KR101644633B1 - Convection circulation system for greenhouse - Google Patents

Abstract

The present invention relates to a convection circulation system for plastic greenhouses. More specifically, the present invention relates to a convection circulation system for plastic greenhouses, keeping crops cultivated in a plastic greenhouse warm and heated by means of a convection circulation layer formed along an inner wall of the plastic greenhouse for cultivating crops.

Description

Convection circulation system for greenhouse

The present invention relates to a circulating convection system for a vinyl house, and more particularly, to a circulating convection system for a greenhouse, in which a circulating convection layer is formed along the inner wall of a vinyl house in which a crop is grown, The present invention also relates to a circulating convection system for a vinyl house, which prevents microbial pests and germs remaining in the air sucked by a PTC heating element of a hot air circulating machine heated to a high temperature, thereby preventing the pests of crops grown in the vinyl house.

As is known, a single layer of vinyl covering a greenhouse has limited normal growth of our climate crops in our country, where the temperature of the outside air in winter is maintained at -10 to -20 ° C.

Therefore, heating is performed by using a heat source such as a petroleum or briquette fireplace so that the internal temperature of the greenhouse can be maintained at a temperature suitable for growth of 20 ° C or outside. In a relatively low-income farmhouse, I feel burdened.

Therefore, in order to maintain the insulation of the room while keeping the heating cost as low as possible, a thin insulating material made of styrofoam, urethane or the like is adhered and fixed to the surfaces of the ordinary foamed film and the both side surfaces, and a synthetic resin cloth such as PP- And then coating the surface with a synthetic resin film has been proposed in Korean Utility Model Publication No. 90-2728.

However, in order to increase the amount of daylight during the day, it is necessary to walk the protective cover which is covered with the vinyl house, and at night when the temperature of the outside air is falling, the protective cover In the rural area where the labor force is lacking, it is left untreated and the protective cover that is put on the plastic house is left. Therefore, there is a problem that the growth of the cultivated crop is reduced.

Recently, a hot-air device is installed in a vinyl house to realize the heating inside the plastic house. Thus, the state is realized by direct heating of the plastic house through hot air.

However, since the conventional hot air apparatus indirectly heats the inside of a plastic house through a duct pipe or the like, the heat loss is increased due to the presence of residual heat inside the hot air blower and the power consumption is increased, .

The conventional hot air apparatus is a system in which hot air is supplied to the internal space of the agricultural greenhouse from one hot air apparatus and circulates through the entire internal space. It takes a long time for the greenhouse to be heated to a predetermined temperature by the time required for circulating hot air And at the same time, there was a problem that the heating of the greenhouse for agriculture was performed irregularly throughout the entire inner space.

It is an object of the present invention, which is devised to overcome the above-mentioned problems, to actively implement temperature control of each cultivation area where crops are grown in the greenhouse, and to make the temperature of each cultivation zone suitable for cultivation of crops And the discharge direction of the recirculated circulating air is changed so as to prevent the generation and remnant of the condensation water that condenses on the inner wall of the vinyl house and to prevent a large amount of moisture from remaining between the crops, In order to prevent the insect pests of the crops grown in the vinyl house, micro-pests and germs remaining in the air sucked by the PTC heating element of the hot air circulating machine heated at a high temperature are formed while the optimum growth conditions are formed according to the cultivation of the domestic crops. And to provide a circulating convection system for a vinyl house.

The above object is achieved by the following constitutions provided in the present invention.

In the circulating convection system for a greenhouse according to the present invention,

A plurality of hot air circulators arranged on the outer passage formed between the inner wall of the plastic greenhouse and the crop growing section so as to be spaced apart from the allocation section and discharging the air in one direction along the outer passage;

A temperature measuring sensor disposed in each of the assigned sections in which the hot air circulators are disposed to measure the temperature of the assigned section; And

And an integrated control device for individually controlling the driving amount and the driving amount of each of the hot air circulators arranged so as to be spaced apart from each other on the outer passage,

Each of the hot air circulators is subjected to a process of sucking the hot air discharged from the hot air circulator disposed at the rear side and forcibly discharging the hot air in the forward direction under the control of the integrated controller to form a circulating air layer in which air circulates in one direction in the outer channel The circulating convection layer formed between the crop growing section and the inner wall of the vinyl house is used for heat insulation between the crop growing section and the inner wall of the vinyl house and the circulation of the air is made by the circulation convection layer flowing into the crop growing section While,

The integrated control device measures the actual temperature of the allocation period through the temperature measurement sensor disposed in each allocation period and differentially drives the hot air circulators disposed in the allocation period according to the measured actual temperature, And the temperature of the section is maintained at a temperature suitable for the growth of the crop.

Preferably, the hot air circulator includes: a main body having a suction port formed at a rear side thereof and a blowing port formed at a front side thereof; A PTC heating element disposed in the main body and radiating heat through heat generation; An inlet air blowing fan for sucking air in the rear side through the inlet port to exchange heat with the PTC heating element, and then discharging the heat-exchanged air through the air outlet; And a control unit for controlling the driving of the PTC heating element and the intake air blowing fan.

More preferably, the air blowing port is provided with a plurality of guide blades vertically spaced apart from each other, and the hot air discharged through the air blowing hole is guided in a forward direction while being passed between the guide blades.

The swirling vane rotates inward and outward by the air blown through the blowing cap so that the vinyl which forms the inner wall of the vinyl house is repetitively struck.

 In addition, a coil-shaped vibration band is disposed on the inner wall of the vinyl house, and the swirling vane which repeatedly turns inward and outward is configured to indirectly strike the vinyl through the vibration band without directly hitting the vinyl,

The vinyl which forms the side wall of the vinyl house is configured to discharge droplets left on the inner wall while being vibrated by receiving vibration from the vibration band.

As described above, in the present invention, by forming the circulating convection layer in which air circulates in one direction in the outer passage arranged between the inner wall of the vinyl house and the crop growing section, stable heat insulation of the crop growing section is achieved, Circulation can prevent the phenomenon that the moisture condenses on the crops and causes obstacles to the growth of the crops.

In particular, according to the present invention, the hot air circulators are arranged on the outer passage in a spaced-apart manner, and a temperature measuring sensor is disposed in each of the allocated intervals, and the hot air circulators installed in the corresponding interval, So that the crop growing unit can uniformly maintain the optimum temperature suitable for the growth of crops as a whole, and as a result, a phenomenon that a variation in the growth of crops is caused by a temperature deviation is prevented.

In the present invention, a swirling vane that hits the inner wall of the vinyl house while being repeatedly turned inward and outward by the air blown to the hot air circulating device is disposed so that water droplets remaining on the vinyl inner wall of the vinyl house are quickly discharged to the lower portion .

Therefore, the present invention provides a circulating-convection layer along the inner wall of a greenhouse in which a crop is grown, thereby achieving thermal insulation of the crop through the circulation-convective layer and actively controlling the temperature between each cultivation zone in the greenhouse It is possible to form optimum temperature conditions suitable for the growth of crops in each cultivation area.

In addition, it is possible to prevent the generation and remnant of the condensed water condensed on the inner wall of the greenhouse, thereby improving the light permeability and ensuring a smooth ventilation state between the crops, thereby suppressing the occurrence of pests caused by residual moisture.

The pest insects and germs remaining in the air sucked by the PTC heating element of the hot air circulating machine heated at a high temperature are killed, thereby preventing the pests of crops grown in the greenhouse.

FIG. 1 is a view showing a state in which a greenhouse heating system proposed in a preferred embodiment of the present invention is installed in a greenhouse,
FIG. 2 shows a detailed configuration of a hot air circulating machine in a heating system for a greenhouse proposed as a preferred embodiment of the present invention,
FIGS. 3 and 4 show the state of formation of the circulating convection layer through the hot air circulator in the heating system for a greenhouse proposed as a preferred embodiment of the present invention,
5 is a view showing a state in which a hot air circulator is fixed to a support frame in a heating system for a greenhouse proposed as a preferred embodiment of the present invention,
FIG. 6 is an enlarged view showing the operation state of the 'A' portion in FIG. 3,
Fig. 7 is a view showing an operating state of the blowing angle switching unit in a heating system for a greenhouse proposed as a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a heating system for a greenhouse proposed as a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a state in which a greenhouse heating system proposed in a preferred embodiment of the present invention is installed in a greenhouse, and FIGS. 2 and 3 are views showing a heating system for a greenhouse proposed in the present invention 4 shows a state of formation of a circulating convection layer through a hot air circulation system in a heating system for a greenhouse proposed in the present invention, and FIG. 4 FIG. 6 is an enlarged view of the operation state of the 'A' portion in FIG. 3, and FIG. 7 is a cross-sectional view of a hot air circulator proposed in the preferred embodiment of the present invention , And the switching state of the circulation direction.

1 to 4, a heating system 1 for a greenhouse according to the present invention includes a circulation convection layer (not shown) formed in an outer passage 120 formed between an inner wall of a greenhouse 100 and a crop growing unit 120 Heat insulation and heating are provided between the crops grown in the crop growing section 110 formed inside the outer passage 120 and the inner wall of the greenhouse 100 to prevent the crops from being cooled down, Circulating the air to promote the growth while preventing the disease of the crops.

1, the heating system 1 for a greenhouse is disposed in an outer passage 120 formed between an inner wall of the greenhouse 100 and a crop growing section 110 so as to be spaced apart from an outer section of the outer passage 120, A plurality of hot air circulators (30) for discharging air in one direction along one direction to form a circulating convection layer circulating in one direction; A temperature measuring sensor (20) for measuring the temperature of each allocation section heated and allocated by each of the hot air circulators (30); And an integrated controller (10) for controlling whether or not each of the hot air circulators (30) arranged to be spaced apart from each other on the outer passage (120) is driven.

The integrated controller 10 measures the actual temperature of the allocation period through the temperature measurement sensor 20 disposed in each allocation period and measures the temperature of the hot air circulator 30 disposed in the allocation period according to the measured actual temperature. So that the temperature of each allocation section maintains a temperature suitable for the growth of the crop.

Therefore, a uniform temperature is maintained throughout the inner wall of the greenhouse 110 by the circulating convection layer, and as a result, the temperature is maintained at a temperature suitable for the growth of the crop without temperature variation for each section, The occurrence of a deviation is prevented.

The integrated control unit 10 circulates the air simply through the hot air circulating unit 30 during the day when heating is not normally required in the greenhouse 100 so that a circulating convection layer made of cold air is formed in the outer passage 120 At the night when the internal temperature of the greenhouse 100 is lowered, the air is heated through the hot air circulator 30 to generate hot air, and the hot air is circulated along the outer path 110 to form a circulating air layer .

As shown in FIG. 2, the hot air circulator 30 disposed in each of the allocated sections includes a main body 31 having a suction port 31a formed at the rear and a fan port 31b formed at the front thereof; A PTC heating element 32 disposed in the main body 31 and radiating heat through heat generation; An air suction blowing fan 33 for sucking air behind the air intake port 31a to exchange heat with the PTC heating element 32, and then discharging the heat exchanged air through the air blowing port 31b forward; And a control unit 36 for controlling the driving of the PTC heating element 32 and the intake blowing fan 33.

The PTC heating element 32, which heats the intake air, is formed by stacking heat radiating pieces bent in a zigzag shape so that the air sucked through the intake port 31a passes through between the heat radiating pieces, Then, the air is discharged forward through the air outlet 31b.

In this process, the PTC heating element 32 generates a large amount of negative ions from the heated ceramic to purify the air, and the air passing through the PTC heating element 32 causes instantaneous heating to kill germs and bacteria remaining in the inside of the PTC heating element 32 Thereby preventing the pest insects of the crops due to the bacteria or bacteria remaining in the greenhouse 100.

The blowing damper 35 is disposed in the blowing port 31b and the air blown forward through the blowing port 31b is blown out to the blowing damper 35. [ And is discharged in a normal traveling direction.

In the present embodiment, the air blowing damper 35 is provided with a swirling vane 35a that pivots inward and outward, and the swirling vane 35a is swung by the air blown forward through the air blowing damper 35 as shown in Figs. 3 and 6, The vane 35a is rotated inward and outward, so that the vinyl forming the inner wall of the vinyl house 110 is repeatedly struck.

At this time, a vibration band 60 is disposed on the inner wall of the vinyl house 100, and the swirling vane 35a, which repeatedly turns inward and outward, does not directly hit the vinyl but indirectly blows the vinyl through the vibration band 60 Make a hit.

With this configuration, the vinyl that forms the side wall of the vinyl house 100 is vibrated by receiving the vibration from the vibration band 60, and the water droplets left on the inner wall of the vinyl due to such vibration are rapidly discharged to the lower portion, Water droplets are formed on the inner wall of the vinyl to deteriorate the light transmittance, and water droplets fall on the crops, thereby preventing the crops from becoming wet and causing the disease.

Therefore, the hot air circulators 30 arranged on the outer passage 120 are driven by the hot air circulating device 30 disposed rearward by the integrated control device 10 to suck and reheat hot air, And the forced ejection is performed sequentially.

Accordingly, a circulation convection layer circulating through the hot air circulator 30 is formed in the outer passage 120 formed between the inner wall of the greenhouse 100 and the crop growing section 110, so that the thermal insulation and the heating are promoted In this case, the integrated controller 10 differentially adjusts the driving amount of the hot air circulator 30 disposed in the corresponding allocation period according to the temperature value of each allocation period measured through the temperature measuring sensor 20, And maintains the temperature suitable for the growth of the crop in the allocation period.

The swirling vane 35a of the air blowing cap 35 installed in the air blowing port 31b is repeatedly turned inward and outward by the blowing air so that the vibration band 60 arranged on the inner wall of the vinyl house 100 is rotated, And the hitting vibration band 60 repeatedly vibrates the inner wall of the vinyl so that water droplets remaining on the inner wall of the vinyl are quickly discharged to the lower portion by vibration so as to prevent water droplets from forming on the inner wall of the vinyl .

A fixing bracket 40 is formed on one side of the main body 31 of the hot air circulator 30 facing the inner wall of the greenhouse 100 to be fixed to the support frame 101 of the greenhouse 100, The hot air circulator 30 is fixed to the inner wall of the greenhouse 100 in a state of being vertically spaced apart from the ground surface of the outer passage 110 with one side fixed to the support frame 101 through the fixing bracket 40.

5, the fixing bracket 40 is formed with a press-fitting clip 41a which is press-fitted and fixed to the support frame 101 formed on the inner wall of the greenhouse 100, Is fixed to one point of the support frame (101) through the clip (41a) to adjust the fixing height of the hot air circulator (30).

At this time, the support frame 101 is vertically spaced apart from the position fixing grooves 101a by inserting and fixing the ends of the press-fitting clips 41a, and the end portions of the press-fitting clips 41a press- Is pressed into the position fixing groove 101a and stably fixed to the support frame 101. [

The hot air circulator 30 has an elastic support base 37 formed with an elastic extension and contraction section and fixed to one side of the support frame through a fixing bracket 40. The elastic support base 37, So that the hot air circulator 30 spaced apart from the ground surface is prevented from being sagged inwardly by fixing the outer one point through the fixing bracket 40. [

In particular, the elastic support base 37 is elastically stretchable and flexible in which the supporting length is elastically adjusted by the elastic deformation, so that the hot air circulator 30 is stably supported on the ground even if the fixing height of the hot air circulator 30 is changed.

In the present embodiment, each hot air circulator 30 forms a circulation convection layer formed of cold air in the inside where the crop growing unit 120 is formed in the daytime under the control of the integrated controller 10, And a circulating convection layer formed of warm air along the outer passage 120 is formed at night so as to ensure stable warming and heating between the inside of the greenhouse 100 and the crop growing unit 110 .

To this end, in this embodiment, the fixing bracket 40 is fixed to the support frame 101 of the greenhouse 100, and the support member 41b is formed on the inside thereof. A hinge member 42a fixed to the side wall of the hot air exchanger 30 and fixed to the fixing member 41 in a hinge structure by assembling the supporting piece 41b and the stacked hinge pieces 42a through a hinge shaft 42b in a hinge structure, (42).

Each of the hot air circulators 30 provided on the support frame 101 of the greenhouse 100 via the fixing bracket 40 is configured to swing inward and outward with respect to the hinge shaft 42b so as to switch the blowing direction do.

In the present embodiment, the hot air circulators 30 arranged so as to be spaced apart from each other on the outer passage 120 are configured to be swirled collectively so as to ensure the convenience and promptness in switching the blowing direction of the hot air circulator 30 .

To this end, in the present embodiment, a blowing angle switching unit 50 for switching the blowing direction of the hot air circulating units arranged at mutually spaced positions on the outer passage through the fixing bracket 40 is provided, The blowing direction of each of the hot air circulators (30) can be collectively switched by the blower (50).

7, the ventilation angle switching unit 50 proposed in the present invention includes a hot air circulator 30 arranged longitudinally along the outer passage 120 and spaced apart along the outer passage 120 A traction wire 51 fixed to each of them; A traction spring 52 for continuously pulling one end of the traction wire 51 to one side; And a winding unit (53) for winding the other end of the pulling wire (52) and pulling it to the other side.

The winding unit 53 includes a winding drum 53a for winding and pulling the traction wire 51 and a driving unit 53b for rotating the winding drum 53a in the forward and reverse directions, A drive motor controlled through a control device or a handle for providing a rotational force through a water operation is adopted.

3, when the pulling wire 51 is wound by the winding unit 53, the hot air circulators 30 are pulled by the pulling wire 51 and swirled outward as a whole, When the traction wire 51 is unfolded by the unit 53, the hot air circulators 30 are pulled to one side by the traction spring 52 and swung inward collectively.

The present invention is not limited to the embodiment in which the operator enters the outer passage 120 and swivels the respective hot air circulators 30 to the inside and outside so as to switch the air blowing direction, 53 to rotate the hot air circulators 30 in a lump, thereby switching the air blowing direction.

Accordingly, in the present invention, a circulating convection layer is formed inside the crop growing unit 110 in the daytime to circulate air to the crop to help the air by the crop, and at night, It is possible to form a circulating-convection layer so as to ensure stable warming and heating between the inside of the greenhouse 100 and the crop growing section 110.

1. Heating system for greenhouse
10. Integrated control device 20. Temperature measuring sensor
30. Hot air circulator 31. Body
31a. Intake port 31b. Tuyer
32. PTC heating element 33. Blower fan
34. Intake damper 35. Ventilation damper
35a. Turning wing
36. Control part 37. Elastic support
40. Fixing bracket 41. Fixing member
41a. The press-fitting clip 41b. Support piece
42. Hinge member 42a. Hinge
42b. Hinge axis
50. Ventilation angle switching section 51. Traction wire
52. Traction spring 53. Winding roller
53a. Winding motor
60. Vibration band
100. Greenhouse 101. Support frame
110. Crop growing section 120. Outer passage

Claims (5)

A plurality of hot air circulators arranged on the outer passage formed between the inner wall of the plastic greenhouse and the crop growing section so as to be spaced apart from the allocation section and discharging the air in one direction along the outer passage;
A temperature measuring sensor disposed in each of the assigned sections in which the hot air circulators are disposed to measure the temperature of the assigned section; And
And an integrated control device for individually controlling the driving amount and the driving amount of each of the hot air circulators arranged so as to be spaced apart from each other on the outer passage,
Each of the hot air circulators is subjected to a process of sucking the hot air discharged from the hot air circulator disposed at the rear side and forcibly discharging the hot air in the forward direction under the control of the integrated controller to form a circulating current layer in which air circulates in one direction in the outer channel Thus, the circulation convection layer formed between the crop growing section and the inner wall of the vinyl house provides heat insulation between the crop growing section and the inner wall of the vinyl house, and circulation of the crop growing section is performed by the circulation convection layer introduced into the crop growing section While,
The integrated control device measures the actual temperature of the allocation period through the temperature measurement sensor disposed in each allocation period and differentially drives the hot air circulators disposed in the allocation period according to the measured actual temperature, Wherein the temperature of the section is maintained at a temperature suitable for the growth of the crop. 2. The hot air circulation system according to claim 1, wherein the hot air circulator includes: a main body having a suction port formed at the rear side thereof and a blowing port formed at a front side thereof; A PTC heating element disposed in the main body and radiating heat through heat generation; An inlet air blowing fan for sucking air in the rear side through the inlet port to exchange heat with the PTC heating element, and then discharging the heat-exchanged air through the air outlet; And a control unit for controlling the driving of the PTC heating element and the intake air blowing fan. The air conditioner of claim 2, wherein the air blowing port is provided with a plurality of guide blades vertically spaced from each other, and the hot air discharged through the air blowing port is discharged forward while being guided along the guide vanes Features a circulating convection system for vinyl houses. The air conditioner of claim 3, wherein the air blowing cap is provided with a swirling vane pivoting outwardly so that the swirling vane is rotated inward and outward by the air blown through the air blowing cap to repeatedly strike the vinyl forming the inner wall of the vinyl house Wherein the circulating convection system for a greenhouse is a circulating convection system for a green house. [5] The apparatus according to claim 4, wherein a coil-shaped vibration band is disposed on the inner wall of the vinyl house, and the swirling vane repeatedly turning inward and outward is indirectly struck through the vibration band without directly hitting the vinyl,
Wherein the vinyl that forms the side wall of the vinyl house is configured to discharge water droplets remaining on the inner wall while being vibrated by receiving vibration from the vibration band.

Images