurality of illuminance sensors for sensing the brightness of sunlight received from the sun. A plurality of illuminance sensors are installed at four upper vertices and upper corners of the container house 10 to transmit data on the brightness of sunlight to the control unit. That is, the controller may drive the electric hinge 111 to incline the solar panel 110 to the position of the illuminance sensor having the largest illuminance value by comparing the brightness data of sunlight received from the illuminance sensor.

On the other hand, the interior of the container house 10 may be provided with a cultivation unit 120 constituting a vegetable garden for cultivating various plants. Referring to FIG. 1 , the cultivation unit 120 of this embodiment may be configured to be adjacent to both sides of the container house 10 along the longitudinal direction of the container house 10 . That is, a walking passage through which a grower can walk is formed in the central portion of the container house 10 , and the cultivation unit 120 is configured on both sides thereof. The cultivation unit 120 is filled with soil 121 for plant cultivation, and a drainage unit 122 for draining water supplied for plant cultivation is configured in the lower part of the soil 121 of the cultivation unit 120 . will become The cultivation unit 120 and the drainage unit 122 will be described in more detail with reference to FIG. 2 .

In addition, the container house 10 further includes an environment control unit 130 for controlling the growing environment of plants, and the environment control unit 130 includes a slide door 131 provided on the upper side of the container house 10 . , a fan 132, an air conditioner 133, and may include an environmental sensor. The slide door 131 is controlled by the control unit to selectively open and close the ventilation hole 135 of the upper side of the container house 10 , and the ventilation fan 132 introduces external air into the container house 10 or the container Controlled by the control unit to discharge the internal air of the house 10 to the outside. The air conditioner 133 is controlled by the controller to adjust the air inside the container house 10 , such as heating or cooling the air inside the container house 10 or dehumidifying the air. To this end, a plurality of environmental sensors for sensing the environment of the container house 10 may be installed at various locations inside the container house 10 . The environmental sensor may include a temperature sensor for sensing indoor temperature, a humidity sensor for sensing humidity, and the like. In addition, the environmental sensor may further include a moisture sensor for sensing the moisture of the soil 121, and when the moisture of the soil 121 sensed by the moisture sensor is insufficient, a water supply unit capable of supplying water to the soil 121 ( 134 may be further included in the environment control unit 130 . Such an environment control unit 130 will be described in more detail with reference to FIGS. 2 and 3 .

2 is a schematic cross-sectional view of a container house for plant cultivation according to an embodiment of the present invention. As shown in FIG. 2 , a cultivation unit 120 in which soil 121 for cultivating plants is accommodated may be provided on both lower sides of the container house 10 . The cultivation unit 120 is provided on the upper surface of the porous support plate 123 and the support plate 123 having a plurality of holes so that water discharged from the soil 121 can flow down to the drainage unit 122 , and the soil 121 . ) to support the soil 121 so that it does not flow out through the perforated support plate 123 and a nonwoven fabric 124 through which water can pass may be provided. That is, some of the water supplied to the soil 121 from the person who grows plants or the water supply unit 134 is discharged to the drainage unit 122 through the nonwoven fabric 124 and the porous support plate 123, and the discharged water Silver is stored in a water storage tank 140 provided outside or inside the container house 10 along the drainage unit 122 , and the stored water is filtered through the filtration filter 141 and the soil through the water supply unit 134 . (121) can be optionally re-supplied. The drainage unit 122 may have a Y-shaped cross-section in order to collect water discharged from the soil 121 and deliver it to the water storage tank 140 . In addition, in the drainage unit 122 , a flow path through which water flows is formed to be inclined, so that water may flow to one side of the container house 10 and be discharged.

Meanwhile, the container house 10 includes a slide door 131 , a fan 132 , and a water supply unit 134 as an environment control unit 130 for controlling an internal environment. The slide door 131 selectively opens and closes the ventilation hole 135 formed on the upper side of the container house 10 facing the soil 121 . That is, the slide door 131 may slide into the container house 10 along the guide rail 131-1 with reference to FIG. 3 . The slide door 131 is moved through an actuator driven by electricity supplied from the rechargeable battery or power supply of the container house 10, and the opening and closing operation of the slide door 131 is automatically controlled by the control unit. can be done The fan 132 is automatically driven under the control of the control unit to circulate the air inside the container house 10 . The water supply unit 134 is for supplying water to the soil 121 , and a plurality of water supply units 134 may be installed along the longitudinal direction of the container house 10 . The water supply unit 134 may also be automatically controlled by the control unit. For example, when the soil 121 lacks moisture based on the moisture data of the soil 121 transmitted to the control unit, the water supply unit 134 is operated to store water. Water may be supplied to the soil 121 by receiving water from the tank 140 .

On the other hand, in another embodiment of the present invention, a soil improvement sheet having nutrient control ability and moisture control ability may be further provided under the soil 121 . In order to improve the physical / chemical properties of the soil suitable for plant growth, between the soil 121 and the nonwoven fabric 124 or between the soil 121 and the porous support plate 123 by replacing the nonwoven fabric 124 It has a sheet shape. A soil improvement sheet may be installed. The soil improvement sheet having the nutrient control ability and the moisture control ability may have a soil improvement component that provides nutrients to the soil 121 and a moisture control component that controls the moisture of the soil 121 . The soil improvement component may include at least one selected from the group consisting of organic fertilizers, inorganic fertilizers, plant growth promoters and salt removers. Known organic fertilizers, such as sesame cake, livestock manure, and bark, can be used without limitation. In addition, the inorganic fertilizer can be used without limitation, for example, nitrogen, phosphorus, potassium, calcium, aluminum, magnesium, boron ), copper (copper), iron (iron), manganese (manganess), molybdenum (molybdenum) and may include one or more selected from the group consisting of zinc (zinc). In addition, the plant growth promoter can be used without limitation, for example, auxin, gibberellin, cytokinin, ethylene, abscisic acid, brassino steroid ( brassino steroide) may include one or more selected from the group consisting of. The moisture control component is a component having the ability to store moisture, and the moisture control component may include at least one selected from the group consisting of polyacrylamide, acrylamide-acrylate copolymer, and acrylonitrile copolymer, and more Preferably, it may be an acrylamide-acrylate copolymer in consideration of the effects desired by the present invention, such as compatibility with a shape-retaining component to be described later, sheet formability, and moisture absorption. The shape maintaining component may be mixed with the soil improving component and the moisture controlling component in order to produce the above-described soil improving component and moisture controlling component in a sheet shape, and includes a rubber-based resin as the shape maintaining component. The rubber-based resin may be very suitable for maintaining a predetermined shape even with a volume change in which the moisture control component swells as much as the volume of moisture absorbed. The rubber-based resin may be used without limitation in the case of known resins, for example, isoprene rubber (IR), butadiene rubber (BR), styrene-butadiene rubber (SBR), ethylene propylene diene monomer (EPDM) rubber, acrylic rubber, nitrile - At least one selected from the group consisting of butadiene rubber (NBR) and silicone rubber may be used. Preferably, the rubber-based resin may include an ethylene-propylene-diene copolymer, which is an ethylene propylene diene monomer (EPDM) rubber, through which it is easy to maintain the shape even when the moisture control component absorbs moisture, despite the volume change. Moisture control ingredients do not interfere with absorbing moisture, making it easier to control moisture. The soil improvement sheet can be manufactured through the first step of mixing the above-described soil improving component, the moisture control component and the shape maintaining component, and the second step of preparing a predetermined sheet shape by crosslinking the rubber-based resin in the mixed composition.

3 is a schematic upper cross-sectional view of a container house for plant cultivation according to an embodiment of the present invention. As shown in FIG. 3 , the slide door 131 may be moved along the guide rail 131-1 to open and close the ventilation hole 135 . Here, a sealing member such as a rubber packing for sealing the gap with the slide door 131 when the ventilation hole 135 is closed by the slide door 131 may be further provided around the ventilation hole 135 . have. The rubber packing is pressed by the slide door 131 to change its shape to fill the gap, and when the ventilation hole 135 is opened by the slide door 131 , its shape may be restored to its original state. The slide door 131 may be formed to have a different thickness in cross section so that rainwater can flow to the rainwater catchers 13 installed at both corners of the container house 10 in rainy weather. Specifically, the slide door 131 is formed to be thicker than the portion adjacent to the solar panel 110 compared to the portion adjacent to the rain gutter 13, so that the upper surface may form an inclined surface. In addition, the slide door 131 may further include a guard wing 131-2 to prevent snow or rainwater from passing toward the solar panel 110 during rain or snowfall, and the guard wing The 131 - 2 may be installed on the upper side of the slide door 131 adjacent to the solar panel 110 . Referring to FIG. 1 , rain water collected in the rain gutter 13 may be delivered to and stored in the water storage tank 140 through the rain water pipe 14 .

4 is a schematic view showing a water treatment process of a container house for plant cultivation according to an embodiment of the present invention. As shown in FIG. 4 , water used in the container house 10 or rainwater in rainy weather may be stored in the water storage tank 140 . The water supplied to the cultivation unit 120 of the container house 10 is supplied to the water storage tank 140 as indicated by the arrow A through the drainage unit 122, and the rain gutter 13 ), the collected rainwater is supplied to the water storage tank 140 through the rainwater pipe 14 as shown by the arrow B. The water stored in the water storage tank 140 is then supplied to the water supply unit 134 of the container house 10 by the water supply pump 142 controlled by the control unit when water is supplied to the container house 10 . At this time, since the water stored in the water storage tank 140 may contain various pollutants, a filtration filter 141 may be further provided to purify the polluted water. Meanwhile, the water stored in the water storage tank 140 may be used for plant cultivation in the container house 10 as well as other uses around the container house 10 . For example, the water stored in the water storage tank 140 may be supplied to a place where water is needed, such as a simple toilet, a sink, or a washbasin around the container house 10 , and to other uses 15 . For this purpose, the feed water pump 142 may be a 2-way pump capable of selectively pumping water in both directions or in multiple directions.

Although the embodiments of the present invention have been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention can add components, Other embodiments may be easily proposed by changes, deletions, additions, etc., but these will also fall within the scope of the present invention.

10: container house 110: solar panel
120: cultivation unit 131: slide door
132: ventilation fan 133: air conditioner
134: water supply 140: water storage tank

Claims (10)

In a container house for plant cultivation in which glass windows and entrance doors are installed by cutting the wall of the container, and plants can be grown inside,
The container house
a solar panel installed in the central portion of the upper side of the container house and pivotally driven selectively inclined according to the position of the sun;
a cultivation unit for accommodating soil for plant cultivation;
Including; and a slide door moving along the guide rail to selectively open and close the ventilation holes formed on both sides of the solar panel.
The container house includes a rechargeable battery for supplying power for driving the solar panel and the slide door; and
a control unit for controlling the driving of the solar panel and the slide door;
The container house,
It further comprises an environment control unit for controlling the internal environment, wherein the environment control unit is a fan for ventilating the indoor air, an air conditioner for controlling the temperature and humidity of the indoor air, a water supply unit for supplying water to the soil, and the container house Including an environmental sensor for sensing the indoor environment,
The control unit receives the temperature, humidity, and soil moisture data of the indoor air from the environmental sensor, and controls opening and closing of the slide door, driving of the ventilator, driving of the air conditioner, and driving of the water supply unit,
a water storage tank for collecting and storing water discharged from the cultivation part of the container house and rainwater collected from the container house;
a purification filter for purifying the water in the water storage tank;
and a water pump for supplying the purified water to the water supply unit of the container house,
Rain gutter installed on both upper sides of the container house to collect rainwater flowing through the inclined upper side of the slide door; and
Further comprising a rainwater pipe for transferring the rainwater collected in the rainwater gutter to the water storage tank,
The cultivation unit,
a drain unit connected to the water storage tank to deliver the water discharged from the soil to the water storage tank;
a porous support plate supporting the soil in the upper part of the drainage unit and having a plurality of holes formed therein to facilitate the discharge of the water; and
It is disposed between the soil and the porous support plate and comprises a soil improvement sheet for improving the physical / chemical properties of the soil to be suitable for plant growth,
The soil improvement sheet includes a soil improvement component and a moisture control component for controlling the moisture of the soil,
The soil improvement component includes at least one selected from the group consisting of organic fertilizers, inorganic fertilizers, plant growth promoters and salt removers,
The organic fertilizer includes at least one selected from the group consisting of sesame cake, livestock manure, and bark,
The inorganic fertilizer includes at least one selected from the group consisting of nitrogen, phosphoric acid), potassium, calcium, aluminum, magnesium, boron, copper, iron, manganese, molybdenum and zinc,
The plant growth promoter includes at least one selected from the group consisting of auxin, gibberellin, cytokinin, ethylene, abscisic acid, and brassino steroids,
The moisture control component is a container house for plant cultivation comprising at least one selected from the group consisting of polyacrylamide, acrylamide-acrylate copolymer, and acrylonitrile copolymer.
delete The method according to claim 1,
The rechargeable battery is a container house for plant cultivation that is charged with electricity supplied from the outside of the container house or is charged by the solar panel.
The method according to claim 1,
The slide door has a slanted upper side so that a cross-sectional area adjacent to the solar panel is thicker than a cross-sectional area facing away from the solar panel.
5. The method according to claim 4,
The slide door is a container house for plant cultivation in which a guard wing is installed on an upper side adjacent to the solar panel to prevent rainwater or snow from flowing toward the solar panel.
delete delete delete The method according to claim 1,
Rain gutter installed on both upper sides of the container house to collect rainwater flowing through the inclined upper side of the slide door; and
Container house for plant cultivation further comprising a rainwater pipe for transferring the rainwater collected in the rainwater gutter to the water storage tank. delete

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