KR101578187B1 - Air conditioning structure for greenhouse - Google Patents

Abstract

An air conditioning structure for a green house is disclosed. The disclosed air conditioning structure for a greenhouse comprises: a greenhouse outer wall; a greenhouse inner wall spaced apart inwardly from the greenhouse outer wall at a predetermined distance to enable subjects to be planted and cultivated inside thereof; an air conditioning member disposed in a space between the greenhouse outer wall and the greenhouse inner wall to perform an air conditioning inside the greenhouse inner wall; a greenhouse inner duct installed in a longitudinal direction with a predetermined length along the ground inside the greenhouse inner wall to make the air which passed through the air conditioning member flow from the ground inside the greenhouse inner wall to the upper space inside the greenhouse inner wall; a sensor member sensing at least one among temperature, humidity, and wind speed at the height corresponding to a growing level of the cultivating subjects planted inside the greenhouse inner wall; a hanger member hanging the sensor member; a lift member lifting the hanger member up in order to keep the sensor member at the height corresponding to the growing level of the cultivating subjects; and a control member operating the lift member in order to keep the sensor member at the height corresponding to the growing level of the cultivating subjects which are sensed by the sensor member. According to the disclosed air conditioning structure for a greenhouse, air conditioning can be performed to be suitable for a growing level of the cultivating subjects inside the greenhouse and air conditioning optimal for the cultivating objects can be performed. An air layer between the greenhouse outer wall and the greenhouse inner wall functions as a buffer layer for changes in an environment outside the greenhouse to minimize an effect of changes in the environment outside the greenhouse on an environment inside the greenhouse and minimize heat emission from the inside to the outside of the greenhouse.

Description

[0001] Air conditioning structure for greenhouse [0002]

The present invention relates to a greenhouse air conditioning structure.

Greenhouse refers to a structure that can regulate the temperature, humidity, etc., so that cultivated objects such as various plants can be cultivated freely to the outside environment.

The following patent documents can be given as examples of what can be presented as a device capable of performing air conditioning for the interior of a greenhouse and a greenhouse.

However, according to the conventional greenhouse air conditioning system, even if the object to be grown in the greenhouse gradually grows over time, the air conditioner can not be harmonized with the inside of the greenhouse so that the air conditioner However, there is a need for improvement.

Further, according to the conventional greenhouse air-conditioning structure, since the greenhouse roof is formed of glass having a short shape, the environment inside the greenhouse also changes rapidly due to a change in the external environment, for example, suddenly becoming cold or warm. That is, in the summer, the heat inside the greenhouse becomes so hot that the inside of the greenhouse becomes hotter, which leads to a cost of cooling. In winter, the cold environment outside the greenhouse can cool down rapidly, I had to heat it while consuming it. If such cooling and heating is not properly carried out, there is a drawback that it is harmful to the growth of the cultivated object.

In addition, according to the conventional air conditioner for air conditioner, since the cooling and heating is performed for the entire large space inside the greenhouse, energy is wasted and only a localized air flow limited to the vicinity of the air conditioner is generated, There is a disadvantage that efficient cooling and heating can not be achieved.

A climate control system in a space environment for living things, a space environment suitable for living things, and a control system and program for the same are disclosed in Japanese Patent Application Laid-Open No. 10-2011-0138344, published on December 27, 2011. Registered Utility Model No. 20-0263476, Date of Registration: 2002.01.24., Name of Design: Heating and Air-conditioning System for Farm House Registered Patent No. 10-0828103, Registered Date: Apr. 30, 2008, Title of the invention: Automatic control system of greenhouse using soil and environmental sensor and greenhouse management method Registered Patent No. 10-0934094, Date of Registration: December 17, 2009. Title of the invention:

An object of the present invention is to provide a greenhouse air conditioning structure capable of air conditioning the interior of a greenhouse so as to match the degree of growth of a cultivated object inside the greenhouse.

Another object of the present invention is to provide a greenhouse air conditioning structure in which a change in the external environment of the greenhouse can be minimized.

It is still another object of the present invention to provide a greenhouse air conditioning structure capable of optimal air conditioning for a cultivating object.

According to an aspect of the present invention, there is provided a greenhouse air conditioning structure comprising: a greenhouse outer wall; A greenhouse inner wall arranged at a predetermined distance inward from the outer wall of the greenhouse and planted and planted therein; An air conditioning member disposed in a space between the outer wall of the greenhouse and the inner wall of the greenhouse to perform air conditioning with respect to the inner wall of the greenhouse; A greenhouse inner duct installed at a predetermined length along the bottom of the inner wall of the greenhouse to allow air passing through the air conditioning member to flow from the bottom of the greenhouse inner wall to the air inside the greenhouse inner wall; A sensing sensor member capable of measuring at least one of a temperature, a humidity, and a wind speed of a height corresponding to a degree of growth of the cultivation object planted in the inner wall of the greenhouse; A hanger member suspended from the detection sensor member; A lifting member capable of lifting the hanger member so that the detection sensor member can be positioned at a height corresponding to the degree of growth of the cultivation object; And a control member for operating the elevating member such that the sensing sensor member is positioned at a height corresponding to a degree of growth of the culturing object sensed by the sensing sensor member.

According to another aspect of the present invention, there is provided a greenhouse air conditioning structure comprising: a greenhouse outer wall; A greenhouse inner wall arranged at a predetermined distance inward from the outer wall of the greenhouse and planted and planted therein; An air conditioning member disposed in a space between the outer wall of the greenhouse and the inner wall of the greenhouse to perform air conditioning with respect to the inner wall of the greenhouse; A plurality of the air conditioning units are installed at different heights on the inner wall of the greenhouse so that the air conditioning unit can interact with the portions of the interior of the greenhouse that match the degree of growth of the object to be cultivated, A plurality of opening / closing dampers for opening the inner wall of the greenhouse at a height corresponding to a degree of growth of the greenhouse; A sensing sensor member capable of measuring at least one of a temperature, a humidity, and a wind speed of a height corresponding to a degree of growth of the cultivation object planted in the inner wall of the greenhouse; A hanger member suspended from the detection sensor member; A lifting member capable of lifting the hanger member so that the detection sensor member can be positioned at a height corresponding to the degree of growth of the cultivation object; And a control member for operating the elevating member such that the sensing sensor member is positioned at a height corresponding to a degree of growth of the culturing object sensed by the sensing sensor member.

According to another aspect of the present invention, there is provided a green air conditioning structure including a greenhouse outer wall; A greenhouse inner wall arranged at a predetermined distance inward from the outer wall of the greenhouse and planted and planted therein; An air conditioning member disposed in a space between the outer wall of the greenhouse and the inner wall of the greenhouse to perform air conditioning with respect to the inner wall of the greenhouse; A plurality of the air conditioning units are installed at different heights on the inner wall of the greenhouse so that the air conditioning unit can interact with the portions of the interior of the greenhouse that match the degree of growth of the object to be cultivated, A plurality of opening / closing dampers for opening the inner wall of the greenhouse at a height corresponding to a degree of growth of the greenhouse; A sensing sensor member capable of measuring at least one of a temperature, a humidity, and a wind speed of a height corresponding to a degree of growth of the cultivation object planted in the inner wall of the greenhouse; And a control member for opening the opening / closing damper of the height corresponding to the degree of growth of the cultivating object, which is sensed by the sensing sensor member, of the multi-stage opening / closing damper.

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According to the greenhouse air-conditioning structure according to one aspect of the present invention, since the greenhouse air-conditioning structure includes the greenhouse outer wall, the greenhouse inner wall, the air conditioning member and the multi-stage opening / closing damper, The temperature, humidity, wind speed, etc. of the branch are sensed, and the opening / closing damper is opened at the branch point corresponding to the degree of growth, so that air conditioning can be performed to the inside of the greenhouse so as to match the growth of the cultivated object inside the greenhouse. And the air layer between the outer wall of the greenhouse and the inner wall of the greenhouse becomes a buffer layer for a change in the external environment of the greenhouse, for example, a sudden temperature change, So that the effect can be minimized.

According to another aspect of the present invention, there is provided a greenhouse air-conditioning structure in which a greenhouse air-conditioning structure includes an outside roof of a greenhouse and an inside roof of a greenhouse, so that an air layer existing between the outside roof of the greenhouse and the inside roof of the greenhouse The environment inside the greenhouse can be stably maintained even when the temperature of the outside is suddenly changed, and the heat loss to the outside of the greenhouse can be minimized There is an effect that can be.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a greenhouse air conditioning structure according to an embodiment of the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioning system,
3 is a view showing a middle damper opened in a green air-conditioning structure according to an embodiment of the present invention.
4 is a view showing a top-end damper opened in a green air-conditioning structure according to an embodiment of the present invention.
5 is a schematic view of a green air conditioning structure according to another embodiment of the present invention.

Hereinafter, a green air conditioning structure according to embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a schematic view of a greenhouse air conditioning structure according to an embodiment of the present invention. FIG. 2 is a view showing a state in which a lowermost damper is opened in a greenhouse air conditioning structure according to an embodiment of the present invention, FIG. 3 is a view showing a middle damper opened in a greenhouse air conditioning structure according to an embodiment of the present invention, FIG. 4 is a view showing a state in which a uppermost damper is opened in a greenhouse air conditioning structure according to an embodiment of the present invention Is a visible view.

1 to 4, a greenhouse air conditioning structure 100 according to the present embodiment includes a greenhouse outer wall 120, a greenhouse inner wall 125, an air conditioning member 140, a multi-stage opening and closing damper 130).

The greenhouse outer wall 120 is formed of a glass panel or the like, and forms an outer wall of the greenhouse.

The inner wall 125 of the greenhouse is spaced inwardly from the outer wall 120 of the greenhouse and is planted with a growing object 10 therein. The inner wall 125 may also be formed of a glass panel or the like.

A predetermined space is formed between the greenhouse outer wall 120 and the greenhouse inner wall 125. The air conditioning member 140 is disposed in a space between the greenhouse outer wall 120 and the greenhouse inner wall 125, Air conditioning for the inside of the inner wall 125 can be performed.

The air conditioning member 140 may include an air conditioner or the like, and may be installed in an inverted form to flow air from above to below.

Reference numeral 141 denotes a case where air passing through the air conditioning member 140 is heat-exchanged with various heat sources such as an external heat source such as a geothermal heat source, an air heat source, a hydrothermal source, and a waste heat source, Is a heat exchange member.

The multi-stage opening and closing damper 130 is disposed on the inner wall 125 of the greenhouse so as to allow the air conditioning member 140 to interact with a portion of the interior wall 125 corresponding to the degree of growth of the cultivation object, The inner wall 125 of the greenhouse is opened at a height corresponding to the degree of growth of the object to be planted inside the inner wall 125 of the greenhouse.

Illustratively, in the present embodiment, the multi-stage opening and closing damper 130 is shown to be applied to three dampers, that is, the uppermost damper 133, the intermediate damper 132, and the lowermost damper 131, And is installed on the inner wall 125 of the greenhouse. One of the multi-stage opening and closing dampers 130 is opened to open the corresponding height portion of the greenhouse inner wall 125 so that the inside of the greenhouse inner wall 125, the greenhouse inner wall 125, 120 are communicated with each other.

Reference numeral 145 denotes a greenhouse inner duct. The greenhouse inner duct 145 is installed along the bottom of the greenhouse inner wall 125 so as to have a predetermined length so that the air passed through the air conditioning member 140 passes through the greenhouse inner wall 125, (125) inside the greenhouse inner wall (125).

The end of the greenhouse inner duct 145 communicates with the space between the greenhouse inner wall 125 and the greenhouse outer wall 120 through the greenhouse inner wall 125, A body 146 and a plurality of spray holes 147 formed on the duct body 146 and a duct opening and closing cover 148 formed at the end of the duct body 146.

The air passing through the air conditioning member 140 passes through the duct body 146 of the greenhouse inner duct 145 and is uniformly distributed in the inner space of the greenhouse inner wall 125 through the plurality of the injection holes 147 Can be supplied.

The amount of air supplied via the air conditioning member 140 to the deep inside of the greenhouse can be adjusted according to the degree of opening of the duct opening and closing lid 148.

Reference numeral 150 denotes a sensing sensor member, and the sensing sensor member 150 can measure at least one of temperature, humidity, and wind speed at a height corresponding to the degree of growth of the cultivating object planted inside the greenhouse inner wall 125 will be.

For example, reference numeral 151 denotes an air velocity sensor, reference numeral 152 denotes a humidity sensor, and reference numeral 153 denotes a temperature sensor.

Reference numeral 156 denotes a hanger member to which the sensing sensor member 150 is suspended.

Reference numeral 155 denotes an elevating member which is fixed to the ceiling of the greenhouse or the like and the hanger member 156 is lifted by the elevating member 155 so that the sensing sensor member 150 meets the degree of growth of the object to be grown Lt; / RTI >

For example, if the lifting member 155 includes a pulley driven by a motor and the pulley has a structure in which the hanger member 156 in the form of a wire is wound, The height of the sensing sensor member 150 suspended from the lower end of the hanger member 156 can be adjusted according to the degree of winding and unwinding of the sensing member 156.

The control member 105 is disposed at a height corresponding to the degree of growth of the object to be inspected sensed by the sensing sensor member 150, And opens the opening / closing damper of the height corresponding to the degree of growth of the object to be cultivated, which is sensed by the sensing sensor member (150) of the multi-stage opening / closing damper (130).

The sensing sensor member 150 may have a height corresponding to the degree of growth of the cultivating object by the sensing sensor member 150 through a method of sensing the height of the top of the cultivating object having the laser light emitting / The height of a portion where the growth points of the cultivating object are distributed in a large number can be sensed and the control member 105 can control the height of the cultivating object such that the sensing sensor member 150 is positioned at a height corresponding to the degree of growth of the cultivating object. (155) is operated, and the opening / closing damper of a height corresponding to the degree of growth of the cultivating object is operated to be opened. A solenoid valve, an electric motor, or the like may be applied to each opening / closing damper of the multi-stage opening / closing damper 130 to enable such operation.

Meanwhile, the greenhouse air-conditioning structure 100 according to the present embodiment may include a greenhouse outer roof 115 and a double roof of the greenhouse inner roof 110.

The greenhouse outer roof 115 is formed of a glass panel or the like, and is placed on the greenhouse to be exposed to the outside.

The greenhouse inner roof 110 is spaced inwardly from the greenhouse outer roof 115 and is disposed on the greenhouse.

The air layer is present between the greenhouse outer roof 115 and the greenhouse inner roof 110 and the air layer existing between the greenhouse outer roof 115 and the greenhouse inner roof 110 Is a buffer layer for environmental changes inside the greenhouses inner roof 110 due to environmental changes outside the greenhouse outer roof 115. Therefore, the environment inside the greenhouse can be stably maintained even when the external temperature changes suddenly, and heat loss to the outside of the greenhouse can be minimized.

The air outside the roof 115 of the greenhouse is provided with an outside air introduction port 116 serving as an inlet through which the air outside the greenhouse outside roof 115 can enter the hole between the greenhouse outside roof 115 and the greenhouse inside roof 110, And an inside air outlet 117 serving as an outlet through which the air inside the hole between the greenhouse outer roof 115 and the greenhouse inner roof 110 can flow out of the greenhouse outer roof 115 is formed.

The inside air outlet 117 is formed in the shape of a duct and an exhaust fan 119 can be disposed in the inside air outlet 117 so as to allow the air inside the inside air outlet 117 to flow out.

The inside air outlet opening / closing cover (118) capable of opening / closing the inside air outlet (117) is rotatably disposed in the inside air outlet (117). Then, in winter and the like, the air outlet opening and closing lid 118 is closed, and the air between the greenhouses outer roof 115 and the greenhouses inner roof 110 is heated by sunlight, The air outlet opening and closing cover 118 is opened so that the air between the greenhouse outer roof 115 and the greenhouse inner roof 110 flows out to the outside so that the inside of the greenhouse is not heated higher than necessary by sunlight .

Reference numeral 101 denotes a rainwater collecting pipe capable of collecting and dropping rainwater falling on the greenhouses outer roof 115.

Hereinafter, the operation of the green air conditioning structure 100 according to the present embodiment will be described with reference to the drawings.

2, if the cultivating object is still young, the sensing sensor member 150 also stays at a lower height of the greenhouse, and only the lowermost damper 131 of the multi-stage opening and closing damper 130 Is opened. Then, the air in the vicinity of the cultivating object flows into the space between the greenhouse outer wall 120 and the greenhouse inner wall 125 through the hole opened by the lowermost damper 131, passes through the air conditioning member 140 It becomes hot air or cold air, and in this state, it can flow back to the object to be cultivated again through the greenhouse inner duct 145.

Then, as shown in FIG. 3, when the cultivating object grows by a predetermined amount, the sensing sensor member 150 moves up to the middle height of the greenhouse, and the middle damper 130 of the multi- 132 are opened. Then, the air in the vicinity of the cultivating object flows into the space between the greenhouse outer wall 120 and the greenhouse inner wall 125 through the hole opened by the intermediate damper 132, and passes through the air conditioning member 140 It becomes hot air or cold air, and in this state, it can flow back to the object to be cultivated again through the greenhouse inner duct 145.

4, when the cultivating object is maximally grown, the sensing sensor member 150 is raised to the upper level of the greenhouse, and the uppermost damper 130 of the multi-stage opening and closing damper 130 133 are opened. Then, the air in the vicinity of the cultivating object flows into the space between the greenhouse outer wall 120 and the greenhouse inner wall 125 through the hole opened by the uppermost damper 133, passes through the air conditioning member 140 It becomes hot air or cold air, and in this state, it can flow back to the object to be cultivated again through the greenhouse inner duct 145.

As described above, since the greenhouse air-conditioning structure 100 includes the greenhouse outer wall 120, the greenhouse inner wall 125, the air conditioning member 140, and the multi-stage opening / closing damper 130, The temperature, humidity, wind speed, etc. at the point corresponding to the degree of growth are sensed and the opening / closing damper at the point corresponding to the degree of growth is opened to perform air conditioning so that the inside of the greenhouse The air layer between the greenhouse outer wall 120 and the greenhouse inner wall 125 can be used for a change in the external environment of the greenhouse, for example, a buffer layer for a sudden temperature change So that the influence of changes in the external environment of the greenhouse on the internal environment of the greenhouse can be minimized.

In addition, since the greenhouse air-conditioning structure 100 includes the greenhouse outer roof 115 and the greenhouse inner roof 110, the air layer existing between the greenhouse outer roof 115 and the greenhouse inner roof 110 is communicated to the greenhouse The interior of the greenhouse can be stably maintained even when the temperature of the outside of the greenhouse is changed suddenly due to the change of the environment inside the greenhouse inner roof 110 due to environmental changes outside the outside roof 115, The heat loss to the outside of the heater can be minimized.

Hereinafter, a green air conditioning structure according to another embodiment of the present invention will be described with reference to the drawings. In carrying out the above description, the description overlapping with the content already described in the embodiment of the present invention described above will be omitted and it will be omitted here.

5 is a schematic view illustrating a green air conditioning structure according to another embodiment of the present invention.

Referring to FIG. 5, in this embodiment, the air conditioning member 240 includes an entire heat exchanger that prevents the heat inside the greenhouse inner wall 225 from flowing out. Then, heat inside the greenhouse inner wall 225 can be reintroduced into the greenhouse inner wall 225 without flowing out.

Of course, as with the above-described embodiment, the air conditioning member 240 may further include an air-conditioner, which exchanges heat with an external heat source, in addition to the total enthalpy heat exchanger.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims And can be changed. However, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

The air conditioning system for a greenhouse according to one aspect of the present invention can provide air conditioning for the inside of a greenhouse so as to match the degree of growth of the object to be grown inside the greenhouse, It can be minimized and air conditioning can be optimized for the cultivated object, so that the possibility of industrial use is high.

10: cultivated object 100: greenhouse air conditioning structure
101: rainwater collecting pipe 105: control member
110: Greenhouse inner roof 115: Greenhouse outer roof
116: Outside air inlet 117: Outside air outlet
118: Vent outlet opening / closing cover 119: Exhaust fan
120: Greenhouse outer wall 125: Greenhouse inner wall
130: multi-stage opening / closing damper 131: lowest end damper
132: intermediate damper 133: uppermost damper
140: air conditioning member 141: heat exchange member
145: Greenhouse inner duct 146: Duct body
147: jet hole 148: duct opening / closing cover
150: detection sensor member 151: wind speed detection sensor
152: Humidity sensor 153: Temperature sensor
155: elevating member 156: hanger member

Claims (10)

Greenhouse outer wall;
A greenhouse inner wall arranged at a predetermined distance inward from the outer wall of the greenhouse and planted and planted therein;
An air conditioning member disposed in a space between the outer wall of the greenhouse and the inner wall of the greenhouse to perform air conditioning with respect to the inner wall of the greenhouse;
A greenhouse inner duct installed at a predetermined length along the bottom of the inner wall of the greenhouse to allow air passing through the air conditioning member to flow from the bottom of the greenhouse inner wall to the air inside the greenhouse inner wall;
A sensing sensor member capable of measuring at least one of a temperature, a humidity, and a wind speed of a height corresponding to a degree of growth of the cultivation object planted in the inner wall of the greenhouse;
A hanger member suspended from the detection sensor member;
A lifting member capable of lifting the hanger member so that the detection sensor member can be positioned at a height corresponding to the degree of growth of the cultivation object; And
And a control member for operating the elevating member such that the sensing sensor member is positioned at a height corresponding to the degree of growth of the culturing object sensed by the sensing sensor member. Greenhouse outer wall;
A greenhouse inner wall arranged at a predetermined distance inward from the outer wall of the greenhouse and planted and planted therein;
An air conditioning member disposed in a space between the outer wall of the greenhouse and the inner wall of the greenhouse to perform air conditioning with respect to the inner wall of the greenhouse;
A plurality of the air conditioning units are installed at different heights on the inner wall of the greenhouse so that the air conditioning unit can interact with the portions of the interior of the greenhouse that match the degree of growth of the object to be cultivated, A plurality of opening / closing dampers for opening the inner wall of the greenhouse at a height corresponding to a degree of growth of the greenhouse;
A sensing sensor member capable of measuring at least one of a temperature, a humidity, and a wind speed of a height corresponding to a degree of growth of the cultivation object planted in the inner wall of the greenhouse;
A hanger member suspended from the detection sensor member;
A lifting member capable of lifting the hanger member so that the detection sensor member can be positioned at a height corresponding to the degree of growth of the cultivation object; And
And a control member for operating the elevating member such that the sensing sensor member is positioned at a height corresponding to the degree of growth of the culturing object sensed by the sensing sensor member. delete delete Greenhouse outer wall;
A greenhouse inner wall arranged at a predetermined distance inward from the outer wall of the greenhouse and planted and planted therein;
An air conditioning member disposed in a space between the outer wall of the greenhouse and the inner wall of the greenhouse to perform air conditioning with respect to the inner wall of the greenhouse;
A plurality of the air conditioning units are installed at different heights on the inner wall of the greenhouse so that the air conditioning unit can interact with the portions of the interior of the greenhouse that match the degree of growth of the object to be cultivated, A plurality of opening / closing dampers for opening the inner wall of the greenhouse at a height corresponding to a degree of growth of the greenhouse;
A sensing sensor member capable of measuring at least one of a temperature, a humidity, and a wind speed of a height corresponding to a degree of growth of the cultivation object planted in the inner wall of the greenhouse; And
And a control member for opening the opening / closing damper of a height corresponding to the degree of growth of the object to be cultivated, which is detected by the detection sensor member, of the multi-stage opening / closing damper. delete delete delete delete delete

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