KR101377218B1 - Greenhouse - Google Patents

Abstract

The present invention relates to a tunnel type greenhouse capable of firmly supporting the lower part of the structure of the greenhouse; preventing a heat exchange of the inner and outer temperatures of the greenhouse; easily draining water generated inside the greenhouse to the outside of the greenhouse; and effectively enabling ventilating, maintaining the inner temperature of the greenhouse, and blocking sunlight to the inside of the greenhouse. Two pipes are installed at a predetermined interval side by side by a medium of a connection port. Double greenhouse structures of which the upper part is formed into an arch shape and both sides are vertically formed are at an equal interval. A transparent film is installed on the greenhouse structure installed at an equal interval, and a sideward-open window is formed on each of both vertical portions. A reversed V-shaped ventilation unit protruding upward in the longitudinal direction of the tunnel type greenhouse is formed on the upper center forming the arch portion of the greenhouse. A upward-open window is formed on each side of the ventilation unit. An internal transparent film layer is formed on the inner upper part of the tunnel type greenhouse. the internal transparent film layer is installed to be divided into one internal transparent film layer and the other internal transparent film layer on both sides the upper center. A space is formed by the divided internal transparent film layers having different heights. A space opening window is installed in the space. Supporting bars supporting the upper tip ends of both internal transparent film layers are installed on the inner center of the double greenhouse structure at an equal interval.

Description

Tunnel Greenhouse {Greenhouse}

The present invention not only strengthens the lower support of the greenhouse frame, but also blocks heat exchange between the inside and outside of the greenhouse, and easily drains water generated inside the greenhouse to the outside of the greenhouse, and provides ventilation, heat retention, and shading in the greenhouse. It is about a tunnel-type greenhouse to be able to do it effectively.

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 the greenhouse is forcibly lowered by using water spray or fan air conditioner during the high temperature period, which requires enormous energy cost, which causes a great economic burden on farms, but it is difficult to be effective in large greenhouses. There was.

In addition, in order to reduce heat loss to the outside during the low temperature period, the greenhouse is formed by installing the double or triple vinyl, etc. The installation and maintenance of the greenhouse is considerably complicated, and enormous costs are required for crop cultivation. This will further stimulate excessive temperature rise. The above problems also apply to other structures that require a large amount of indoor ventilation, such as factories or various barns.

Patent Document 1: [0010] Patent Document 10-2009-0051487 Patent Publication 10-1996-0030776

The present invention firmly supports the lower support of the greenhouse frame without corrosion, as well as blocking heat exchange between the inside and outside of the greenhouse to prevent the greenhouse internal temperature is released to the outside of the greenhouse, the water generated inside the greenhouse To provide a tunnel-type greenhouse that facilitates drainage to the outside and promotes the growth of cultivated plants by selectively ventilating, keeping warm, and shielding the greenhouse, and increasing incomes of horticultural farmers accordingly. There is this.

In order to achieve the above object, a constitution means for solving the problems of the present invention is to install two pipes side by side to maintain a constant interval through a connector, but the upper portion is arc-shaped, and both sides are formed vertically. In the tunnel-type greenhouse, which is installed in the greenhouse frame installed at equal intervals, the transparent film is installed, and the side opening and closing window is formed in the vertical forming parts of both sides.

The upper center forming the arc of the tunnel-type greenhouse is formed in the longitudinal direction of the tunnel-type greenhouse to form a ventilation portion protruding to the upper portion of the "∧" shape, the upper opening and closing window is formed on both sides of the ventilation portion, the tunnel type An inner transparent film layer is formed on an inner upper portion of the greenhouse, and the inner transparent film layer is bisected into one inner transparent film layer and the other inner transparent layer around the center of the upper part, and has one and the other inner transparent layers installed bilaterally. The upper part of the upper and lower spaces to provide a space, the space opening and closing window is installed in the space, the inner central part of the double greenhouse frame is installed at equal intervals the support bars for supporting the upper ends of the one and the other inner transparent layer It is made of.

The present invention of the configuration as described above not only to support the lower support of the greenhouse frame without corrosion, as well as blocking the heat exchange between the greenhouse outside temperature and the greenhouse inside temperature to prevent the greenhouse inside temperature is released to the outside of the greenhouse In addition, the water generated inside the greenhouse can be easily drained to the outside of the greenhouse, and the ventilation, insulation, and shading of the greenhouse can be selectively promoted to promote the growth of cultivated plants, and thereby increase the income of the horticultural farmer. It works.

1 is a perspective view schematically showing a tunnel-type greenhouse according to the present invention,
2 is a front view schematically showing a tunnel-type greenhouse according to the present invention,
Figure 3a and Figure 3b is a cross-sectional view showing the structure of the greenhouse frame in the tunnel greenhouse according to the invention,
Figure 4 is an extract showing the structure of the ventilation unit in the tunnel-type greenhouse according to the present invention,
Figure 5 is a side schematic view for explaining the structure of the inner transparent film, light shielding screen, thermal insulation screen in a tunnel greenhouse according to the present invention,
Figure 6 is an extract showing the structure of the space opening and closing window in the tunnel-type greenhouse according to the present invention.
Figure 7 is an extract showing the structure of the greenhouse-based means in the tunnel-type greenhouse according to the present invention.

Referring to the tunnel-type greenhouse in accordance with the present invention in detail as follows.

Tunnel-type greenhouse according to the present invention, as shown in Figure 2 and 3b by installing two pipes (210.220) side by side to be maintained at a constant interval through the connector 230, the upper portion is arc-shaped and both sides are formed vertically Installed multiple greenhouse frame 200 at equal intervals, and covered with a transparent film (F) on the upper portion of the dual greenhouse skeleton 200 installed at equal intervals tunnel type greenhouse 100 as shown in Figure 1 To form.

Specific structure of the dual greenhouse framework 200, as shown in Figure 3a, both the pipe 210 located on the outside and the pipe 220 located on the inside of the same pipe that is arc-shaped at the top and both sides are vertical 3B, a fixing groove 211 for fixing the transparent film F is formed in the pipe 210 located outside or as shown in FIG. 3B, and the pipe 220 located inside the pipe 220 of FIG. 3A. You can use the same pipe as).

However, the fixing groove 211 formed in the pipe 210 of FIG. 3B is fixedly installed by using a fixing member 212 for fixing the transparent film F, and a separate fixing member is provided on the pipe 210 of FIG. 3A. Install 213 to fix the transparent film (F).

In addition, a side opening and closing window 500 is formed in a portion forming both vertical sides of the tunnel-type greenhouse 100 so that the inside of the tunnel-type greenhouse 100 can be ventilated. 500 is a conventional technique that is already being applied to various types of greenhouses in various structures, and a detailed description thereof will be omitted.

In the upper center forming the arc of the tunnel-type greenhouse 100, a ventilation portion 300 protruding to the upper portion of the "∧" shape along the longitudinal direction of the tunnel-type greenhouse 100 is formed as shown in Figure 1, Each upper opening and closing window 310 is formed on both sides of the ventilation unit 300 to discharge the air inside the greenhouse to the upper side.

The specific structure of the upper opening and closing window 310, as shown in Figure 4 is installed at a predetermined interval to protrude to the upper frame 320 of the "∧" shape and the transparent film (F) is covered thereon, the transparent film Rotating pipes 311 are installed at both lower ends of the rotary pipes 311, and the stationary motor 312 is connected to one end of each of the rotary pipes 311 and is installed in accordance with the operating direction of the stationary motor 312. By opening or lowering the transparent film 311 to open or close the ventilation unit 300, the air inside the tunnel-type greenhouse 100 is ventilated, and the temperature inside the tunnel-type greenhouse can be adjusted.

However, the transparent film F is fixedly installed on the uppermost portion of the “∧” shaped frame 320 by using a fixing member.

On the other hand, the upper opening and closing window 310 of the ventilation unit 300, the structure is easy to install, as well as the installation cost is low to reduce the economic burden of the greenhouse farmers, as well as the air inside the greenhouse There is an advantage that can be effectively ventilated, in rainy weather to release the transparent film to close the ventilation unit (300) (rain) does not flow into the greenhouse.

In addition, an inner transparent film layer is formed on the inner upper part of the tunnel-type greenhouse 100 of the present invention as shown in FIG. 5, wherein the inner transparent film layer is formed on one side of the inner transparent film layer 610 and the other inner transparent part. The film layer 620 is installed bilaterally, and the upper ends of the bilaterally installed one side and the other inner transparent film layers 610 and 620 are different from each other in height to secure a space 630, and the space 630 is shown in FIG. 6. Space opening and closing window 640 as shown is installed.

The reason for forming the one side and the other inner transparent film layer (610, 620) is to increase the heat retaining force when trying to improve the thermal insulation inside the greenhouse, the space between the top of the one and the other inner transparent film layer (610, 620) 630 is secured, but the reason why the space opening and closing window 640 is installed in the space 630 is to facilitate ventilation inside the greenhouse, as well as when rainwater is introduced through the ventilation part 300. This is to prevent the incoming rainwater from reaching the cultivated plants inside the greenhouse.

When the air in the greenhouse is to be ventilated, the space opening / closing window 640 is opened to exhaust the air in the greenhouse to the ventilation unit 300 through the space 630, and to increase the thermal insulation force in the greenhouse. At this time, the space opening and closing window 640 of the space 630 may be closed so that the air inside the greenhouse does not escape to the outside.

The specific structure of the space opening and closing window 640 is fixed to the upper end of the curtain (C) using the fixing member 646 on the upper portion of the space 630, as shown in Figure 6, of the curtain (C) The bottom end is installed so as to reach the bottom of the space 630, the lower end of the curtain (C) installed in this way is connected to the rotary pipe 641, one end of the rotary pipe 641 the stationary motor 642 ) Is installed and configured to open or close the space 630 by winding or unwinding the curtain C according to the operating direction of the stationary motor 642.

In addition, in order to prevent the positional deviation of the rotary pipe 641 installed at the lower end of the curtain (C), the upper part of the space 630, that is, the upper part of the curtain (C) and the lower part of the space (630), that is, the curtain (C) Each fastener 643.644 is installed at the lower lower portion, and a wire 645 is installed between the fasteners to prevent the positional deviation of the rotary pipe 641 during the movement of the rotary pipe 641.

In addition, the support bar 110 downward is installed at the upper center of the double greenhouse frame 200, and the upper and lower ends of one side and the other inner transparent film layers 610 and 620 are fixed to the support bar 110, and the one side and the other side inside. The transparent film layers 610 and 620 are securely supported.

On the other hand, the one side and the other inner transparent film layer (610, 620), each support frame (611.621) that supports and supports the bottom of the transparent film is installed at a predetermined interval, one side and the other inner transparent film layer (610, 620) to the bottom The film is formed safely without falling down.

In addition, the light shielding screen 700 and the thermal insulation screen 800 are installed to be opened and closed on the inner upper portion of the tunnel-type greenhouse 100, that is, the lower portion of the inner transparent film layer 600, as shown in FIG. 5. The reason for installing the screen 700 is to control the amount of sunshine of plants grown in the tunnel-type greenhouse 100, and the reason for installing the thermal screen 800 is a greenhouse in the case of low external temperature season The purpose is to save heating costs by increasing the thermal insulation inside.

The light blocking screen 700 is bilaterally installed on both sides of the central portion of the tunnel-type greenhouse, and the divided light blocking screen 700 is installed to be opened and closed by each opening and closing means 710, and the opening and closing means ( 710 is an opening and closing wire 712 for pulling and opening the divided light shielding screen 700 in one side or the other direction, and is connected to each end of the opening and closing wire 712, winding the opening and closing wire 712 in the forward and reverse directions It consists of the stationary motor 714 in which the take-up drum 713 is provided.

The operation direction of the opening and closing wire 712 according to the operation direction of the stationary motor 714 is to open or close the light shielding screen 700. In addition, the light blocking screen 700 supports the lower part of the light blocking screen 700 and supports the lower part of the light blocking screen 700 at regular intervals, so that the light blocking screen 700 supports the light blocking screen 700 safely and smoothly. Is done.

In addition, each end of the support pipe 715 is connected to the support bar 110, the support bar 110 is fixed to the support pipe 715, each rear end of the divided light shielding screen 700 is fixed means And supported by 716. However, the fixing means 716 for fixing each rear end of the light blocking screen 700 may be any structure that can support and fix each rear end of the light blocking screen 700.

In addition, the insulation screen 800 is installed bilaterally around the central portion of the tunnel-type greenhouse, the bisected insulation screen 800 is installed to be opened and closed by each opening and closing means 810, the opening and closing means 810 is the opening and closing wire 812 for pulling and opening the bisected thermal insulation screen 800 in one or the other direction, and is connected to each end of the opening and closing wire 812, the opening and closing wire 812 in the forward and reverse directions It consists of the stationary motor 814 in which the winding drum 813 to wind up is provided.

The operating direction of the opening and closing wire 812 according to the operating direction of the stationary motor 814 is to open or close the insulating screen 800. In addition, the insulating screen 800 is securely and smoothly opened and closed because the support pipe 815 supporting and supporting the lower portion of the insulating screen 800 is installed at a predetermined interval thereunder.

In addition, each end of the support pipe 815 is connected to the support bar 110, the support bar 110 is fixed to the support pipe 815, and each rear end of the bisected thermal insulation screen 800 is fixed means ( 816 is supported and fixed. However, the fixing means 816 for fixing each rear end of the insulation screen 800 may be any structure that can support and fix each rear end of the insulation screen 800.

The lower end of both sides of the dual greenhouse framework 200 of the present invention, as shown in Figure 7 to dig the ground to a certain depth, the bottom portion of the double greenhouse skeleton 200 in the excavated place and then cement concrete 240 After pouring, the cement concrete 240 is installed on both sides of the heat insulating member 250 is installed and then embedded in the soil.

The reason for placing the cement concrete 240 in the lower portion of the double greenhouse frame 200 is to fix the solid greenhouse frame 200 as well as to prevent corrosion, and the cement concrete 240 is poured. The reason for installing the heat insulating member 250 on both sides is to block the geothermal discharge inside the tunnel-type greenhouse to the outside of the tunnel-type greenhouse.

On the upper surface of the cement concrete 240 is formed a drainage path 260 for draining water, because the condensation, etc. generated in the inner film of the tunnel-type greenhouse do not affect the cultivated plants to discharge to the outdoors, of course, It is to discharge moisture inside other dome shape.

In addition, the outer side of the tunnel-type greenhouse 100 of the present invention, the greenhouse inner environment forming means 900 for selectively supplying the warm air or the air in the atmosphere inside the greenhouse is installed, the reason, When the internal temperature is lower than the proper temperature for cultivating the cultivated plants, the hot air is supplied, and when the air inside the tunnel-type greenhouse is muddy, that is, when the amount of oxygen is insufficient, the greenhouse internal environment forming means 900 supplies the outdoor air. Air conditioner.

Tunnel-type greenhouse of the present invention as described above has the advantage that can effectively manage temperature control and sunshine control in the greenhouse, as well as ventilation.

100: tunnel type greenhouse 110: support bar
130: rail 200: double greenhouse frame
210220: Pipe 211: fixing groove
230: connector 240: cement concrete
250: insulation member 260: drainage
300: ventilator 310: upper opening and closing window
311: rotating pipe 312: stationary motor
500: side opening window
610: one side of the inner transparent film layer 620: the other side of the inner transparent film layer
630: space 640: opening and closing window
641: rotating pipe 642: stationary motor
643: support pipe 700: shading screen
710: opening and closing means 712: opening and closing wire
713: winding drum 714: stationary motor
715: support pipe 716: fixing means
800: insulation screen 810: opening and closing means
812: opening and closing wire 813: winding drum
814: forward and reverse motor 815: support pipe
816: fixing means 900: greenhouse internal environment creation means

Claims (11)

Two pipes 210.220 are installed side by side so as to maintain a constant interval through the connector 230, but the upper is arc-shaped and both sides are vertically formed by double greenhouse frame 200 formed at equal intervals, at the same intervals In the greenhouse-type greenhouse 100 is provided with a transparent film installed in the greenhouse frame, the side opening and closing window 500 is formed in the portion forming the vertical of both sides,
In the upper center forming the arc-shaped of the tunnel-type greenhouse is formed a ventilation portion 300 protruding to the upper portion of the "∧" shape along the longitudinal direction of the tunnel-type greenhouse, each of the upper opening and closing window 310 ) Is formed, and an inner transparent film layer is formed on an inner upper portion of the tunnel-type greenhouse, and the inner transparent film layer is divided into one inner transparent film layer 610 and the other inner transparent layer 620 around the upper center part. The upper end of one side and the other inner transparent layer is bilaterally installed to provide a space 630 by different height, the space opening and closing window 640 is installed in the space, the inner side of the double greenhouse frame Tunnel-type greenhouse, characterized in that the support bar 110 for supporting the upper end of the one side and the other inner transparent layer is installed at equal intervals in the center portion. The method of claim 1,
The upper opening and closing window 310 and the space opening and closing window 640, the respective rotary pipes (311, 641) are installed at the lower end of each film (F), the forward and reverse motors (312, 642) at one end of each of the rotating pipes Tunnel-type greenhouse, characterized in that configured to open and close each opening and closing window by winding or unwinding each film according to the operating direction of the stationary motor. The method of claim 1,
The lower portion of the inner transparent film layer 600, the tunnel-type greenhouse, characterized in that the light-shielding screen 700 and the insulating screen 800 is installed to be opened and closed. The method of claim 3,
Under the transparent film layer 600, the light shielding screen 700, the insulating screen 800, each of the supporting pipes (643, 715, 815) to support and support the lower portion of the inner transparent film, light-shielding screen, the insulating screen at a predetermined interval Tunnel type greenhouse, characterized in that the installation. The method of claim 3,
The light shielding screen 700 is bilaterally installed on both sides of the central portion of the tunnel-type greenhouse, and the divided light shielding screen is installed to be opened and closed by each opening and closing means 710, and the opening and closing means is divided into two parts. Opening and closing wire 712 for pulling and opening the screen in one or the other direction, and the forward and reverse motor 714 is installed is connected to each end of the opening and closing wire winding drum 713 winding the opening and closing wire in the forward and reverse direction Tunnel-type greenhouse, characterized in that. The method of claim 3,
The insulating screen 800 is bilaterally installed on both sides of the central portion of the tunnel-type greenhouse, the bisected thermal insulation screen is installed to be opened and closed by each opening and closing means 810, and the opening and closing means is bisected thermal insulation Opening and closing wire 812 for pulling and opening the screen in one or the other direction, and the forward and reverse motor 814 is installed is connected to each end of the opening and closing wire winding coil 813 for winding the opening and closing wire in the forward and reverse direction Tunnel-type greenhouse, characterized in that. The method of claim 1,
A tunnel-type greenhouse, characterized in that the outer side of the tunnel-type greenhouse 100, the greenhouse inner environment forming means 900 for selectively supplying the warm air or air in the atmosphere inside the greenhouse. The method of claim 1,
Tunnel-type greenhouse, characterized in that the rail 130 is installed in the longitudinal side of the tunnel-type greenhouse 100 in the longitudinal direction of the tunnel-type greenhouse. The method of claim 1,
The lower end of the double greenhouse frame 200 is dug the ground to a certain depth, the bottom portion of the double greenhouse frame 200 is buried in the excavated place and then the cement concrete 240 is poured, the cement concrete is Tunnel-type greenhouse, characterized in that the two sides are poured into the earth after the insulation member 250 is installed. 10. The method of claim 9,
Tunnel-type greenhouse, characterized in that the drain surface 260 for draining the water is formed on the upper surface of the cement concrete 240. The method of claim 1,
The dual greenhouse frame 200, a tunnel-type greenhouse, characterized in that the fixing groove 211 is formed for fixing the transparent film to the pipe 210 for the outside.

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