KR101729170B1 - A heating and cooling systems of circulation blower type for a greenhouse - Google Patents

Abstract

The present invention relates to a circulation blower type heating/cooling system for a greenhouse, capable of largely improving a growth environment of plants. According to the present invention, the system comprises: a heat pump device cooling or heating circulation water to store the cooled or heated circulation water; a heating/cooling pipe through which the cooled or heated water supplied from the storage tank is circulated while being installed in the inner surface part of the wall of a greenhouse to surround the inside of the greenhouse, so as to first cool or heat the inside of the greenhouse; a blowing unit having a blowing duct fixated and installed in the outer part of the bottom surface inside the greenhouse, wherein multiple blowing pipes vertically erected at constant intervals are installed in the blowing duct while communicating with each other, and have multiple air discharge holes perforated on the wall of the greenhouse at constant vertical intervals by a height corresponding to the wall of the greenhouse; and a circulation chamber unit connected to the inside of the greenhouse through a suction pipe while being disposed in the outside of the greenhouse, and connected to the blowing duct through a supply pipe. A heat exchanger connected through a pipe to circulate and supply the circulation water from the heating/cooling pipe is installed in the inner lower part of the chamber casing and a blower connected to a supply pipe is installed in the inner upper part of the chamber casing. Since a suction fan sucking and supplying the first cooled or heated air inside the greenhouse to the heat exchanger is installed in the suction pipe, the air passing the heat exchanger is distributed, circulated, and supplied inside the greenhouse through each blowing pipe while being transferred to the blowing duct through the blower in a second cooled or heated state.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a circulation type air-

The present invention relates to an air conditioning and heating system for circulating and circulating cold and warm air in various greenhouses so that the temperature of the interior of the greenhouse is kept constant without directly or indirectly applying cold and warm air to various crops cultivated in the greenhouse More particularly, the present invention relates to a heat pump apparatus for cooling and heating a circulating water to a predetermined temperature and storing the circulating water in a storage tank, A cooling and heating pipe for circulating the water through the inside of the greenhouse to cool or warm the inside of the greenhouse and a blowing duct fixedly installed around the inside of the greenhouse at an outer portion of the inner bottom surface of the greenhouse, Wherein the ventilation pipe is connected to the wall of the greenhouse A chamber casing connected to the inside of the greenhouse through a suction pipe and connected through a blowing duct and a supply pipe, and an inner side of the chamber casing And a blower connected to the supply pipe is installed in the upper part of the heat exchanger. The suction pipe is provided with a suction pipe for sucking the first cooled or warmed air inside the greenhouse and sending it to the heat exchanger And a circulation chamber unit for circulating and supplying the air passing through the heat exchanger to the inside of the greenhouse through the respective blowing pipes while the air passing through the heat exchanger is sent to the blowing duct through the blower in a state of being secondarily cooled or warmed. For circulating ventilation type air-conditioning and heating systems .

In general, greenhouse structures are used as storage facilities for the cultivation of vegetables and fruits, for the warming of flora or tropical plants, or for the drying and preservation of other crops. They are made of steel structures, pipes or aluminum chassis The frame is vertically and horizontally connected to each other, and a glass or the like is fixed between the frames, so that the outer wall or the roof can be totally sunlight-permeable.

These greenhouses are capable of cultivating and suppressing cultivation of crops and thus producing agricultural products throughout the year, and it is possible to cultivate and produce special crops that are not cultivated in the fields, so that they can make a high profit in a certain area, It is widely used for breeding (cross breeding) by controlling the steps freely and has the feature to regulate temperature, humidity, irradiation amount of sunlight, etc., and grow in a suitable growing environment according to the crop.

In the greenhouse, the inside temperature is kept constant to match the growing environment of the crop. For this purpose, the greenhouse is provided with a cooling and heating device to provide summer cooling and winter heating. Conventionally, a heat pump device So that cooling and heating of the greenhouse can be performed at the same time.

As a prior art related to a cooling and heating apparatus for a greenhouse using such a heat pump apparatus, Korean Registered Patent Application No. 10-1522548 discloses a heat pump apparatus that is installed in a greenhouse and is connected to a heat pump apparatus to receive a heat source for cooling and heating, And a dehumidifier for heating and dehumidifying the greenhouse, wherein the fan coil unit includes: a main body having a diffuser formed on one side thereof and penetrating through the inside thereof; A heat exchange coil for cooling and heating installed in the main body and connected to the heat pump device for exchanging heat between the heat source for cooling and heating transferred from the heat pump device and air; A dehumidifying heat exchange coil installed in the main body and connected to the underground heat exchanger for exchanging heat between the dehumidified heat source transferred from the underground heat exchanger and air; And a blower fan installed in the diffuser of the main body for guiding the heat exchanged coil in the heat exchanger coil for cooling and heating or the heat exchanger coil for dehumidification to the one side by being guided by the diffuser. A fan coil unit device capable of cooling and heating and dehumidifying is disclosed.

However, in the related art, the heat source of cooling and heating transferred from the heat pump apparatus and the air are blown into the greenhouse by a blowing fan while exchanging heat between the heat exchanging coils for cooling and heating installed in the main body of the fan coil unit, , When a large-scale greenhouse is to be cooled and / or cooled, it is necessary to install dozens of fan coil unit devices inside the greenhouse, and heat loss is increased due to the heat generated when driving the fan coil unit devices of several tens, In addition, the fan coil unit apparatus is designed to concentrate blowing of cold and warm air to a certain distance through a blowing fan and a diffuser, so that cold air discharged from the fan coil unit It is much lower than the average temperature inside the greenhouse. In the case of warm air, it is much higher than the average temperature inside the greenhouse. When the cold or warm air blown from the knitting device directly touches the crop, there is a problem that the growth of the crop is lowered and the size of the fruit or fruit due to the bad flower is poor and productivity is greatly decreased.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a cooling and heating pipe in an inner side portion of a greenhouse wall to primarily cool or warm the inside of the greenhouse and surround the inside of the greenhouse, And a plurality of blowing pipes are installed vertically above the blowing duct. A circulation chamber unit is installed outside the greenhouse. The inside of the greenhouse is connected to the suction pipe, the blowing duct is connected to the supply pipe, and the suction fan installed inside the suction pipe The air is cooled through the internal heat exchanger, and the air is supplied to the blowing duct through the blower in the second cooling or heating state. , Warm air is dispersed as a whole, and the air inside the greenhouse is continuously sucked and circulated The temperature of the discharged and the average temperature inside the greenhouse in rapid indirect blowing manner similar to that of air it is an object to which the growth environment of the crop to be greatly improved.

In order to achieve the above object, the present invention provides a heat pump apparatus for circulating water in a storage tank by cooling or heating the circulation water to a predetermined temperature, and a heat pump apparatus for cooling or heating the circulation water from the storage tank, A cooling and heating pipe for circulating the water through the inside of the greenhouse to cool or warm the inside of the greenhouse and a blowing duct fixedly installed around the inside of the greenhouse at an outer portion of the inner bottom surface of the greenhouse, A plurality of air discharge pipes communicating with each other, the air supply pipes having a height corresponding to the wall of the greenhouse and having a plurality of air discharge holes formed at regular intervals in the vertical direction, A chamber casing connected and connected to the blowing duct through a supply pipe, A heat exchanger connected to a pipe for circulating and supplying the circulation water from the cooling / heating pipe is installed in the inner lower portion of the heat exchanger, and a blower connected to the supply pipe is installed in the upper portion of the heat exchanger, And a circulation chamber unit for circulating and supplying the air passing through the heat exchanger to the inside of the greenhouse through the respective blowing pipes while being sent to the blowing duct through the blower in a state where the air passing through the heat exchanger is secondarily cooled or warmed There is a feature of the present invention.

As described above, according to the present invention, the cooling / heating pipe is provided on the inner side surface portion of the greenhouse wall, so that the inside of the greenhouse is first cooled or warmed, and the outside of the greenhouse inner bottom surface is provided with the blast duct, And a circulation chamber unit is installed outside the greenhouse. The circulation chamber unit is connected to the inside of the greenhouse by a suction pipe, and is connected to a blowing duct and a supply pipe. Through a suction fan installed inside the suction pipe, The cooling or warmed air is sucked in, and the air passes through the internal heat exchanger and is supplied to the blowing duct through the blower in the secondary cooling or warmed state. The air is blown into the greenhouse through the air discharge hole of each blowing pipe, Can be distributed as a whole, and the air in the greenhouse can be continuously sucked and circulated The indirect air blowing method has an effect that the growth environment of the crop can be greatly improved because the average temperature inside the greenhouse is similar to the temperature of the discharged air.

1 is a schematic cross-sectional view of a circulating ventilating cooling / heating system for a greenhouse according to the present invention;
2 is a schematic plan view of a circulating ventilating cooling / heating system for a greenhouse according to the present invention
FIG. 3 is a schematic cross-sectional view of a circulating blowing of cold and hot air inside a greenhouse of a circulating ventilated cooling / heating system for a greenhouse according to the present invention
4 is a schematic cross-sectional view taken along line A-A '
5 is a schematic cross-sectional view showing another embodiment of the circulating ventilated cooling / heating system for greenhouse according to the present invention
FIG. 6 is a schematic cross-sectional view showing a circulating supply state of cold and warm air according to another embodiment of the circulating ventilating cooling / heating system according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 to 6, the circulating ventilating cooling / heating system 1 of the present invention is a system in which cold and warm air are distributed in a circulating manner to the inside of various greenhouses 6, The heating / cooling system for maintaining the temperature inside the greenhouse (6) at a constant level without directly or indirectly applying cold or hot wind to various crops. The heating / The cooling water circulating inside the greenhouse 6 is circulated inside the greenhouse 6 while the cooling water or the circulating water from the storage tank 3 is circulated inside the greenhouse 6, And a blowing duct 12 fixedly installed in the outer periphery of the inner bottom surface of the greenhouse 6 so as to surround the inside of the greenhouse 6. The blowing duct 12 is provided with a predetermined A plurality of blowers vertically erected at intervals A plurality of air discharge openings 14 are formed at predetermined intervals in the vertical direction at a height corresponding to the wall of the greenhouse 6, A chamber casing 20 which is located outside the greenhouse 6 and connected to the inside of the greenhouse 6 through a suction pipe 18 and connected through a blowing duct 12 and a supply pipe 19, A heat exchanger 21 connected to a pipe for circulating and supplying the circulation water from the cooling and heating pipe 5 is installed in an inner lower part of the indoor unit 20 and a blower 22 connected to a supply pipe 19 is installed in an upper part of the heat pipe 21, 18 is provided with a suction fan 24 for sucking the primary cooled or warmed air inside the greenhouse 6 and sending it to the heat exchanger 21 so that the air passing through the heat exchanger 21 is cooled or warmed And is sent to the blowing duct 12 through the blower 22, And a circulation chamber unit 17 circulatingly supplied to the inside of the greenhouse 6 through the pipe 13 in a dispersed manner.

1 to 3, 5 and 6, the heat pump device 2 is a device for both cooling and heating to transfer a low-temperature heat source to a high temperature or to transfer a high-temperature heat source to a low temperature by using heat or condensation heat of a refrigerant. The circulating water of the storage tank 3 is supplied to the heat pump device 2 through the supply pump 4 on the pipe while being connected to the storage tank 3 through which the circulating water is stored, To be cooled or heated to a predetermined temperature, and then stored in the storage tank 3 again.

In the present invention, an air cooling type chilling unit of an air heat source heat pump type may be applied to the heat pump unit 2 and used.

1 to 6, the cooling / heating pipe 5 is a part for primarily cooling or warming the inside of the greenhouse 6, and surrounds the inside of the greenhouse 6 in a side portion of the inside of the wall of the greenhouse 6 The cooling / heating circulation water from the storage tank 3 circulates inside the greenhouse 6 while being piped, and the cooling / heating pipe 5 is connected to the greenhouse 6 (6), and is surrounded by a plurality of upper and lower laminates along the inner circumference of the greenhouse (6), and is connected to the inside of the cooling and heating pipe (5) The cool air or the heat of the circulating water from the tank 3 is diverted to the outside so that the inside of the greenhouse 6 is primarily cooled or warmed.

The cooling and heating pipe 5 is surrounded by a plurality of upper and lower layers along the inner circumference of the greenhouse 6 so that one side of the intake pipe 8 located on the upper side passes through the greenhouse 6, So that the cooled or heated circulating water of the storage tank 3 is introduced into the greenhouse 6 through the inlet pipe 8 and one side of the outflow pipe 9 located at the lower side is connected to the greenhouse 6 The circulating water which has been exchanged with the air inside the greenhouse 6 through the cooling / heating pipe 5 and is raised or lowered in temperature is returned to the storage tank 3 And a circulation pump 10 is provided in a portion of the outflow pipe 9 located outside the greenhouse 6 so that the circulation water of the cooling and heating pipe 5 is received by the operation of the circulation pump 10, And is continuously circulated from the pipe 8 to the outflow pipe 9 side.

4, the inlet pipe 8 is connected to the upper inlet casing 32 provided in the heat exchanger 21 of the circulation chamber unit 17 through a bypass pipe 31 And the outflow pipe 9 is connected to the lower outflow casing 34 of the heat exchanger 21 through a bypass return pipe 33 so that a part of the circulating water supplied along the incoming pipe 8 is bypassed The air sucked through the suction pipe 18 from the greenhouse 6 passing through the heat exchanger 21 is supplied to the heat exchanger 21 through the supply pipe 31 so as to be secondarily cooled or warmed by heat exchange The circulating water passing through the heat exchanger 21 is sent to the outflow pipe 9 through the bypass return pipe 33 and is sent to the storage tank 3.

1 to 6, the air blowing unit 11 is a part for discharging cold and warm air so as to be dispersed as a whole in the greenhouse 6, and a greenhouse 6 is provided at an outer portion of the inner bottom surface of the greenhouse 6, A plurality of blowing pipes 13 vertically installed at regular intervals are connected to the blowing duct 12 and the blowing pipe 13 is connected to a greenhouse (not shown) 6, a plurality of air discharge holes 14 are formed at regular intervals in the vertical direction at a height corresponding to the wall of the discharge duct 12. The air discharge duct 12 is formed in a cylindrical pipe shape made of synthetic resin such as plastic, As shown in Fig. 1, the inlet and outlet sides of the greenhouse 6 are formed in an annular shape having an opening and are located along the outer periphery of the bottom surface of the greenhouse 6, And the air blowing fan The blowing duct 12 is connected to the supply pipe 19 of the circulation chamber unit 17 so as to be supplied with the second cooling or warmed air from the circulation chamber unit 17, 12, a plurality of blowing pipes 13 vertically installed are communicated at regular intervals and a plurality of blowing pipes 13 are installed in the greenhouse 6 so as to surround the blowing pipes 13, The secondary cooling or warm air of the duct 12 is sent to each of the air blowing pipes 13 and the air is blown into the greenhouse 6 through a plurality of air discharging holes 14, And hot air is discharged in a state of being evenly dispersed as a whole on the upper and lower portions of the inside of the casing.

The air in the greenhouse 6 is continuously sucked by the circulating chamber unit 17 and circulated and supplied to the inside of the greenhouse 6 so that the average temperature inside the greenhouse 6 and the temperature 13, the temperature of the air to be discharged is similar, and the growth environment of the crop is greatly improved.

The plurality of blowing pipes 13 are made of synthetic resin such as plastic and have diameters smaller than the diameter of the blowing duct 12 so that the cold and warm air from the blowing duct 12 are smoothly supplied to the respective blowing pipes 13 And the diameter of each of the blowing pipes 13 is gradually decreased from the lower part to the upper part in a state where the upper end part is clogged, so that the discharge pressure of the cold and warm air is kept constant up and down.

A plurality of air discharge holes 14 are vertically spaced apart from each other on both sides of the greenhouse 6 so as to face the inside of the greenhouse 6, The diameter of the air discharge hole 14 formed in the upper portion of each of the air blowing pipes 13 is not smaller than the diameter of the air discharge hole 14 formed in the lower portion of the air discharge pipe 13 So that the discharge pressures of the cold and warm air through the plurality of upper and lower air discharge holes 14 are uniformly discharged.

3, the air blowing pipe 13 is vertically installed between the wall of the greenhouse 6 and the cooling / heating pipe 5, and is connected to the blowing pipe 13 through the air discharge hole 14 Hot air is discharged through the cooling / heating piping 5 installed in the upper and lower multiple layers so that the cold and warm air discharged from the air discharge hole 14 by the cold air or the heat emitted from the cooling / Or cooled so as to increase the cooling and heating efficiency of the greenhouse 6.

5 and 6, when a variety of crops are to be grown in a greenhouse 6 at a predetermined distance from the floor surface through a plurality of growing beds 15 A plurality of bad air blowing pipes 16 laid horizontally on the upper part of the air blowing duct 12 are installed in the air blowing unit 11 so as to communicate with each other at regular intervals, And a plurality of air discharging holes 14 are formed in the respective bad air blowing pipes 16 at regular intervals in the left and right direction, 15, the cooling and heating of the crops cultivated on the cultivation bed 15 is effectively performed.

The bad air blowing pipe 16 is made of synthetic resin such as plastic and has a smaller diameter than the diameter of the blowing duct 12 so that cold air and warm air from the blowing duct 12 are smoothly supplied to each bad air blowing pipe 16. [ And each of the bad air blowing pipes 16 is formed in a closed state with its diameter gradually decreasing from one end to the other end so that the discharge pressure of the cold air and hot air is kept constant as a whole.

A plurality of air discharging holes 14 are formed in the bad air blowing pipe 16 at both sides and toward the bottom surface of the greenhouse 6 at regular intervals on the left and right sides. The air discharge hole 14 is not pierced so that the cold and hot winds are indirectly supplied to the upper portion of the cultivation bed 15 where the crop is cultivated without being directly applied thereto, The diameter of the air discharge hole 14 perforated on one side of each bad air blowing pipe 16 is smaller than the diameter of the air discharge hole 14 punctured on the other side of the bad air blowing pipe 16, So that the discharge pressure of the cold and warm air through the discharge hole 14 is uniformly discharged as a whole.

1 to 6, the circulation chamber unit 17 is a part for sucking the primary cooling or warmed air inside the greenhouse 6 and then circulating and supplying it to the air blowing unit 11 by secondary cooling or heating A chamber casing 20 which is located outside the greenhouse 6 and connected to the inside of the greenhouse 6 through a suction pipe 18 and connected through a blowing duct 12 and a supply pipe 19, A heat exchanger 21 connected to a pipe for circulating and supplying circulation water from the cooling / heating pipe 5 is installed in an inner lower portion of the indoor unit 20, and a blower 22 connected to a supply pipe 19 is installed in an upper portion inside, A suction fan 24 for sucking the primary cooled or warmed air inside the greenhouse 6 and sending the air to the heat exchanger 21 is provided in the main body 18 so that the air passing through the heat exchanger 21 is subjected to secondary cooling When it is warmed and sent to the blowing duct 12 through the blower 22 Is indirectly blown into the inside of the greenhouse (6) by circulatingly supplying the air in the greenhouse (6) by continuously circulating and supplying the air inside the greenhouse (6) through the respective blowing pipes (13) So that the growth environment of the crop is greatly improved.

As shown in FIGS. 1, 3 and 4, the chamber casing 20 has a hollow casing shape, and a partition plate 23, which is horizontally laid on the inner center portion thereof, is fixedly installed. A blower 22 is fixed to the upper part of the diaphragm 23 and a heat exchanger 21 is installed in the lower part of the diaphragm 23 so as to cross the upper and lower sides and the front and rear sides of the diaphragm 23, And is arranged so as to be spaced apart from the inner surface of the casing 20 by a predetermined distance so that the cold and warm air that has been secondarily cooled or warmed by the lower heat exchanger 21 can be moved toward the upper blower 22.

1 to 3, one end of the suction pipe 18 is fixedly installed in a state of being inserted into the inside of the lower portion of the wall of the greenhouse 6, A suction fan 24 is connected to the other end of the suction pipe 18 and is connected to the outlet of the suction fan 24 and the outlet of the heat exchanger 21. [ An air guide plate 25 is provided between the side surfaces so that the primary cooled or warmed air inside the greenhouse 6 to be sucked from the suction pipe 18 through the suction fan 24 is concentrated toward the heat exchanger 21 .

5 and 6, the suction pipe 18 is installed on the inner side in such a manner that the air regulating plate 26a is rotatable about its axis and the shaft of the air regulating plate 26a is arranged on the outer side of the suction pipe 18 And the air control plate 26a is rotated to open or close the inside of the suction pipe 18 or to adjust the amount of air passing through the inside.

1 to 4, one end of the supply pipe 19 is connected to the blowing duct 12 through the lower portion of the wall of the greenhouse 6 and the other end of the supply pipe 19 is connected to the chamber casing 20 And a blowing guide pipe 27 of the blower 22 is connected to the other end of the supply pipe 19 so as to be connected to the upper part of the supply pipe 19 through the heat exchanger 21, The air is concentratedly supplied to the supply pipe 19 through the air blowing guide pipe 27 of the air blower 22.

4 to 6, the supply pipe 19 is provided with an air adjusting plate 26b on its inner side so as to be rotatable about its axis and the shaft of the air adjusting plate 26b is arranged on the outer side of the supply pipe 19 And the air control plate 26b is rotated to open or close the inside of the supply pipe 19 or to adjust the amount of air passing through the inside of the supply pipe 19.

4, the supply pipe 19 is installed in a state where the screen net 28 is vertically crossed in one side, and various foreign substances are included in the air blown through the blower 22 And the upper communicating tube 29 is vertically communicated with the upper part of the supply pipe 19 at a portion where the screen net 28 is installed so that the opening and closing of the upper communicating tube 29 So that various foreign substances caught in the screen net 28 can be removed through the lid 30.

4, the heat exchanger 21 is fixedly installed in a state where the lower portion of the inner side partition 23 of the chamber casing 20 is vertically and horizontally transversely crossed. The upper portion of the heat exchanger 21 is connected to the intake / And an upper intake casing 32 connected to the lower water outlet casing 8 through a bypass return pipe 31 and a lower intake casing 32 connected to the lower water outlet casing 32 through a bypass pipe 9 and a bypass return pipe 33, And a heat exchanging pipe 35 is connected between the inlet casing 32 and the outlet casing 34 so that a part of the circulating water supplied along the inlet pipe 8 passes through the bypass pipe 31 Is supplied to the intake casing 32 and flows along the heat exchange pipe 35. The air sucked through the suction pipe 18 from the greenhouse 6 is secondarily cooled or warmed by a heat exchange type and is passed through the heat exchange pipe 35, The circulating water collects in the water outlet casing 34 and flows into the bypass return pipe 33, Is to be sent through the water outlet pipe (9).

The circulation chamber unit 17 in which the blower 22, the suction fan 24 and the heat exchanger 21 are installed is installed outside the greenhouse 6 so that various heat and dust And noise are not transmitted to the inside of the greenhouse 6, so that the heat loss is minimized and the growth environment of the crop is improved.

Hereinafter, the operation according to the present invention will be described.

By using the greenhouse ventilation type air conditioning and heating system 1 of the present invention, cold and warm air are circulated and dispersed throughout the various greenhouses 6 to provide various kinds of crops grown in the greenhouses 6, When the temperature of the inside of the greenhouse 6 is kept constant without being directly applied to the storage tank 3 from the heat pump unit 2 provided outside the greenhouse 6 as shown in FIG. The circulating water is cooled or heated to a predetermined temperature while being supplied through the supply pump 4 and then stored again in the storage tank 3. The circulating water that has been cooled or warmed to a predetermined temperature of the storage tank 3 is circulated The pump 10 circulates along the inside and outside of the wall of the greenhouse 6 along the inner circumference of the greenhouse 6 and circulates along the cooling and heating pipe 5, The inside of the greenhouse 6 1, thereby primarily cooling or warming up to.

Next, the primary cooling or warmed air of the greenhouse 6 is sucked through the suction fan 24 connected to the suction pipe 18 of the circulation chamber unit 17 to perform heat exchange inside the chamber casing 20 A part of the circulating water supplied along the inlet pipe 8 of the cooling and heating pipe 5 is divided into the upper inlet casing 32 of the heat exchanger 21 through the bypass pipe 31, Circulates through the heat exchange pipe 35 while cooling the air sucked from the greenhouse 6 through the suction pipe 18 in a heat exchange manner and warms the circulating water through the heat exchange pipe 35 to the outflow casing 34 And is sent to the outflow pipe 9 through the bypass return pipe 33. The second cooled or warmed air while notifying the heat exchanger 21 is supplied to the upper portion of the partition 23 of the chamber casing 20 And is concentratedly supplied to the supply pipe 19 through the blowing guide pipe 27 of the blower 22 The hot and cold air from the supply pipe 19 is sent to the plurality of blowing pipes 13 through the blowing duct 12 installed along the outer portion of the inner bottom surface of the greenhouse 6 as shown in FIG. The air is blown into the upper and lower portions of the inside of the greenhouse 6 through the plurality of air discharge holes 14 formed at regular intervals in the vertical direction on the air blowing pipe 13 vertically installed at a height corresponding to the wall of the greenhouse 6, And indirectly blowing air by continuously sucking and circulating the air inside the greenhouse 6, thereby controlling the average temperature inside the greenhouse 6 and the temperature of the air discharged through the plurality of blowing pipes 13 The growth environment of the crop is greatly improved.

5 and 6, when cultivating various crops in a greenhouse 6 in a state where they are spaced apart from the floor by a predetermined distance through a plurality of growing beds 15, they are installed inside the greenhouse 6 The bad air blowing pipe 16 is provided in a state where the bad air blowing pipe 16 is horizontally laid on the upper part of the air blowing duct 12 and is communicated with the lower air blowing pipe 16, The hot and cold air is discharged from the lower part of the cultivation bed 15 through the plurality of air discharge holes 14 punctured at right and left intervals so that the crops to be cultivated on the cultivation bed 15 can be effectively cooled and heated.

1. Circulating air heating system 2. Heat pump device
3. Storage tank 4. Feed pump
5. Heating / cooling piping 6. Greenhouse
7. Fasteners 8. Input piping
9. Outflow piping 10. Circulation pump
11. Ventilation unit 12. Ventilation duct
13. Ventilation pipe 14. Air discharge hole
15. Growing Bad 16. Bad air blowing pipe
17. Circulation chamber unit 18. Suction pipe
19. Supply pipe 20. Chamber casing
21. Heat exchanger 22. Blower
23. Diaphragm 24. Suction fan
25. Air guide plate 26a, 26b. Air throttle
27. Ventilation guide tube 28. Screen net
29. Upper communicating tube 30. Opening lid
31. Bypass supply pipe 32. Intake casing
33. Bypass recovery pipe 34. Outflow casing
35. Heat exchange piping

Claims (10)

A blowing duct 12 fixedly installed inside the greenhouse 6 is provided on the inner bottom surface of the greenhouse 6 and a plurality of blowing pipes 13 are vertically communicated and installed in the blowing duct 12, The pipe 13 is provided with an air blowing unit 11 in which a plurality of air discharge holes 14 are vertically arranged and a suction pipe 18 And a circulation chamber unit 17 connected to the blowing duct 12 through a supply pipe 19 and having a heat exchanger 21 installed at an inner lower portion of the chamber casing 20 A heat pump device 2 installed outside the greenhouse 6 to cool or heat the circulating water and store the circulated water in the storage tank 3; And circulated from the storage tank 3 while being piped in a state of being surrounded by a plurality of upper and lower folds along the inner periphery A cooling and heating pipe 5 for circulating the inside of the greenhouse 6 by circulating the inside of the chamber casing 20 through circulation of the circulating water from the cooling and heating pipe 5 to the heat exchanger 21, A blower 22 connected to the supply pipe 19 is provided in the upper part of the main body 2 so that the primary cooling or warmed air inside the greenhouse 6 taken in through the suction pipe 18 passes through the heat exchanger 21, And a circulation chamber unit 17 which is cooled or warmed and sent to the blowing duct 12 through the blower 22. Each blowing pipe 13 is formed so that its upper end portion is clogged, The cooling air is discharged through the cooling / heating pipe 5 having a plurality of upper and lower layers by the air and cooling air from the air discharge hole 14 while being formed between the wall of the greenhouse 6 and the cooling / The greenhouse air circulation cooling and heating system .
The cooling / heating pipe (5) according to claim 1, wherein one side of the water inlet pipe (8) located on the upper side is connected to the side surface of the storage tank (3) through the greenhouse (6) Circulation water flows into the greenhouse 6 through the inlet pipe 8 and one side of the outflow pipe 9 located below is installed to communicate with the upper part of the storage tank 3 through the greenhouse 6, The circulating pump 10 is installed in the outside of the greenhouse 6 in the outflow pipe 9 so that the circulation pump 10 Wherein the circulation water of the cooling / heating pipe (5) is circulated from the inlet pipe (8) to the outlet pipe (9) in accordance with the operation of the heating / cooling pipe (10).
delete The air conditioner according to claim 1, wherein the air blowing duct (12) is formed in a cylindrical pipe shape made of a synthetic resin material and has a ring shape with an opening and a mouth of a greenhouse (6) A plurality of air discharge holes 14 are vertically spaced apart from each other at both sides and toward the inside of the greenhouse 6, and a plurality of air discharge holes 14 are formed in the greenhouse 6 The air discharge holes 14 are not drilled in the portions of the upper and lower walls 6 and 6 facing the wall of the air discharge pipe 13 and the diameter of the air discharge hole 14 drilled in the upper portion of each of the air discharge pipes 13 is drilled Wherein the air discharge hole (14) has a smaller diameter than the air discharge hole (14).
The air conditioner according to claim 1, wherein the air blowing unit (11) is installed inside the greenhouse (6) with a plurality of bad air blowing pipes (16) horizontally laid on top of the air blowing duct (12) A plurality of air discharge holes 16 are formed in the lower air discharge pipe 16 at regular intervals so as to be spaced apart from each other by a predetermined distance ) Is perforated so as to discharge cold and warm air from the lower portion of the cultivation bed (15).
6. The bidet air blowing pipe (16) according to claim 5, wherein the bad air blowing pipe (16) is made of a synthetic resin material and has a diameter smaller than the diameter of the blowing duct (12). Each bad air blowing pipe (16) A plurality of air discharging holes 14 are formed at left and right intervals at only a portion of both sides of the bad air blowing pipe 16 facing the bottom surface of the greenhouse 6, The diameter of the air discharge hole 14 perforated on one side of each of the bad air blowing pipes 16 is larger than the diameter of the air blowing pipe 14 on the other side of the bad air blowing pipe 16 Wherein the air discharge hole (14) has a smaller diameter than the perforated air discharge hole (14).
2. The chamber casing (20) according to claim 1, wherein the chamber casing (20) has an empty casing shape and a partition plate (23) A blower 22 is fixed to the upper part of the diaphragm 23 and a heat exchanger 21 is installed in the lower part of the diaphragm 23 so as to be vertically and transversely crossed. And the cold and warm air passing through the lower heat exchanger (21) is movable toward the upper air blower (22).
The air conditioner according to claim 1, wherein the circulation chamber unit (17) is provided with an air guide plate (25) between the outlet side of the suction fan (24) and one side of the heat exchanger (21) And the air control plate 26a is provided inside the air conditioning plate 26a so as to be rotatable about its axis so as to rotate the air control plate 26a to open or close the inside of the suction pipe 18 or to control the amount of air passing through the inside thereof Circulating ventilation type air-conditioning system.
The air conditioner according to claim 1 or 2, wherein the circulation chamber unit (17) is connected to a blowing guide pipe (27) of a blower (22) at the other end of the supply pipe (19) The air control plate 26b is installed inside the air circulation passage so that the air control plate 26b is rotated around the axis so that the air control plate 26b is rotated to open or close the inside of the supply pipe 19 or to control the amount of air passing through the inside thereof, The supply pipe 19 is installed in a state where the screen net 28 is vertically crossed and the upper communication pipe 29 is vertically communicated with the upper part of the supply pipe 19 at a portion where the screen net 28 is installed And the foreign matter caught in the screen net (28) can be removed through the opening / closing lid (30) of the upper communicating tube (29).
The air conditioner according to claim 1 or 7, wherein the heat exchanger (21) is provided with an upper intake casing (32) connected to the upper portion of the cooling / heating pipe (5) through an intake pipe (8) And a lower outlet casing 34 connected to the lower portion of the cooling / heating pipe 5 through an outlet pipe 9 and a bypass return pipe 33. A heat exchange pipe 35 is provided between the inlet casing 32 and the outlet casing 34 A part of the circulating water supplied along the inlet pipe 8 is supplied to the inlet casing 32 through the bypass supply pipe 31 and flows along the heat exchange pipe 35 to be supplied from the greenhouse 6 The air sucked through the suction pipe 18 is secondarily cooled or warmed by heat exchange and the circulating water that has passed through the heat exchange pipe 35 is collected in the outflow casing 34 and discharged through the bypass pipe 33 ) Of the circulating ventilation type cooling / heating system The system.

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