KR102301410B1 - Anti Dewing System of a Plastic House - Google Patents

Abstract

The present invention relates to a system for inhibiting condensation in a plastic house for removing condensation by controlling the relative humidity inside the plastic house, and more particularly, to form an arcuate skeleton, and to install a plurality of them spaced apart from each other at regular intervals. A second frame having a hollow inside is installed inside the first frame to be covered, and the air is supplied from the air supply device to the second frame to discharge dry and warm air through the outlet installed in the direction of the vinyl paper. It relates to a condensation control system of a greenhouse that can increase the growth and yield of crops by increasing the amount of sunlight by rapidly removing or suppressing the condensation occurring on the ground.

Description

Anti-Dewing System of a Plastic House

The present invention relates to a system for inhibiting condensation in a greenhouse for removing condensation by changing the relative humidity inside the greenhouse, and more particularly, to form an arcuate skeleton, and to install a plurality of pieces spaced apart from each other at regular intervals, A second frame having a hollow inside is installed inside the first frame to be covered, and the air is supplied from the air supply device to the second frame to discharge dry and warm air through the outlet installed in the direction of the vinyl paper. It relates to a condensation control system of a vinyl house that quickly removes or suppresses condensation occurring on the ground.

In general, a greenhouse is a greenhouse for facilitating cultivation of flowers, fruits and vegetables, or cultivating tropical plants, and has a structure in which a plastic film such as a polyethylene film is coated on the outside of reinforcing bar aggregates assembled into a house structure.

These greenhouses have high airtightness, and thus have a higher thermal insulation power than the open-air cultivation environment. In addition, although the illuminance and light transmittance are relatively high, it is helpful for crop growth.

This dew condensation phenomenon is caused by a vinyl film made of a thermoplastic resin, and the vinyl film is almost a derivative of ethylene, and the polyethylene component has a strong hydrophobicity that does not combine well with moisture. Due to its properties, water droplets are formed on the surface.

That is, since the plastic film is for indoor insulation, it is sealed, and moisture in the air or soil in the plastic house evaporates and solidifies on the surface of the cold plastic house to form water droplets. may cause disturbances in crop yield. In addition, these water droplets collect viruses in the air, and when the water droplets fall from the plastic and fall on the crop, germs are transferred to the crop, which impedes the growth of the crop.

In order to prevent this phenomenon, a film is produced in which a surfactant is mixed with a polyethylene resin, and the above-mentioned vinyl film is produced by mixing a certain amount of a material extracted and purified from milk fatty acid with a polyethylene resin. Surfactant slowly seeps out through the fine pores and forms a film to weaken the surface tension of the film surface. This prevents water droplets from forming in advance.

However, the surfactant that forms a film on the film surface is washed down with rain or moisture over time, so after a certain period of time, all the surfactant inside the film is consumed and the oil drop effect disappears, and accordingly, water droplets on the vinyl surface It is still present that causes the above problems due to condensation due to condensation.

As such, with the structure of the vinyl film, it was not possible to fundamentally eliminate the formation of water droplets on the surface of the vinyl or the water film phenomenon that occurred accordingly.

In addition, when the above-mentioned special vinyl cannot be used, the method of artificially removing the condensation generated on the vinyl surface of the plastic house through heating was used. A waiting method was also used.

However, when heating the inside of a plastic house to remove dew condensation, the humidity is lowered, which adversely affects crop growth. There was a disadvantage in that the amount of sunlight decreased due to difficulties in passing through the sunlight during use.

As such, the amount of sunlight is reduced by the dew condensation occurring in the greenhouse, and the growth of crops is weakened, and water droplets form a contamination film on the surface of the plastic.

KR20-0230379 (registration number) 2001.04.30. KR10-1406410 (registration number) 2014.06.03. KR10-2016-0109962 (public number) 2016.09.21.

Accordingly, the present invention has been devised to solve the above problems,

A plurality of pieces are installed spaced apart from each other by an arcuate frame, and a second frame made of a hollow inside is installed inside the first frame covered with vinyl paper on the outside, and air is supplied from the air supply device to the second frame to supply the plastic It aims to provide a dew condensation control system for a plastic house that removes or suppresses dew condensation on plastic paper by discharging dry and warm air through the outlet installed in the direction.

Another object of the present invention is that the exhaust port for discharging dry and warm air in the direction of the vinyl paper is formed obliquely in multiple rows toward the plastic paper or is mounted on the outlet and the air is discharged radially by the discharge means having a plurality of protrusions or a plurality of through holes. It is formed so as to be diffused so as to not only cover the entire greenhouse, but also to provide a system for suppressing condensation in the greenhouse in which air can be diffused without strongly discharging air.

Another object of the present invention is that the outlet for discharging warm and dry air is arranged more densely on the upper side than on the lower side of the second frame to more quickly remove the condensation formed on the upper surface of the plastic house so that there is no water drop falling on the crop or It is to provide a dew condensation control system for a plastic house that is less effective.

Another object of the present invention is to provide a system for inhibiting condensation in a plastic house in which the second frame is stably supported by being in direct contact with the first frame made of a house frame.

Another object of the present invention is to provide a humidity sensor inside the plastic house and a temperature sensor inside and outside to determine the possibility of condensation depending on temperature and humidity, and preemptively discharge warm and dry air to the plastic paper to prevent the formation of condensation in advance. It is to provide a condensation control system for a greenhouse that can be

Another object of the present invention is to provide a system for preventing condensation in a plastic house by lowering the relative humidity in the vicinity of the plastic paper even when the humidity of the plastic house is high to prevent condensation in the plastic paper.

Another object of the present invention is to ensure that dry and warm air is discharged from a location spaced from the plastic paper to cover the wide surface of the plastic paper inside the house, and to be discharged only in the direction of the plastic paper and low relative humidity is not directed to the crops. It is to provide a system for controlling condensation in a greenhouse that does not interfere with the growth of crops inside.

In order to achieve the above object, the present invention provides a system for preventing condensation in a plastic house for removing condensation by changing the relative humidity inside the greenhouse, the upper part is made of an arcuate skeleton, and the lower part is made up of an upright state on the ground. A plurality of spaced apart is installed, and the first frame 110 to which the vinyl paper 10 is covered on the outside; a second frame 120 having a shape corresponding to that of the first frame 110, being contact-coupled with the inside of the first frame 110 and disposed inside the vinyl paper 10, and having a hollow inside; an air supply device 130 for sucking in air, dehumidifying it, and then discharging compressed air; The dry air discharged from the air supply device 130 is supplied to the inner hollow of the second frame 120 disposed inside the first frame 110, and a first outlet formed in the second frame 120 ( 121) is discharged through the doedoe, the second frame 120 is moved to the side of the first frame 110 fixing the coupling and discharged to the vinyl paper 10 covered on the outside of the first frame 110; The air supplied to the plastic paper 10 has a higher temperature and lower humidity than the surrounding air.

In the second frame 120 of the present invention, the first outlet 121 is formed to be vertically spaced apart from each other on both sides of the contact surface with the first frame 110 that is in contact with the outside, and the first outlet 121 is the Air is discharged in the direction of the plastic paper (10).

The present invention further includes a discharge pipe 140 that is horizontally coupled to the second frame 120, the discharge pipe 140 A plurality of pieces are installed horizontally spaced apart from each other, penetrated through the second frame 120 or coupled to the inside to receive and discharge air from the second frame 120, but to discharge air in the direction of the plastic paper 10 The second outlets 141 are formed obliquely in multiple rows up and down around the line closest to the vinyl paper 10 .

In addition, the air supply device 130 includes an air suction unit 134 for sucking air, a dehumidifying unit 135 for removing moisture from the sucked air, and the dehumidified air passing through the dehumidifying unit 135 . The second air supply unit 130b for discharging the dehumidified air, including the compressed air compression unit 136, and the air heating unit 137 for heating the air compressed in the air compression unit 136 pass through Any one of the first air supply device (130a) for discharging the dehumidified warm air after the operation.

In addition, in the present invention, when the air supply device 130 is the first air supply device 130a, a heating wire is included in the second frame 120 .

In addition, a discharge through-hole 125 through which the air discharged from the air supply device 130 passes is provided inside the second frame 120 , and is coupled to the discharge through-hole 125 to change the direction of the discharged air. A discharge means 160 is provided.

The discharge means 160 of the present invention is inserted into the discharge through-hole 125 and has a third discharge port 161 having a hollow air discharge passage formed therein, the discharge pillar 164, and the discharge pillar 164 ) formed at the end of the direction changing part 165 for changing the moving direction of the air moved through the third outlet 161, and from the end of the direction changing part 165 to the vinyl paper 10 direction It includes a plurality of projections 162 or a plurality of through-holes 163 formed in a radial shape.

A temperature sensor for measuring a temperature value and a humidity sensor for measuring the humidity inside the plastic house are provided inside and outside the plastic house of the present invention, and the air supply device based on the measured values of the temperature sensor and the humidity sensor 130 is driven.

The distance between the first outlet 121 and the plastic paper 10 of the present invention is smaller than the sum of the diameter of the first frame 110 and the half of the diameter of the second frame 120 .

The interval between the second outlet 141 and the vinyl paper 10 of the present invention is the sum of the diameter of the first frame 110 and the diameter of the second frame 120 and half the diameter of the second frame 120 . to be smaller than the value.

Accordingly, the condensation suppression system of the vinyl house of the present invention is provided with a plurality of pieces spaced apart from each other by an arcuate skeleton, and a second frame made of a hollow inside of the first frame covered with plastic paper is installed, the second frame Since the air is supplied from the air supply device to the frame and the dry and warm air is discharged through the outlet installed in the direction of the plastic paper, there is an effect that can remove or suppress the condensation occurring on the plastic paper.

The dew condensation suppression system of the plastic house of the present invention is the second outlet of the discharge pipe for discharging dry and warm air in the direction of the plastic paper is formed obliquely in multiple rows toward the plastic paper, or by a discharge means having a plurality of protrusions or a plurality of through holes It is formed so that air can be diffused radially, and not only can cover the entire greenhouse, but also has the effect of allowing air to be rapidly diffused without strongly discharging the air.

The dew condensation control system of the plastic house of the present invention is more densely disposed on the upper side than the lower side of the second frame, so that the outlet for discharging warm and dry air is more rapidly removed from the condensation formed on the upper surface of the plastic house and falls on the crop There is no or less water droplets.

The dew condensation suppression system of the plastic house of the present invention has an effect that the second frame is in direct contact with the first frame made of the house frame, and is stably supported by being erected by the support means.

The condensation control system of the plastic house of the present invention is equipped with a humidity sensor inside the plastic house and a temperature sensor inside and out to determine the possibility of condensation depending on temperature and humidity, and preemptively discharges warm and dry air to the plastic paper to form condensation This has the advantage of being able to prevent it in advance.

The dew condensation control system of the plastic house of the present invention has the effect of preventing condensation in the plastic paper by lowering the relative humidity in the vicinity of the plastic paper even when the humidity of the plastic house is high.

The dew condensation suppression system of the plastic house of the present invention is such that dry and warm air is discharged at a location spaced from the plastic paper to cover the wide surface of the plastic paper inside the house, and is discharged only in the direction of the plastic paper, and the low relative humidity is not directed to the crop It has the advantage of not interfering with the growth of crops inside the greenhouse.

1 is a perspective view of a system for inhibiting condensation of a plastic house according to a first embodiment of the present invention;
2 is a perspective view of a system for inhibiting condensation of a plastic house according to a second embodiment of the present invention;
3 is a perspective view of a system for suppressing condensation in a plastic house according to a third embodiment of the present invention;
4 is an internal configuration diagram of the air supply device 130 .
5 is a perspective view of a system for inhibiting condensation of a plastic house according to a fourth embodiment of the present invention;
6 is a perspective view of a system for suppressing condensation in a plastic house according to a fifth embodiment of the present invention;
7 is a perspective view of a system for inhibiting condensation of a plastic house according to a sixth embodiment of the present invention;
8 is a cross-sectional view of a state in which air is discharged through a discharge means according to an embodiment of the present invention;
9 is a perspective view of a form in which a plurality of protrusions are formed on the discharge means of the present invention;
10 is a perspective view of a form in which a plurality of through holes are formed in the discharge means of the present invention.

Hereinafter, preferred embodiments of the present invention will be described so that those of ordinary skill in the art can easily implement them with reference to the accompanying drawings.

The present invention is a system for inhibiting condensation in a greenhouse for removing or suppressing condensation by changing the relative humidity inside the greenhouse, as shown in FIGS. 1 to 10,

A plurality of pieces are installed spaced apart from each other at regular intervals in an arcuate skeleton, and a second frame 120 made of a hollow inside is installed inside the first frame 110 on which the plastic paper 10 is covered,

A first air supply device 130a to which an air supply pipe 131 and a heat source facility 132 are connected to the second frame 120 or a second supply supply device 130b to which an air conditioning air supply pipe 133 is connected and installed It is provided to discharge the air in the direction of the vinyl paper 10 by supplying dry and warm air from the.

The first frame 110 is formed in an arcuate upper part as a basic frame of a plastic house and a side (lower part) erected perpendicularly to the ground. The second frame 120 has a shape corresponding to that of the first frame 110 , and is formed of a frame separate from the first frame 110 and is provided in close contact with each other. The second frame 120 has an upright lower side to correspond to the upright lower side of the first frame 110 , and the second frame 120 has an arcuate upper side to correspond to the arcuate upper side of the first frame 110 . Accordingly, the second frame 120 may be fixed in close contact with the first frame 110 . However, unlike the first frame 110 having a generally circular cross-section, the second frame 120 may have a circular cross-section or a polyhedral cross-section. In the present invention, the inside of the first frame 110 is provided in close contact with the second frame 120 on the opposite side to which the vinyl paper 10 is covered, and the vinyl paper 10 is covered on the outside. On the other hand, the inside of the frame means the inside of the frame.

As shown in Fig. 1, according to the first embodiment of the present invention, the first frame 110 has both ends fixed to the floor to form a side surface (lower portion), and an upper portion with an arcuate skeleton extending from the end of the side surface. It is formed, and a plurality of them are installed at regular intervals. A plastic paper 10 is covered on the outside of the first frame 110 to form a plastic house, and crops are grown inside. The second frame 120 installed to be in contact with the inner side of the first frame 110, the discharge pipe 140 is installed horizontally coupled.

The second frame 120 may be installed for each first frame 110 or may be installed every other time. The second frame 120 has the same shape as the first frame 110, and is strongly fixed to the ground and is coupled and fixed to the first frame 110 formed of steel. does not

In addition, in the second frame 120, a first air supply device 130a provided as a heat source device or a regulator, which is a device for controlling and supplying pressure, is connected through an air supply pipe 131 and a heat source facility 132 to the inside. Warm, dry air moves into the hollow of the

The discharge pipe 140 disposed horizontally on the ground has a hollow inside, and a second heating wire 142 connected to the heat source facility 132 is installed inside, and is orthogonal to the second frame 120 . The air transferred from the second frame 120 is transferred to the discharge pipe 140 by being installed to pass through the second frame 120 in a state of Distributed in a dry and warm state through the second outlets 141 that are spaced apart from each other in the discharge pipe 140 and formed obliquely in multiple rows are provided to remove condensation on the vinyl paper 10 .

The second heating wire 142 is connected to a power cable branched from the heat source facility 132 inserted into the hollow of the second frame 120 to supply electricity.

The second outlet 141 is a discharge port formed in the direction of the vinyl paper 10 in a state spaced apart from the vinyl paper 10, and the dry air supplied from the first air supply device 130a is a second heating wire 142. It is heated and converted into warm, dry air and discharged. The first air supply device 130a has a dehumidifying unit 135 therein, and it strongly pushes the dry air and supplies it to the hollow inside the second frame 120 through the air supply pipe 131 , and the second frame 120 . The dry air introduced into the inside of the second frame 120 moves to the exhaust pipe 140 through each other while moving, and is heated by the second heating wire, so that the humidity thereof is further lowered.

Humidity varies depending on the temperature even if there is the same amount of water vapor in the same area, so the air before being discharged from the discharge pipe 140 is in a very dry state. As such, the dry air is discharged from the discharge pipe 140 to the second discharge port 141 formed in the direction of the plastic paper 10 . The second outlet 141 is formed in two or more rows, and is provided in a rectangular, trapezoidal, oval, etc. to be discharged toward the vinyl paper. As can be seen in (b) of Figure 1, the dry and warm air discharged from the second outlet 141 passes through the spaced apart space and arrives at the plastic paper 10 and spreads in this space, so it is in contact with the plastic paper over a large area. will do

In addition, the second outlet 141 is formed in the upper and lower portions of the plastic paper 10 and not the closest distance d to lengthen the movement distance of air. The second outlet 141 is formed horizontally on the ground along the discharge pipe 140, and the vinyl paper 10 is formed in the upper and lower portions of the closest center line, respectively. The second outlet 141 is formed on the outside rather than the inside of the plastic house, and because it has a direction with the plastic paper 10, dry air does not touch the crops inside the plastic house, so that it does not interfere with crop growth. The second outlet 141 is spaced apart from the vinyl paper 10 by an interval of all or a part of the first frame 110 and the second frame 120, so that the spacing is not wide, but in the second outlet 141 The strongly discharged dry air may come into contact with the vinyl paper while sufficiently moving up and down.

A more specific interval will be described later. Also, the first air supply device 130a will be described later.

As shown in FIG. 2 , according to the second embodiment of the present invention, the second frame 120 has a hollow inside, and an air supply pipe 131 and a heat source facility 132 provide a first air supply device. A first heating wire 122 connected to the 130a and connected to the heat source facility 132 is installed inside to heat the air transferred through the air supply pipe 131 .

As described above, in the second frame 120 according to the second embodiment, an air supply pipe 131 receiving dry air supplied from the first air supply device 130a and a heat source facility 132 are connected and installed, so that the air supply pipe ( 131), the dry air supplied from the second frame 120 passes through the first heating wire 122 provided in the second frame 120, becomes dry and warm, is discharged through the second outlet 141, and can be formed in the plastic paper 10. It plays a role in removing or suppressing the condensation present.

At this time, the heat source facility 132 is electrically connected to the first heating wire 122 so that when power is supplied, the first heating wire 122 generates heat.

The second embodiment is different from the first embodiment in the position of the heating wire for heating the dry air discharged from the first air supply device (130a). That is, in the first embodiment, the heating wire is provided inside the discharge pipe 140 , and in the second embodiment, the heating wire is provided inside the second frame 120 . Accordingly, in the second embodiment, the air is already dry and warm before being supplied to the discharge pipe 140 , and in the first embodiment, the air before being supplied to the discharge pipe 140 is in a dry state.

The configuration of the remaining second outlet is the same as that of the first embodiment.

In this case, a heating wire may be additionally provided inside the discharge pipe 140 in the second embodiment.

As shown in FIG. 3 , according to the third embodiment of the present invention, as in the first and second embodiments, both ends are fixed upright on the floor to form a lower part, and the upper part forms an arcuate skeleton, spaced apart by a predetermined distance. The discharge pipe 140 is horizontally installed between the second frame 120 installed in contact with the inner side of the first frame 110 to form a plastic house by being covered with plastic paper 10 on the outside. installed with

At this time, a second air supply device 130b is connected to the second frame 120 by an air conditioning air supply pipe 133 . The second air supply device 130b discharges the dry and warm air by the dehumidifying unit 135 and the air heating unit 137 installed therein, and connects the air conditioning air supply pipe 133 to the second frame 120 . It is provided to quickly supply dry and warm air through the

As described above, in the third embodiment of the present invention, wet and cold air is changed to dry and warm air in the second air supply device 130b and supplied to the second frame 120 and the discharge pipe 140 to the second frame. Since it is not necessary to separately install a heating wire in the 120 and the discharge pipe 140, it can be easily installed.

In the third embodiment, as in the first and second embodiments, the discharge pipe 140 is spaced apart from the plastic paper 10 by the diameter of the first frame 110 and the diameter of part or all of the second frame 120 . There, dry and warm air is discharged from the second outlet 141 formed in multiple rows obliquely toward the plastic paper 10 to remove the water droplets formed or to be formed on the plastic paper 10 . More specifically, when the discharge pipe 140 passes through the inside of the second frame 120, the separation distance from the second discharge port 141 to the plastic paper 10 is the diameter of the first frame 110 and the second It is the sum of some diameters of the frame 120 . Next, when the discharge pipe 140 is installed and coupled to the inside of the second frame 120, the separation distance from the second discharge port 141 to the vinyl paper 10 is the first frame 110 and the second frame 120. 2 is smaller than the sum of the diameter of the frame 120 and the half of the diameter of the discharge pipe (140). At this time, since the discharge pipe 140 is formed smaller than the diameter of the second frame 120 , the separation distance is the sum of the diameter of the first frame 110 , the diameter of the second frame 120 , and half the diameter of the second frame 120 . becomes smaller The limitation of the interval between the second outlet 141 and the plastic paper 10 is that the position of the second outlet 141 should be directed in the direction of the plastic paper 10, and It is limited to the diameter of the discharge pipe 140 and the diameter of the second frame. When the diameter of the discharge pipe 140 is large, the discharge force of the discharged air is weakened, thereby weakening the effect of removing dew condensation. Here, the diameter of the second frame means the longest internal length when the cross-section is polygonal.

The discharge pipes 140 according to the first, second, and third embodiments of the present invention are spaced apart from each other to form second discharge ports 141, and are arranged in multiple rows to face the plastic paper 10 in the direction of the plastic paper 10. It is made of a through hole that is obliquely penetrated by the Make it possible to remove or suppress only condensation without dropping. The meaning of 'oblique' here is that the arrangement position of the second outlet 141 is formed in the upper and lower portions rather than the portion d closest to the plastic paper 10, and the air is discharged in an inclined manner. That is, the second outlet 141 is formed vertically from the center line having the closest distance from the discharge pipe 140 to the plastic paper 10 , so that the discharged air can be diffused to the plastic paper 10 . In addition, the second outlet 141 is formed to radially widen from the center line. The second outlet 141 draws a tangent line at the point d having the closest distance to the vinyl paper 10 from the discharge pipe 140, and moves it in parallel to make a virtual straight line having the largest diameter. , is formed only toward the plastic paper 10 in the imaginary straight line, and is not formed in the opposite direction (inside the plastic house).

According to the first, second, and third embodiments, the discharge pipe 140 is disposed perpendicularly to the second frame 120 , passes through the second frame 120 or forms a partial through hole inward, and the discharge pipe 140 . In contact with the through hole formed on the contact surface of the second frame 120, the dry air moving into the hollow part is introduced and discharged to the plastic paper (10). Therefore, since the discharge pipe 140 can be coupled to any position of the second frame 120 , the autonomy in its arrangement is high.

In the present invention, the second outlet 141 formed in the discharge pipe 140 is more condensed than the upright lower part, which is the side of the plastic house, and is more in the arcuate shape contacting the crop when water droplets fall. will be placed a lot. Therefore, even if the same amount of dried air is discharged from the air supply device 130, the efficiency of removing dew condensation formed on the upper part of the plastic house is high, so that the possibility of water droplets falling to the crop is lowered and the amount of sunlight irradiated is increased.

4 is an internal configuration diagram of the air supply device 130 .

The air supply device 130 of the present invention is divided into a first air supply device 130a and a second air supply device 130b. The first air supply device 130a and the second air supply device 130b are determined by whether the air heating unit 137 is provided therein. That is, the first air supply unit 130a does not have an air heating unit 137 therein, and the second air supply unit 130b has an air heating unit 137 therein.

The air supply device 130 is located inside the plastic house, and an air suction part 134 for receiving air from the inside of the plastic house is formed on one side. Since the introduced air inside the plastic house is generally very high in humidity, it is necessary to dehumidify it and discharge it to the plastic paper 10 as dry air to have a high dew condensation effect. Accordingly, the dehumidifying unit 135 for drying the introduced air is provided at the rear end of the air intake unit 134 . The dehumidifying unit 135 includes a cooling condenser having a large surface area, as is known in an air conditioner or a dehumidifier, and a detailed description thereof will be omitted.

Air that has passed through the dehumidifying unit 135 and changed to dry is compressed by the air compression unit 136 and discharged at a high pressure. Such an air compression unit is widely known as a compressor and has various types. In some compressors, air is heated in the process of compressing the air, and the present invention may use such an air-heated compressor.

The compressed air passing through the compressor is further heated while passing through the air heating unit 137 to change into warm air. The air heating unit 137 may be located at the front end of the air compression unit 136 .

At this time, the air heating unit 137 is not provided in the first air supply device 130a.

The dried air or dry and warm air is supplied to the inside of the second frame 120 through the air supply pipe 131 or the air conditioning air supply pipe 133 .

The air supply device 130 may be located outside the plastic house to receive external air, dehumidify it and compress it. At this time, since the air outside the plastic house is dry but cold, the burden on the air heating unit 137 is increased instead of the burden on the dehumidifying unit 135 . Conversely, when the air supply device 130 is located inside the plastic house and receives the air from the inside and dehumidifies it and then compresses it, the burden on the dehumidifying unit 135 is large and the burden on the air heating unit 137 is relatively small. .

In the present invention, the temperature of the air discharged to the plastic paper 10 in the entire embodiment is higher than the temperature of the surrounding air, and the humidity is low in a dry state. Here, the ambient means the average temperature inside the plastic house as well as next to the plastic paper 10 . In this way, the temperature of the discharged air is high, and the relative humidity in the plastic paper 10 is quickly lowered to remove the dew condensation state, and it is possible to reduce the possibility of occurrence of condensation.

As shown in FIG. 5, according to the fourth embodiment of the present invention, the second frame 120 installed inside the first frame 110 provided with an arcuate pipe has first outlets 121 spaced apart from each other. will be formed in large numbers.

The second frame 120 receives the dry and warm air directly from the air conditioning air supply pipe 133 connected to the second supply and supply device 130b and discharges it through the first outlet 121 .

The first outlet 121 is provided more on the upper side than the lower side of the second frame 120, and may be provided in various shapes such as a square, a circle, and the like. The first outlet 121 is formed on both sides of the second frame 120 with the first frame 110 in contact therebetween and is provided so that dry and warm air can be discharged to the plastic paper 10, the first It is discharged to the vinyl paper 10 obliquely as in the third embodiment. Even at this time, since the first outlet 121 is spaced apart from the plastic paper 10 by the diameter of the first frame 110 , air is widely discharged from the plastic paper. However, since the gap between the first outlet 121 and the plastic paper 10 is narrower than the gap between the second outlet 141 and the plastic paper 10, the first outlet 121 adjacent to the first outlet 121 up and down. The gap between the second outlets 141 and the adjacent second outlets 141 should be narrower than the gap.

The second frame 120 is fixed in contact with the first frame 110 , and the first outlets 121 are arranged in multiple rows left and right around the contact surface or contact line in contact with the first frame 110 . At this time, the central portion f that is in contact with the first frame is in contact with the first frame and thus air cannot be discharged.

The first outlet 121 is formed parallel to the ground vertically, and the second outlet 141 is formed parallel to the ground.

As shown in FIG. 6 , according to the fifth embodiment of the present invention, the second frame 120 installed inside the first frame 110 has an air supply pipe 131 of the first air supply device 130a. ) is supplied so as to be supplied and discharged through the first outlet 121, and a first heating wire 122 connected to the heat source facility 132 of the first air supply device 130a is installed therein. It is possible to discharge the dry and warm air in the direction of the plastic paper 10 by the first heating wire 122 .

That is, in the fourth embodiment and the fifth embodiment, the position of the heating part of the discharged air is different from each other, and in the fourth embodiment, the air is heated in the air supply device 130 and transferred to the second frame 120 , In the fifth embodiment, the air discharged to the air supply device is heated in the second frame 120 .

In addition, the gap between the first outlet 121 and the vinyl paper 10 is formed to be smaller than the sum of the diameter of the first frame 110 and the half of the diameter of the second frame 120 . This limitation limits the position of the first outlet 121, and the first outlet 121 should be formed in the direction of the plastic paper 10, which is outside the plastic house, not inside the plastic house.

As shown in FIG. 7 , according to the sixth embodiment of the present invention, it is installed inside the first frame 110 (in the direction of the plastic house). A plurality of discharge through-holes 125 are formed in the second frame 120 spaced apart from each other. In the discharge through hole 125, in a direction perpendicular to the ground, side by side The discharge column 164 is inserted and installed. The discharge pillar 164 is inserted into the discharge through-hole 125 and has a third discharge port 161 having a hollow air discharge passage formed therein, the discharge pillar 164, and the end of the discharge pillar 164 A direction changing part 165 that is formed to protrude and changes the moving direction of the air moved through the third outlet 161, and the end of the direction changing part 165 is radially formed in the direction of the vinyl paper 10 A plurality of protrusions 162 or a plurality of through holes 163 are formed.

The discharge hole 125 formed in the second frame 120 is not an outlet through which dry air is directly supplied to the plastic paper 10, but a groove into which the discharge means 160 is fitted, and the first outlet 121 is the second Unlike the diagonally formed on both sides of the outside of the frame, it is formed in the center of the inside of the greenhouse.

The discharge through-hole 125 is a through-hole formed along the center of the inner side (in the direction of the center of the plastic house) of the second frame 120 , and the discharge means 160 is inserted and serves as a passage through which dry and warm air moves. This discharge through-hole 125 also has a narrower spacing at the upper arch than the lower side, like the first outlet 121 .

In this way, when the discharge means 160 is installed in the discharge through-hole 125 of the second frame 120, the air supply device 130, the first air supply device 130a, or the second Air is supplied from the air supply device 130b), and when the first air supply device 130a is connected, the first heating wire 122 is provided inside the second frame 120, and the second air supply device ( When 130b) is connected, it is provided so that dry and warm air can be discharged from the second air supply device 130b even if a heating wire is not provided inside the second frame 120 . That is, the flow of air moves from the air supply device 130 to the second frame 120, passes through the discharge through-hole 125, and then passes through the third discharge port 161 and the direction change unit 165 to the plastic paper ( 10) The air is discharged in the direction.

The discharge means 160 may be installed in the discharge pipe 140 in addition to the second frame 120 . Even in this case, it is installed inside the discharge pipe 140, a discharge hole is formed in the center of the discharge pipe, and it is inserted into the discharge hole to change the discharge direction of air to discharge dry and warm air in the direction of the plastic paper 10 do. Therefore, when the discharge means 160 is provided in the discharge pipe, the flow of air moves from the air supply device 130 to the second frame 120 , and then moves along the discharge pipe 140 to the inside of the plastic house. After moving to the formed discharge means 160, the air is discharged in the direction of the plastic paper (10).

The discharge through-hole 125, the first discharge port 121, and the second discharge port 141 of the present invention are more densely formed on the upper side than the lower side of the second frame 120, so that the upper side of the plastic house is on the upper side than the lower side. It is provided to remove or suppress dew condensation with a high incidence rate.

As shown in FIGS. 8 to 10, the discharge means 160 is provided with a discharge pillar 164 having one side protruding and coupled to the discharge through hole 125 formed in the second frame 120, The opposite side is formed in an umbrella shape with a central convex protrusion, and a plurality of projections 162 are formed in the direction of the vinyl paper 10 or a plurality of through holes 163 are formed so that air can spread radially from the inside. The air that has passed through the 162 or the through hole 163 is diffused toward the plastic paper 10 and discharged.

The dry and warm air moved to the third outlet 161 is discharged toward the plastic paper 10 by changing the moving direction twice or more, and the third outlet 161 is the length of the outlet column 164 formed inside. The diffusion distance of the discharged air varies accordingly. In addition, the projections 162 on the air movement path are radially formed and gradually widen from the center to the edge, so that the discharged air is widely diffused in the vicinity of the plastic paper 10 .

Therefore, even if the diameters of the first frame 110 and the second frame 120 are small, it is possible to easily remove the condensation of the vinyl paper through the length of the discharge pillar 164 .

As described above, in the present invention, the discharge pipe 140 is installed in the second frame 120 or the discharge means 160 is installed in the second frame 120 to facilitate air discharge.

On the other hand, the support means 170 is coupled to the first frame 110 or the second frame 120 of the present invention to vertically support it from the ground, and the arcuate first frame ( 110) or the second frame 120 is provided to be stably supported.

In the present invention, the first outlet 121 or the discharge means 160 of the second frame 120 through the air supply device 130, the first air supply device 130a or the second air supply device 130b), discharge A sensor ( control so that the first air supply device 130a and the second air supply device 130b can be driven when the humidity increases due to condensation generated when the difference between the internal temperature and the external temperature of the plastic house is large) system that can do it.

More specifically, the present invention installs a temperature sensor on the outside of the plastic house, a temperature sensor and a humidity sensor inside, obtains the temperature value and temperature difference information between the inside and outside of the plastic house, and also the humidity information inside the plastic house to acquire

Water is continuously supplied to the inside of the plastic house for the growth of crops, and since the inside temperature is high due to a hot air fan, dew condensation easily occurs due to the temperature difference with the outside of the plastic house.

According to the present invention, when it is determined that there is a possibility of condensation occurring in the plastic paper 10 based on the internal temperature and external temperature of the plastic house, and the internal humidity value information, the air supply device in the control unit (not shown) (130) is driven to discharge dry and warm air toward the plastic paper (10).

That the temperature of the air discharged here is warm is higher than the average temperature inside the plastic house, and in particular, it becomes higher than the temperature near the inside of the plastic paper 10 . In addition, dry means lower than the average humidity inside the plastic house, and the humidity is relatively lower than the humidity around the inside of the plastic paper.

In the vicinity of the plastic paper 10, since the temperature is lower than the internal average, the humidity is easily saturated and there is a high possibility of dew condensation, so the dehumidified air is discharged to be relatively dry. Since it is heated and discharged with a furnace, the humidity of the discharged air is very low, so that the occurrence of dew condensation in the plastic paper 10 can be quickly and easily prevented.

At this time, since dry air adversely affects the growth of crops, the discharge direction of the air must be toward the plastic paper 10 so that the dry air does not flow to the crops.

In addition, when the occurrence of condensation is confirmed by installing a camera or the like inside the plastic house, the dry air is more strongly discharged from the air supply device to remove the generated condensation. The camera can be checked against the stored image by placing it in a location where condensation is likely to occur.

On the other hand, the air supply device 130 is a movable type, a wheel is provided at the bottom, and one or a plurality of wheels are provided inside the plastic house so that air is discharged with a sufficient discharge pressure according to the area of the plastic house.

Therefore, the condensation suppression system of the plastic house of the present invention forms an arcuate skeleton, and a plurality of them are installed at regular intervals, and the inside of the first frame 110 on which the plastic paper 10 is covered is hollow inside. A second frame 120 is installed, which is installed in the direction of the plastic paper 10 by supplying air from the first air supply device 130a or the second air supply device 130b to the second frame 120 . Since dry and warm air is discharged through the first outlet 121 , there is an effect of removing or suppressing condensation occurring on the plastic paper 10 .

The condensation suppression system of the plastic house of the present invention is formed so that the second outlet 141 of the discharge pipe 140 for discharging dry and warm air in the direction of the plastic paper 10 is obliquely formed in multiple rows toward the plastic paper 10. Or it is mounted on the first outlet 121 or the first outlet 121 and formed so that air can be radially diffused by the outlet means 160 having a plurality of protrusions 162 or a plurality of through holes 163, Not only can it cover the entire greenhouse, but it also has the effect of allowing air to be diffused without strongly venting the air.

The dew condensation control system of the plastic house of the present invention is a first outlet 121, a second outlet for discharging air because when there are bacteria in the water drops when there is dew condensation on the upper side of the plastic house, it falls to the crop as it is and has a large effect such as a fruiting disorder. 141 and the discharge means 160 are formed more densely on the upper side than on the lower side of the second frame 120, thereby increasing the efficiency of removing dew condensation with a high incidence rate on the upper side than the lower side of the plastic house.

The condensation suppression system of the plastic house of the present invention has an effect that the second frame 120 is in direct contact with the first frame 110 made of the house frame, and is erected by the support means 170 and stably supported.

The dew condensation control system of the plastic house of the present invention automatically starts its operation based on the temperature value inside and outside the plastic house and the humidity value inside, and since dry and warm air having a directionality is discharged with plastic paper, it suppresses the occurrence of condensation and , it has the advantage of effectively removing the generated condensation.

The dew condensation suppression system of the plastic house of the present invention is such that dry and warm air is discharged at a location spaced from the plastic paper to cover the wide surface of the plastic paper inside the house, and is discharged only in the direction of the plastic paper, and the low relative humidity is not directed to the crop It has the advantage of not interfering with the growth of crops inside the greenhouse.

10: vinyl paper
110: first frame
120: second frame 121: first outlet
122: first heating wire 125: exhaust through hole
130: air supply device
130a: first air supply device 130b: second air supply device
131: air supply pipe 132: heat source equipment
133: air conditioning air supply pipe
134: air intake 135: dehumidifier
136: air compression unit 137: air heating unit
140: discharge pipe 141: second outlet
142: second heating wire
160: discharge means 161: third outlet
162: protrusion 163: through hole
164: exhaust column 165: direction change part
170: support means

Claims (10)

In the condensation control system of the plastic house for removing the condensation by changing the relative humidity inside the plastic house,
The upper part is made of an arcuate skeleton, the lower part is made in an upright state on the ground, and a plurality of them are installed to be spaced apart from each other, and a first frame 110 in which a vinyl paper 10 is covered on the outside;
a second frame 120 having a shape corresponding to that of the first frame 110, being contact-coupled with the inside of the first frame 110 and disposed inside the vinyl paper 10, and having a hollow inside;
an air supply device 130 for sucking in air, dehumidifying it, and then discharging compressed air;
The dry air discharged from the air supply device 130 is supplied to the inner hollow of the second frame 120 disposed inside the first frame 110 , and a first outlet formed in the second frame 120 ( 121) is discharged through the doedoe, the second frame 120 is moved to the side of the first frame 110 for coupling and fixing, and discharged to the vinyl paper 10 covered on the outside of the first frame 110;
The air supplied to the plastic paper 10 has a higher temperature than the surrounding air, and a condensation control system of a plastic house in a low humidity state.
According to claim 1,
In the second frame 120, the first outlet 121 on both sides of the contact surface with the first frame 110 that is in contact with the outside is formed in parallel to be spaced apart from each other perpendicular to the ground,
The first outlet 121 is a condensation control system of a plastic house in which air is discharged in the direction of the plastic paper 10 .
According to claim 1,
It further includes a discharge pipe 140 that is horizontally coupled to the second frame 120,
The discharge pipe 140 is A plurality of pieces are installed horizontally spaced apart from each other, penetrated through the second frame 120 or coupled to the inside to receive and discharge air from the second frame 120, but to discharge air in the direction of the plastic paper 10 Condensation suppression system of a plastic house in which the second outlet 141 is formed obliquely in multiple rows up and down around the line closest to the plastic paper 10.
4. The method of claim 2 or 3,
The air supply device 130 is
An air suction unit 134 for sucking air, and
a dehumidifying unit 135 for removing moisture from the sucked air;
a second air supply device 130b for discharging dehumidified air, including an air compression unit 136 passing through the dehumidifying unit 135 and compressing the dehumidified air;
Any one of the first air supply devices (130a) for discharging the dehumidified warm air after passing through the air heating unit (137) for heating the air, the condensation control system of the plastic house.
5. The method of claim 4,
When the air supply device 130 is the first air supply device 130a
A system for inhibiting condensation in a plastic house including a heating wire inside the second frame 120 .
According to claim 1,
An exhaust hole 125 through which the air discharged from the air supply device 130 passes is provided inside the second frame 120 ,
Condensation suppression system of a plastic house provided with a discharge means (160) coupled to the discharge through-hole (125) to change the direction of the discharged air.
7. The method of claim 6,
The discharge means 160 is
A discharge column 164 that is inserted into the discharge hole 125 and has a third discharge port 161 having a hollow air discharge passage formed therein;
a direction changing part 165 formed at the end of the exhaust column 164 to change the moving direction of the air moved through the third outlet 161;
Comprising a plurality of projections 162 or a plurality of through-holes 163 formed in a radial direction in the direction of the vinyl paper 10 from the end of the direction changing part 165 Condensation control system for greenhouses.
According to claim 1,
A temperature sensor for measuring a temperature value inside and outside the plastic house, respectively;
A humidity sensor that measures the humidity inside the plastic house is provided,
Based on the measured values of the temperature sensor and the humidity sensor, the condensation control system of the plastic house in which the air supply device 130 is driven.
3. The method of claim 2,
The gap between the first outlet 121 and the vinyl paper 10 is
smaller than the sum of the diameter of the first frame 110 and the half of the diameter of the second frame 120 .
Condensation control system for greenhouses.
4. The method of claim 3,
The gap between the second outlet 141 and the vinyl paper 10 is
Condensation suppression system of the greenhouse which is smaller than the sum of the diameter of the first frame 110, the diameter of the second frame 120, and the half of the diameter of the second frame 120.

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