KR101931605B1 - Local environment management unit with moving upward and downward and method for managing local environment using the same - Google Patents

Abstract

The environmental management apparatus according to the present invention relates to a local environment management apparatus capable of ascending and descending, comprising: a take-up shaft (100) fastened to a roof frame (30) of a greenhouse; A first duct 200 positioned in parallel at a lower portion of the take-up shaft 100; And a second duct 250 connected to one end of the first duct 200 so as to be branched so that the first duct 200 receives cold water and hot water supplied from the hot / A cold / hot water pipe 210; And an air blowing fan (240) for blowing air supplied from both sides of the second duct (250). The first duct (200) includes an environmental management device The present invention provides an environmental management method capable of controlling an environmental management apparatus in one mode selected from a local heating mode, a local cooling mode, a moisture correction promotion mode, a photosynthesis promotion mode, and a forced ventilation mode.

Description

[0001] The present invention relates to a lifting type local environment management apparatus and an environmental management method,

And more particularly, to a local environment management apparatus capable of lifting and lowering and an environment management method using the same.

The internal air of the greenhouse is difficult to control temperature, humidity, and airflow uniformly, so it is generally kept in a non-uniform state.

Specifically, in the conventional greenhouse environment management apparatus, environmental management is performed for most of the interior space of a greenhouse. Such environmental management apparatuses cause environmental irregularities in the interior of the greenhouse due to the limitation of the arrangement of the air conditioners inside the greenhouse .

Such unevenness in the temperature, humidity and airflow of the air inside the greenhouse caused problems such as making the growth of the crops uneven and necessitating excessive operation of the air conditioning and heating air conditioner. As a result, crops in the greenhouse suffered from problems such as insect pests, decreased productivity, and increased energy costs for producing crops.

According to the results of the study conducted by the Japanese Vegetable Research Institute, it was found that only 13 trees near the growth point and blooming area of the ripe tomato community were locally heated, and the yield was similar to that of heating the entire space of practice to 13 and the fuel consumption was reduced by about 26% .

In addition, the local cooling and heating technology using the cold and hot water pipe developed by the Kyushu Okinawa Agricultural Research Center in Kyushu was able to greatly increase the early water quantity until the end of February when the price was high. Has been reported to reduce fuel consumption by 45% compared to existing space heating systems.

In addition, a study on the effect of airflow composition in the tomato community of Chiba University of Japan showed that the photosynthesis was promoted at 0.1 ~ 0.5m / s wind speed and the highest increase was observed at 0.5m / s.

Based on these experimental results, the present inventor has developed an environment control device capable of managing the local environment of the crop inside the greenhouse for efficient environmental management of the greenhouse.

KR 10-1578187 B1 KR 10-1509461 B1 CN 101576753 A

Since the conventional greenhouse heating or cooling management system is intended for the entire interior of the greenhouse, the energy required for heating and cooling is inevitably excessive.

In addition, it is difficult to manage the local environment for the temperature-sensitive organs in which the position varies depending on the crop and the position of the plant changes depending on the growth.

In addition, in order to accelerate photosynthesis, enhance water repellency, and forcibly ventilate, there have been limitations on the precise airflow composition in the crop community by using several circulation fans and forced ventilation fans installed in the greenhouse.

According to an aspect of the present invention, there is provided a wind turbine comprising: a wind-up shaft (100) fastened to a roof frame (30) of a greenhouse; A first duct 200 positioned in parallel at a lower portion of the take-up shaft 100; And a second duct 250 connected to one end of the first duct 200 so as to be branched so that the first duct 200 receives cold water and hot water supplied from the hot / A cold / hot water pipe 210; And an air blowing fan 240 for blowing air supplied from the second duct 250. The first duct 200 is lifted and lowered by the wind-up shaft 100. [

The first duct 200 may further include one or more perforations 220. The perforations 220 may be located in the entire length of the first duct 200 and may be formed by operation of the ventilation fan 240 It is preferable to discharge the supplied air.

The air introduced from the second duct 250 flows into the first duct 200 by the blowing fan 240 and the air introduced into the first duct 200 flows through the cold / , And is exhausted through the perforations 220. [0052] As shown in FIG.

In addition, it is preferable that the outside air of the greenhouse flows into one side of the second duct 250 and the inside air of the greenhouse flows into the other side of the second duct 250.

Further, it is preferable that the take-up shaft 100 is fastened to the roof frame 30 by the fastening part 130.

The first duct 200 and the take-up shaft 100 are connected to each other by a take-up wire 122. When the take-up wire 122 is wound on the drum 120 of the take-up shaft 100, .

The environment management apparatus may further include one or more temperature and humidity sensors 410 installed inside and outside the greenhouse, and the temperature and humidity sensed by the temperature / humidity sensor 410 may be provided to the controller 400 Do.

The control unit 400 controls the operation of the blowing fan 240 and the duct opening / closing unit 252 located in the second duct 250 based on the sensed temperature and humidity values, It is preferable to control opening and closing of both sides.

In order to solve the above problems, an environmental management method using an environment management apparatus according to an embodiment of the present invention is characterized in that the environmental management apparatus includes a local heating mode, a local cooling mode, Mode, a photosynthesis promotion mode, and a forced ventilation mode.

According to the present invention, the energy cost can be reduced when the interior of the greenhouse is heated or cooled.

In addition, since the environmental management apparatus according to the present invention improves the growth of crops, the productivity of crops can be increased.

In addition, the plant can be cooled or heated close to the position of the temperature-sensitive organs according to the type of crop, thereby maximizing the growth of crops.

In addition, it senses the temperature inside and outside of the greenhouse to perform an environment management mode suitable for the situation, and can selectively introduce air into the duct to provide an optimal environment suitable for the growth environment for each crop.

FIG. 1A is a perspective view of an environment management apparatus according to the present invention, and FIG. 1B is a fluid flow diagram of an environment management apparatus according to the present invention.
2 is a system diagram of an environmental management apparatus according to the present invention.
FIG. 3A illustrates an embodiment of an environment management apparatus according to the present invention.
FIG. 3B is a fluid flow chart according to an operation of the environment management apparatus according to an embodiment. FIG.
4A shows another embodiment of the environment management apparatus according to the present invention.
4B is a fluid flow chart according to the operation of the environment management apparatus according to another embodiment.

Hereinafter, an environment management apparatus and an environment management method according to the present invention will be described in detail with reference to the drawings. Here, the constituent elements of the present invention can be used integrally or separately from each other as needed. In addition, some components may be omitted depending on the usage form. Various modifications can be made in the form and the number of elements of the present invention.

Environmental management device

The environmental management apparatus according to the present invention is coupled to a roof frame 30 of a greenhouse 10 and includes a windup shaft 100, a first duct 200, a second duct 250, a tank 300, and a controller 400 ).

The winding shaft 100 moves up and down the first duct 200 and the second duct 250 and includes a motor 110, a drum 120, and a fastening part 130.

The motor 110 operates the take-up shaft 100 and rotates the drum 120 included in the take-up shaft 100 to rotate the take-up shaft 122 connected to the drum 120 of the take- Wind it.

The winding wire 122 is connected to the drum 120 and is operated in accordance with the operation of the winding shaft 100 by the motor 110 to wind the winding wire 122.

The other side of the winding wire 122 is connected to the first duct 200 and extends over the entire length of the first duct 200 so that the winding shaft 100 and the first duct 200 can be stably connected have.

The height of the first duct 200 and the height of the second duct 250 are controlled by adjusting the length of the winding wire 122 by the operation of the winding shaft 100. [

The winding shaft 100 is fastened to the roof frame 30 of the greenhouse 10 by the fastening portion 130.

The first duct 200 is connected to the take-up shaft 100 and is wound up and raised. The first duct 200 is positioned in parallel with the take-up shaft 100 at a lower portion of the take-

The first duct 200 includes a cold / hot water pipe 210, one or more apertures 220, and a blowing fan 240.

The cold / hot water pipe 210 is supplied with cold water (or a water-cooled gas) and warm water (heating water) supplied from the cold / hot water supply unit 211.

The hot and cold water supply unit 211 is connected to one or more tanks 300 located outside the greenhouse 10 and can receive hot water or cold water supplied from the tank 300.

Preferably, the cold / hot water supply unit 211 may be started to correspond to the tank 300.

The perforations 220 are positioned to extend over the entire length of the first duct 200 and exhaust air in the first duct 200.

Specifically, the air supplied into the first duct 200 by the blowing fan 240 is heated or cooled by the cold / hot water pipe 210 so that the heated or cooled air flows through the first duct 200 200, respectively.

The blowing fan 240 blows air supplied from one side or the other side of the second duct 250 to the inside of the first duct 200.

The second duct 250 is connected to one end of the first duct 200 and branched into one side and the other side to receive air inside and outside the greenhouse.

One side of the second duct 250 is connected to the outside of the greenhouse, and the other side of the second duct 250 is connected to the inside of the greenhouse.

Accordingly, the outside air of the greenhouse flows into one side of the second duct 250, and the inside air of the greenhouse flows into the other side of the second duct 250.

The tank 300 is connected to the heat pump 310 to adjust the temperature of the fluid inside the tank 300 by the heat pump 310. Accordingly, it may be a heat storage tank or a cold storage tank, but not limited thereto, and may further include a tank having a different temperature.

The heat pump 310 is connected to the tank 300 and can control the temperature of the fluid located inside the tank 300.

The pump 350 is located on the line between the discharge line of the tank 300 and the cold / hot water supply unit 211 and can supply cold or hot water to the cold / hot water supply unit 211 under the control of the control unit 400.

The control unit 400 is connected to the motor 110, the blowing fan 240, the duct opening and closing unit 252, the pump 350 and the temperature and humidity sensor 410 to control the motor 110, the blowing fan 240, ), The pump 350, and the temperature / humidity sensor 410.

Preferably, the temperature and humidity of the outside and inside of the greenhouse 10 are sensed through the temperature and humidity sensor 410, and the ventilation fan 240 and the duct opening and closing part 252 can be controlled based on the sensed temperature and humidity.

Specifically, the control unit 400 controls the operation of the motor 110 to control the lifting and lowering of the first duct 200 and the second duct 250, and controls the opening and closing of the duct opening and closing unit 252, One side and the other side of the duct 250 can be opened and closed. In addition, the control unit 400 may perform an operation mode of an environment management method to be described later on the basis of the resultant value sensed by the temperature / humidity sensor 410.

The temperature and humidity sensor 410 is installed inside and outside the greenhouse 10, and preferably two or more in the outside and inside.

The temperature and humidity values sensed by the temperature and humidity sensor 410 are provided to the controller 400.

Environmental management of environmental management device mode

The environmental management method using the environment management apparatus according to the present invention can manage the environment inside the greenhouse 10 by controlling the environment management apparatus in five modes.

The environmental management mode of the environmental management apparatus according to the present invention includes a local heating mode, a local cooling mode, a moisture correction promotion mode, a photosynthesis promotion mode, and a forced ventilation mode.

3 (a) and 3 (b) are controlled by the environmental management apparatus in the local heating mode or the local cooling mode will be described.

When the environment management apparatus is controlled in the local heating mode, the hot water of the heat storage / axial cooling apparatus 300 or the hot water boiler is supplied to the cold / hot water supply unit 211 by using the pump 350.

At this time, the duct opening / closing part 252 is controlled to open the other side of the second duct 250, so that the air inside the greenhouse is supplied into the first duct 200 through the blowing fan 240.

As a result, warm air is supplied to the temperature-sensitive organ (stem end growth point) of the crop in the greenhouse.

In the local heating mode, the ON / OFF of the pump 350 and the blowing fan 240 is controlled by using the temperature and humidity sensor 410 provided adjacent to the temperature sensitive organ part of the crop and the preset heating set temperature.

When the environmental management apparatus is controlled in the local cooling mode, the chilled water of the storage / cooling tank 300 or the chiller is supplied to the cold / hot water supply unit 211 by using the pump 350.

At this time, the duct opening / closing part 252 is controlled so that one side of the second duct 250 is opened, and the air outside the greenhouse is supplied into the first duct 200 through the blowing fan 240.

As a result, cold air is supplied to the temperature sensitive organ of the crop in the greenhouse.

In the local cooling mode, the ON / OFF of the pump 350 and the blower fan 240 is controlled using a temperature and humidity sensor 410 and a preset cooling temperature set at a location adjacent to the temperature sensitive engine part of the crop.

For example, the cultivation period of the incentive crop such as tomato, paprika, cucumber, etc. moves upward along with the growth of the crop, so that the environment management apparatus according to the present invention also operates the motor 110 to operate the first duct 200 and the second duct 250 are moved upward to match the height of the growth point.

4A and 4B, a case where the environment management apparatus is controlled in any one of the moisture correction promotion mode, the photosynthesis promotion mode, and the forced ventilation mode will be described.

A case where the environment management apparatus is controlled in the moisture correction acceleration mode will be described with reference to Figs. 4 (a) and 4 (b).

This mode is controlled when the environmental management system is controlled in the moisture correction promoting mode, and when the water temperature correction is not smooth under the high temperature condition inside the greenhouse or the low temperature and high humidity at night.

In the moisture correction promoting mode, the controller 400 controls the blower 240. The control unit 400 controls the motor 110 to position the first duct 200 and the second duct 250 at the positions of the flowering flowers of the crop. For this purpose, the control unit 400 may receive the location information of the flower from the user, or receive the location information of the flower calculated through the location derived from the experiment result. At this time, the cold water and the heating water do not pass through the cold / hot water pipe 210, and only the blowing fan 240 operates. The control unit 400 controls the blowing fan 240 to operate the blowing fan 240 continuously or intermittently so as to disperse the pollen of the crop located adjacent to the first duct 200 to assist moisture correction .

Moisture Correction Promotion Mode It is also possible to operate in the same manner as the photosynthesis promotion mode by judging that the temperature inside the greenhouse is higher or lower than the optimum growth temperature of the crop in the winter season or summer season.

The case where the environment management apparatus is controlled in the moisture correction promotion mode will be described with reference to Figures 4 (a) and 4 (b). When the environment management apparatus is controlled in the photosynthesis promotion mode, The first duct 200 and the second duct 250 are moved up and down by operating the motor 110 at a preset time. At this time, the first duct 200 and the second duct 250 move close to the upper and lower parts of the crop plant, the cold water and the heating water do not pass through the cold / hot water pipe 210 in the first duct 200, Only the blowing fan 240 in the duct 200 is operated.

Further, in the photosynthesis promotion mode, the control of the control unit 400 is different depending on whether the temperature inside the greenhouse is higher than the optimum growth temperature of the crop.

First, when the temperature inside the greenhouse sensed by the temperature and humidity sensor 410 is equal to or higher than the optimum growth temperature of the crop, the control is further divided into a summer season and a winter season.

The control unit 400 controls the duct opening and closing unit 252 to open one side of the second duct 250 and control the blowing fan 240 to introduce the outside air of the greenhouse into the second duct 250, The entire upper and lower parts of the crop can be blown. As a result, the photosynthetic effect is enhanced by promoting plant transpiration.

The control unit 400 controls the duct opening and closing unit 252 to open the other side of the second duct 250 and control the blowing fan 240 to introduce the air inside the greenhouse 250 into the second duct 250.

Next, when the temperature inside the greenhouse sensed by the temperature and humidity sensor 410 is lower than the optimum growth temperature of the crop, The control unit 400 controls the duct opening and closing unit 252 to open the other side of the second duct 250 and control the blowing fan 240 to introduce the inside air of the greenhouse into the second duct 250.

Through the operation of the control unit 400, the transpiration of the crop is promoted and the photosynthesis effect is enhanced.

A case where the environment management apparatus is controlled in the forced ventilation mode will be described with reference to Figs. 4 (a) and 4 (b) (c).

When the environmental management system is controlled in the forced ventilation mode, it is set when the lower part of the crop occurs frequently due to a rise in humidity at night or during the rainy season in winter.

 When heating the nighttime in the winter season, the first duct 200 and the second duct 250 are positioned so as to be positioned below the crop body, and the heating water is supplied into the cold / hot water pipe 210, The air supplied by the other side is heated and then exhausted to prevent the humidification of the lower portion of the crop.

The controller 200 controls the heights of the first duct 200 and the second duct 250 to a predetermined height so that the first duct 200 and the second duct 250 are positioned adjacent to the crop . In addition, the control unit 200 controls the blowing fan 240 so that the air introduced into the first duct 200 is exhausted to the vicinity of the crop body, thereby reducing excessive humidification by stirring with ambient air. At this time, the control unit 400 controls the temperature of the air in the first duct 200 to supply air having relatively low humidity inside and outside the greenhouse to the first duct 200 using the temperature and humidity sensor 410 installed inside and outside the greenhouse 10, And controls the opening / closing unit 252.

While the present invention has been 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 present invention as defined by the following claims. It will be appreciated that embodiments are possible. Accordingly, the scope of protection of the present invention should be determined by the claims.

30: Framework of greenhouse roof
100:
110: motor
120: Drums
122: winding machine
130:
200: First duct
210: Hot and cold water piping
211: Hot /
220: Perforation
222:
240: blowing fan
250: Second duct
252: duct opening /
300: Heat storage / cold storage
310: Heat pump
350: pump
400:
410: Temperature and humidity sensor

Claims (9)

A wind-up shaft (100) fastened to a roof frame (30) of a greenhouse;
A first duct 200 positioned in parallel at a lower portion of the take-up shaft 100; And
And a second duct 250 connected to one end of the first duct 200 so as to branch off,
The first duct (200)
A cold / hot water pipe 210 supplied with cold water and hot water supplied from the cold / hot water supply unit 211; And
And a blowing fan (240) for blowing air supplied from the second duct (250)
The first duct 200 and the second duct 250 are lifted and lowered together by the winding shaft 100,
The outside air of the greenhouse flows into one side of the second duct 250,
The inside air of the greenhouse flows into the other side of the second duct 250,
The outside air and the inside air of the greenhouse are selectively introduced by the second duct 250,
Further comprising one or more temperature and humidity sensors (410) installed inside and outside the greenhouse,
The temperature and humidity sensed by the temperature / humidity sensor 410 are supplied to the controller 400. In the environment management method using the environment management apparatus,
The environmental management apparatus can be controlled by the control unit 400 in any one of the local heating mode, the local cooling mode, the moisture correction promotion mode, the photosynthesis promotion mode, and the forced ventilation mode,
In the environmental management method,
(a0) The position information of the crop in the greenhouse including the temperature and humidity of the inside and outside of the greenhouse, the photosynthesis start time, the upper and lower positions of the crop plant, the positions of the flowering flowers, And collecting season information,
The environmental management method according to the local heating mode includes:
(a1) placing the first duct (100) and the second duct (250) at a position of the temperature sensitive organ in the controller (400); And
(a2) supplying the hot water to the cold / hot water supply unit 211 by the controller 400; And
(a3) the controller (400) opens the other side of the second duct (250) and operates the blower fan (240)
The environmental management method according to the local cooling mode includes:
After the step (a1)
(a2) supplying the cold water to the cold / hot water supply unit (211) by the controller (400); And
(a3) the control unit 400 opens one side of the second duct 250 and operates the blowing fan 240,
The environmental management method according to the moisture correction promotion mode includes:
(c1) placing the first duct (100) and the second duct (250) at the position of the flowering flower in the controller (400); And
(c2) shutting off the cold water and heating water in the cold / hot water pipe (210) and operating the blower fan (240)
In the environmental management method according to the photosynthesis promotion mode,
(d1) raising and lowering the first duct (200) and the second duct (250) so that the control unit (400) is adjacent to the upper and lower positions of the crop community at the photosynthesis start time;
(d2) determining whether the temperature inside the greenhouse is equal to or higher than a predetermined growth temperature of the predetermined crop;
(d3) when the temperature inside the greenhouse is equal to or higher than the optimum growth temperature of the predetermined crop, the control unit (400) recalls the season information;
(d4) When the season information is summer season, the controller 400 opens one side of the second duct 250 and operates the blowing fan 240 to move the second duct 250 toward the inside of the second duct 250 Introducing outside air of the greenhouse; And
(d5) If the temperature inside the greenhouse is lower than the optimum growth temperature of the predetermined crop or the seasonal information is winter season, the controller 400 opens the other side of the second duct 250, (240) to flow the air inside the greenhouse (250) into the second duct (250)
The environmental management method according to the forced ventilation mode includes:
(e1) receiving the time information and the rainy season information from the controller 400;
(e2) positioning the first duct (200) and the second duct (250) at a lower position of the crop community;
(e3) When the controller 400 determines that the season information is in the winter season and the time information is determined to be night by a preset reference, the controller 400 opens the other side of the second duct 250 Supplying hot water to the cold / hot water pipe (210) to heat and exhaust air supplied to the second duct (250); And
(e4) When the rainy season information is confirmed in the controller 400, the controller 400 controls one side or the other side of the second duct 250 in which air having relatively low humidity is inside and outside the greenhouse Opening the first duct (200), and supplying the first duct (200)
A method for environmental management of a greenhouse using a lift - type local environment management device.
The method according to claim 1,
The first duct 200 may further include one or more apertures 220,
The perforation 220 is located in the entire length of the first duct 200 and discharges the air supplied by the operation of the ventilation fan 240. [
A method for environmental management of a greenhouse using a lift - type local environment management device.
3. The method of claim 2,
The air introduced from the second duct 250 flows into the first duct 200 by the blowing fan 240,
The air introduced into the first duct 200 is heated or cooled by the cold / hot water pipe 210 and is exhausted through the perforations 220.
A method for environmental management of a greenhouse using a lift - type local environment management device.
delete The method according to claim 1,
The take-up shaft 100 is fastened to the roof frame 30 by a fastening part 130,
A method for environmental management of a greenhouse using a lift - type local environment management device.
The method according to claim 1,
The first duct 200 and the winding shaft 100 are connected by a winding wire 122,
Up shaft 122 is lifted and lowered as it is wound on the drum 120 of the take-up shaft 100,
A method for environmental management of a greenhouse using a lift - type local environment management device.
delete The method according to claim 1,
The control unit 400 controls the operation of the blowing fan 240 and the duct opening and closing unit 252 located in the second duct 250 based on the sensed temperature and humidity values, Which controls the opening /
A method for environmental management of a greenhouse using a lift - type local environment management device. delete

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