KR101499021B1 - Greenhouse - Google Patents

Abstract

The present invention relates to a greenhouse capable of efficiently ventilating the interior of a greenhouse, keeping warm and shading, and ventilating without rainwater flowing into a greenhouse even in case of rainy weather. Type greenhouses 100 are formed on both lower sides of the greenhouses 100. The interior of the greenhouses includes an inner transparent film layer 200, a shading sheet layer 300 that can be opened and closed, In the greenhouse formed with the above-
The greenhouses have one greenhouse framework 110 extending from one side to the upper center and the other greenhouse framework 120 extending from the other side to the upper center of the greenhouse at regular intervals along the longitudinal direction of the greenhouse, The upper center front end of the one greenhouse framework 110 is formed to be higher than the upper center front end of the other greenhouse framework 120 so that a space And a support 160 supporting a top end portion of the one side and the other side of the greenhouse frame is provided at a central portion of the greenhouse at regular intervals , And the inner transparent film layer (200) is divided into one inner transparent layer (210) and the other inner transparent layer (220), centered on the upper center portion of the greenhouse, The upper center front end of the bright layer is formed lower than the upper center front end of the other inner transparent layer so that a space 230 is provided between one side and the other side transparent film layer and an inner opening and closing window 240 is provided in the space .

Description

Greenhouse {Greenhouse}

The present invention relates to a greenhouse capable of effectively ventilating the inside of a greenhouse, keeping warm and shading, and ventilating without rainwater flowing into the greenhouse even in case of rainy weather.

In general, greenhouses such as large greenhouses and glass greenhouses are installed and operated in order to massively produce large amounts of crops such as vegetables, flowers, or fruit trees.

However, such crops such as vegetables and flowers require proper temperature and mining of their growth characteristics, so that ventilation is required to ensure proper lighting in the operation and maintenance of the greenhouse while keeping the room temperature at a proper level It is important.

For example, when shading is performed to maintain a proper temperature in a room at a high temperature, adverse effects on the growth of crops are caused due to poor lighting. On the other hand, in order to secure sufficient light, it is difficult to maintain the proper temperature in the room, do.

Accordingly, there is a method of providing a window in a greenhouse and ventilating the greenhouse as necessary, thereby securing the necessary light for growth of the crop and maintaining the indoor temperature.

However, since a typical greenhouse window adopts a typical hinge method in which the other end is rotated and opened at its one end, most of the structural characteristics (for supporting the greenhouse by the wind when the window is opened) It is difficult to exceed 12 to 20% of the total surface area, whereby it is impossible to keep the room at a required temperature.

That is, the appropriate temperature for growing conditions of the crop is somewhat different depending on the type of crop to be cultivated, but about 25 to 30 ° C is suitable, and the room temperature of the greenhouse during the high temperature reaches about 70 to 80 ° C , Even when the window is completely opened, the inside and outside of the building can not flow smoothly due to the structure that the area is too narrow, and it reaches about 40-50 ° C, which makes it practically impossible to cultivate the crop.

Therefore, conventionally, the indoor temperature of a greenhouse is forcibly lowered by using a sprinkler, a fan, and an air conditioner in a high-temperature period. This requires a great cost to the farmhouse, and it is difficult .

In order to reduce the heat loss to the outside in the low-temperature period, the greenhouse is constructed by installing vinyl or the like as double or triple, and the installation and maintenance of the greenhouse is considerably troublesome, Of the temperature rise. The above problems also appear in other structures requiring a large amount of room ventilation, such as factories and various storage facilities.

Patent Document 1: [0010] Patent Document 10-2009-0051487

The present invention can effectively control the temperature inside the greenhouse, thereby saving heating cost, and can effectively ventilate the inside of the greenhouse, keep the room warm and shade as needed, and prevent rainwater from flowing into the greenhouse, The present invention provides a greenhouse that is easy to control the temperature and the amount of sunshine so that it can be easily ventilated.

According to an aspect of the present invention, there is provided a tunnel type greenhouse in which various plants are grown, wherein each side opening and closing window is formed on both lower sides of the tunnel type greenhouse, In the greenhouses in which the inner transparent film layer 200, the light-shielding sheet layer 300 that can be opened and closed, and the insulating layer 400 are formed,
The greenhouses have one greenhouse framework 110 extending from one side to the upper center and the other greenhouse framework 120 extending from the other side to the upper center of the greenhouse at regular intervals along the longitudinal direction of the greenhouse, The upper center front end of the one greenhouse framework 110 is formed to be higher than the upper center front end of the other greenhouse framework 120 so that a space And a support 160 supporting a top end portion of the one side and the other side of the greenhouse frame is provided at a central portion of the greenhouse at regular intervals , And the inner transparent film layer (200) is divided into one inner transparent layer (210) and the other inner transparent layer (220), centered on the upper center portion of the greenhouse, The upper center front end of the bright layer is formed lower than the upper center front end of the other inner transparent layer so that a space 230 is provided between one side and the other side transparent film layer and an inner opening and closing window 240 is provided in the space .

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The greenhouse according to the present invention having the above-described structure can effectively manage the temperature of the inside of the greenhouse, thereby saving heating cost, as well as effectively ventilating the inside of the greenhouse, keeping warm and shading, Can be ventilated without flowing into the greenhouse, thereby promoting the growth of the cultivated plant and increasing the harvest.

1 is a perspective view schematically showing a greenhouse according to the present invention,
2 is a front view schematically showing a greenhouse according to the present invention,
Figures 3a and 3b are cross-sectional views illustrating embodiments of a greenhouse framework in a greenhouse according to the present invention,
4 is a sectional view showing an embodiment of a top opening / closing window in a greenhouse according to the present invention,
5 is a sectional view showing an embodiment of an internal opening / closing window in a greenhouse according to the present invention,
6 is a view for explaining the function of the light shielding and keeping means in the greenhouse according to the present invention,
FIG. 7 is a sectional view showing the construction of a greenhouse frame in a greenhouse in accordance with the present invention. FIG.

A greenhouse according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 3B, two pipes 112 and 122 are installed in parallel to each other at regular intervals and are connected to each other through connection ports 111 and 121, .

In the greenhouse of the present invention using the double greenhouse framework having the above structure, one greenhouse framework 110 extending from one side of the ground to the upper center and the other greenhouse framework 120 extending from the other side of the ground to the upper center of the greenhouse, And the upper center front end of the one greenhouse framework 110 is connected to the upper center front end portion of the other greenhouse framework 120 by a transparent film, A space 130 is provided between the upper portions of one side and the other side of the greenhouse frame and an upper opening and closing window 140 is provided in the space. In the central portion of the greenhouse, upper end portions of the one and the other side greenhouse framework are supported The struts 160 may be provided at regular intervals along the longitudinal direction of the greenhouse.

The reason why the upper center front end of the one greenhouse framework 110 is higher than the upper center front end of the other greenhouse framework 120 is to provide a space 130 for installing the upper opening and closing window 140, The reason why the upper opening / closing window 140 is provided in the space 130 is that it is provided for temperature management and ventilation of the inside of the greenhouse. When the internal temperature of the greenhouse is higher than the target temperature, The window 140 is opened so that the high hot air and the cloudy air inside the greenhouse can be discharged to the outside of the greenhouse.

On the other hand, when the upper opening / closing window 140 is opened, the side opening / closing window 150 is opened to allow the air outside the greenhouse to enter the inside of the greenhouse through the side opening and closing window 150, The air is exhausted through the opening / closing window 140, so that the air inside the greenhouse is ventilated and the temperature is reduced.

Shielding window 300 and the heat insulating layer 400 to be described below are installed in the upper opening and closing window 140 and the side opening and closing window 140. In order to reduce the temperature of the inside of the greenhouse, It must be opened together with the opening and closing window 150.

The reason for providing the pillars 160 of the present invention is to support and support the top end portions of the one and the other greenhouse frameworks 110 and 120 so that the spacing of the pillars 160 can be reduced, 120 and the number of the other side greenhouse frameworks 110 and 120 is less than the number of the other side greenhouse frameworks 110 and 120. If the number of the support pillars 160 is less than the number of the one and the other greenhouse frameworks 110 and 120, The auxiliary struts may be installed between horizontal and vertical supporting bars to support and support a part of the first and second greenhouse frameworks 110 and 120.

As shown in FIG. 3A, in the embodiment of the double greenhouse framework according to the present invention, a pipe 112 arranged at a predetermined distance inward / The fixing member 213 of the transparent film F may be provided to fix the transparent film F or to fix the transparent film F to the outside of the pipe 122 arranged at a predetermined distance inward / It is also possible to form the fixing groove 223 on the upper part of the pipe located in the fixing groove 223 and to fix the fixing groove 223 using a fixing member 224 for fixing the transparent film F. [

1, a side opening / closing window 150 is formed on both sides of the greenhouse of the present invention to ventilate the interior of the greenhouse. Such a side opening and closing window 150 has already been applied to various types of greenhouses And a detailed description thereof is omitted.

4, the upper opening / closing window 140 is provided with a film F extending from the upper end to the lower end of the space 130, and the upper end of the film F is fixed by the fixture 141 And a rotary pipe 142 is connected to the lower end of the film F. A forward and reverse motor 143 is connected to one end of the rotary pipe 142, The rotary pipe 142 is configured to open or close the upper opening / closing window 140 by winding up or unwinding the film F according to the operating direction of the motor 143.

The upper portion of the film F and the lower portion of the space 130, that is, the lower end of the film F, are provided in order to prevent displacement of the rotation pipe 142 provided at the lowermost end of the film F. [ And a wire 146 is provided between the fasteners 144 and 145 to prevent displacement of the rotary pipe 142 when the rotary pipe 142 moves up and down.

2 and 6, the inner transparent film layer 200, the light-shielding layer 300 and the insulating layer 400 that can be opened and closed are formed in the greenhouse, The inner transparent film layer 200 is intended to further enhance the effect of heat insulation and the light shielding layer 300 is formed in the greenhouse The insulated layer 400 serves to insulate the internal temperature of the greenhouse when the outside temperature of the greenhouse is at a temperature that adversely affects the plant being grown in the greenhouse.

2, the inner transparent film layer 200 is divided into one inner transparent layer 210 and the other inner transparent layer 220 centered on the upper center portion of the greenhouse, The upper center front end of the layer 210 is formed lower than the upper center front end of the other inner transparent layer 220 to provide a space 230 between the inner and the other inner transparent film layers 210 and 220, And an opening / closing window 240 is provided.

The reason why the inner transparent film layer 200 is formed on the inside upper part of the greenhouse as described above is to increase the heat insulating effect inside the greenhouse as described above, The reason for installation is to smooth the ventilation of the air inside the greenhouse.

Meanwhile, the inner transparent layer 210 and the inner transparent layer 220 may be formed by arranging inner transparent film supporting members 211 and 221, which are either wire ropes or support pipes, at regular intervals, And an inner transparent film is covered on the transparent film supporting members 211 and 221.

5, a film F extending from the upper end to the lower end of the space 230 is provided and the upper end of the film F is fixed to the fixture 241, A rotary pipe 242 is connected to the lower end of the foil F and a forward and reverse motor 243 is connected to one end of the rotary pipe 242 And the film F is rolled up or loosened according to the operating direction of the forward and reverse motor 243 to open and close the inside opening and closing window 240.

When the internal opening / closing window 240 is opened, air inside the greenhouse is to be discharged to the outside. When closing the internal opening and closing window 240, the heat insulating effect inside the greenhouse is desired to be enhanced. However, when opening the inner opening / closing window 240 to exhaust the air inside the greenhouse to the outside, the upper opening / closing window 240 should be opened as well.

The upper portion of the space 230 and the upper portion of the film F and the lower portion of the space 230 are provided in order to prevent the rotation pipe 142 provided at the lowermost end of the film F in the inner opening / That is, the fasteners 244 and 245 are provided at the lower portion of the lower portion of the film F, and wires 246 are provided between the fasteners 244 and 245 to move the rotary pipe 242 Thereby preventing displacement.

6, the light-shielding layer 300 and the insulating layer 400 are provided to be openable and closable on the inner side of the greenhouse of the present invention, that is, below the inner transparent film layer 200, The reason for the installation is to control the amount of sunshine of plants grown inside the greenhouse. The reason for installing the insulating layer 400 is to save the heating cost by increasing the thermal insulation inside the greenhouse when the outside temperature is low to be.

The light shielding layer 300 is provided with a light shielding screen 315 which is divided into two on both sides of the central portion of the greenhouse. The light shielding screen 315, which is provided on both sides of the light shielding screen 315, supports the light shielding screen 315, Pipes 316 are installed at regular intervals.

The shielding screen 315 located on the support pipe 316 is connected to the opening and closing wire 312 at the tip thereof to pull the shielding screen 315 toward one side or the other side to open and close the opening and closing wire 315, 312 are connected to a winding drum 313 interlocked with the forward and reverse motors 314 so that the winding drum 313 is rotated in the forward and reverse directions according to the operating direction of the forward and reverse motors 314, 315 are pulled forward or pulled backward to open and close the light shielding screen 315.

 The light-shielding screen 315 supports the lower part of the light-shielding screen, and supports the light-shielding screen securely by supporting the lower part of the light-shielding screen 315 at a predetermined interval. The light shielding screen 315 can be easily opened and closed.

Each of the front ends of the support pipe 315 is connected to the struts 160 and each rear end of the light shielding screen 315 is supported and fixed by the fixing means 600. However, the fixing means 600 for fixing the rear end portions of the light shielding screen 315 can be any structure that can support and fix the respective rear end portions of the light shielding screen 315.

The heat insulating layer 400 is provided with a heat insulating screen 415 so as to be divided into two portions on the lower side of the light shielding layer 300, that is, the center portion of the greenhouse. The heat insulating screen 415, 415 and support pipes 416 supporting the support pipes 416 are installed at regular intervals.

As described above, the heat insulating screen 415 located on the support pipe 416 is connected to the opening / closing wire 412 at its front end to open and close the insulating screen 415 by pulling the heat insulating screen 415 toward one side or the other side. 412 are connected to a winding drum 413 interlocked with the forward and reverse motors 414 so that the winding drum 413 is rotated in the forward and reverse directions according to the operating direction of the forward and reverse motors 414, 415 is pulled forward or pulled backward to open / close the heat insulating screen 415.

 In addition, since the support screen 415 supports the lower part of the insulating screen and supports the lower part of the insulating screen 415 at a predetermined interval, the insulating screen 415 can be safely supported. The heat insulating screen 415 can be easily opened and closed.

In addition, each end of the support pipe 415 is connected to the strut 160 and each rear end of the heat screen 415 is supported and fixed by a fixing means 600. However, the fixing means 600 for fixing the rear end portions of the heat insulating screen 415 can be any structure that can support and fix the rear end portions of the heat insulating screen 415.

As shown in FIG. 7, both lower ends of the greenhouse frameworks 110 and 120 of the present invention are formed by digging the ground surface to a certain depth, filling the lower part of the greenhouse frameworks 110 and 120 into the pile site and then pouring the cement concrete 510, Insulating members 520 are installed on both side surfaces on which the cement concrete 510 is placed, and are then filled with soil.

The reason for installing the lower part of the greenhouse frameworks 110 and 120 into the cement concrete 510 is to prevent the corrosion of the greenhouse framework as well as to firmly fix the greenhouse framework. 520 is installed in order to prevent the temperature inside the greenhouse from being released to the outside of the greenhouse.

A drainage path 530 for draining water is formed on the upper surface of the cement concrete 510. This is because condensation generated in the inner film of the greenhouse is discharged to the outside without affecting cultivated plants, So as to discharge the internal moisture.

The upper end of one greenhouse framework 110 in the greenhouse of the present invention is extended from the uppermost central portion of the greenhouse by a certain amount in the direction of the other greenhouse framework 120 because rainwater is accumulated in the space 130 So that it is prevented from being sprinkled and introduced into the window 140.

The reason why the upper center front end of the one inner transparent layer 210 in the greenhouse of the present invention is formed to be lower than the upper center front end of the other inner transparent layer 220 is that the rainwater flows in the upper open / (140) so that the incoming rainwater can be prevented from flowing into the greenhouse.

The greenhouse of the present invention has the advantage of being able to effectively manage the temperature inside the greenhouse and the amount of sunshine as well as the ventilation.

100: tunnel type greenhouse 110: one side greenhouse frame
120: the other greenhouse frame 130: space
140: upper opening / closing window 141: fastener
142: rotation pipe 143: forward motor
150: side opening / closing window 160: holding
200: inner transparent film layer 210: one inner transparent layer
220: the other inner transparent layer 230: the space
240: internal opening / closing window 241: fastener
242: Rotating pipe 243: Forward motor
300: Shading layer 310: opening / closing means
312: opening and closing wire 313: winding drum
314: Forward motor 315: Shading screen
316: support pipe 400: insulating layer
410: opening / closing means 412: opening / closing wire
413: Winding drum 414:
415: Insulating screen 416: Support pipe
510: cement concrete 520: insulating member
530: Drain 600: Fixing means
F: Film

Claims (11)

Each of the side open / close windows 150 is formed on the lower both sides of the tunnel type greenhouse 100 where various plants are grown. Inside the greenhouse, an inner transparent film layer 200 and a shading sheet layer 300 ) And a heat insulating layer (400)
The greenhouses have one greenhouse framework 110 extending from one side to the upper center and the other greenhouse framework 120 extending from the other side to the upper center of the greenhouse at regular intervals along the longitudinal direction of the greenhouse, The upper center front end of the one greenhouse framework 110 is formed to be higher than the upper center front end of the other greenhouse framework 120 so that a space And a support 160 supporting a top end portion of the one side and the other side of the greenhouse frame is provided at a central portion of the greenhouse at regular intervals , And the inner transparent film layer (200) is divided into one inner transparent layer (210) and the other inner transparent layer (220), centered on the upper center portion of the greenhouse, The upper center front end portion of the bright layer is formed lower than the upper center front end portion of the other inner transparent layer to provide a space 230 between one transparent film layer and the other transparent film layer and an inner opening and closing window 240 is provided in the space Greenhouse. The method according to claim 1,
The upper opening / closing window 140 is provided with a film F extending from the upper end to the lower end of the space, and the upper end of the film is fixed to the upper portion of the space by a fixing member 141, A pipe 142 is connected and a vertical motor 143 is connected to one end of the rotary pipe to wind up or unwind the film in accordance with the operation direction of the vertical motor to open and close the upper opening / The greenhouse being characterized in that: delete delete The method according to claim 1,
The inner opening / closing window 240 is provided with a film F extending from the upper end to the lower end of the space, and the upper end of the film is fixed to the upper portion of the space by a fixture 241, A pipe 242 is connected to the rotary pipe 243, and a forward / reverse motor 243 is connected to one end of the rotary pipe so as to open or close the inner open / close window by winding up or unwinding the film according to the operating direction of the forward / The greenhouse being characterized in that: The method according to claim 1,
The light-shielding layer 300 and the insulating layer 400 are provided on both sides of the central strut and are divided into two portions. The light-shielding layer 300 and the insulating layer 400, Is inclined so as to have a downward slope in each side direction with respect to the center of the greenhouse. The method according to claim 6,
The divided light shielding layer 300 includes a light shielding screen 315 which is opened and closed by the opening and closing means 310, a support pipe 316 which supports and supports the lower part of the light shielding screen, And a forward / reverse motor (314) provided with an opening / closing wire (312) for pulling and pulling the opening / closing wire in the forward and reverse directions and a winding drum (313) connected to each end of the opening / . The method according to claim 6,
The divided heat insulating layer 400 includes an insulating screen 415 that is opened and closed by the opening and closing means 410, a support pipe 416 that supports and supports the lower portion of the insulating screen, And a forward / reverse motor (414) provided with an opening / closing wire (412) for pulling and pulling the opening / closing wire in the forward and reverse directions and a winding drum (413) connected to each end of the opening / closing wire for winding the opening / closing wire in the forward and reverse directions. . The method according to claim 1,
The lower ends of the one and the other side greenhouse framework are formed by digging the ground surface to a certain depth and then filling the lower part of the greenhouse frame into the piering place and then pouring the cement concrete 510. On both sides where the cement concrete is placed, Wherein the member (520) is installed and then buried with soil. 10. The method of claim 9,
And a drainage path (530) for draining water is formed on the upper surface of the cement concrete (510). The method according to claim 1,
Wherein the upper end of each one of the greenhouse frameworks extends from the uppermost central portion of the greenhouse to the other greenhouse framework direction.

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