KR200353415Y1 - Cooling and heating machine for glass culturing - Google Patents

Abstract

The present invention provides a cooling / heating device of a greenhouse for crop cultivation, which can be installed in a greenhouse for growing various crops to maintain an appropriate cultivation temperature (heating temperature and cooling temperature) at a low energy cost and contribute significantly to cost reduction. To do it.

That is, the present invention constitutes a cooling / heating device (1) installed in a greenhouse for crop cultivation to selectively perform cooling and heating, which is provided with a water thermometer (7), a drain valve (8), and an expansion tank (6). An electrothermal heater (2) in which voltage proportional control (SCR) is performed is installed inside the electrothermal casing (3), and before and after the electrothermal casing (3), a heat dissipation tube (4) piped to each greenhouse is circulated by a pump (5). And an air circulation heat exchanger (9) having a fan (10) for forcibly circulating the air in the greenhouse with the outside air in the middle of the heat dissipation pipe (4), and the electrothermal casing (3). One side is connected to the inlet pipe (23) of the cold / warm-separator (11) which can selectively supply cold and warm air, and the inlet (23) is connected to the air circulation heat exchanger (9) ,

The present invention is capable of cooling and heating the temperature inside the greenhouse to a desired temperature by selectively supplying cold water and hot water through the heat dissipation pipe (4), in particular, the present invention is the heating heater (2) and cold · At the same time, the warmth generated from the warmth-separator 11 is injected into the electrothermal casing 3, and when cooled, the cold-air generated from the cold / warm-separator 11 is injected to provide high-efficiency heating and cooling at low energy costs. By injecting cold and warm air into the air circulation heat exchanger (9), the efficiency can be maximized even when the air in the greenhouse is forced to circulate with the outside air, and the installation cost can be reduced. A number of effects can be provided, including a significant contribution to the difficult rural economy.

Description

Cooling and heating equipment for greenhouses for growing crops {Cooling and heating machine for glass culturing}

The present invention relates to a cooling / heating device of a greenhouse for growing crops, and more particularly, it is installed in a greenhouse for growing various crops to maintain an appropriate growing temperature (heating temperature and cooling temperature) at a low energy cost, thereby significantly reducing costs. It is to provide a cooling and heating system for a greenhouse for growing crops.

In general, as a greenhouse heating device for growing various crops regardless of season, heating boilers using diesel oil are used, but the development of a heating device that solves this problem is urgently needed. In order to maintain a low temperature, a separate air conditioner is required, but this was also difficult in crop cultivation farmers due to the burden of the purchase cost and energy cost of the air conditioner.

Accordingly, the present invention is to provide a cooling and heating apparatus for a greenhouse for growing crops that can be used for cooling and heating in a greenhouse for growing various conventional crops as described above.

The present invention has a technical problem of the present invention in order to provide a cooling and heating device of a greenhouse for growing crops, in which the structure is simple and the energy cost can be minimized, and heating and cooling can be selectively performed according to the season. It is completed.

1 is a planar layout showing the overall configuration and use of the subject innovation

Figure 2 is a perspective view of the electrothermal casing portion that is the main part of the present invention

Figure 3 is a perspective view showing a known cold, warmer-separator used in the present invention

■ Explanation of symbols used in main part of drawing ■

1: cooling and heating system (for greenhouses for growing crops) 2: electric heaters

3: electrothermal casing 4: heat dissipation tube

5: circulation pump 6: expansion tank

7: Water thermometer 8: Drain valve

9: air circulation heat exchanger 10: fan

11: cold / warm-separator 12: compressor

13: compressed air inlet 14, 15: outlet

16, 17: supply pipe 18, 19: supply hole

20: Whirlwind 21: Vane

22: screw adjustment means

1 is an overall plan view showing a preferred embodiment of the cooling and heating device (1) of the greenhouse for crop cultivation provided by the present invention, Figure 2 is a perspective view of a portion of the heat transfer casing (3) that is the main part of the present invention 3 is a perspective view showing the configuration of the cold / warm-separator 11 used in the present invention. Hereinafter, the present invention will be described in detail with reference to the drawings.

That is, the present invention constitutes a cooling / heating device (1) of a greenhouse for growing crops, using electric energy as a main energy source, and injecting compressed air into auxiliary energy sources to separate cold and warm air. By using cold air or warm air separated from the warmth-separator 11, it is possible to selectively perform cooling and heating with high efficiency at a low fuel cost.

To this end, an electrothermal heater (2) having a voltage proportional control (SCR) is installed inside the electrothermal casing (3), and the electrothermal casing (3) is connected to the heat dissipation pipe (4) made of stainless corrugated pipes before and after to conduct heat transfer. The water heated by the heater 2 can be circulated through the heat dissipation tube 4 onto the heat transfer casing 3. To this end, the circulation pump 5 is installed in the middle of the heat dissipation pipe 4.

In addition, on the heat transfer casing 3, an expansion tank 6, a water thermometer 7 capable of checking the water temperature, and a drain valve 8 for discharging foreign substances are provided.

Meanwhile, an air circulation heat exchanger (9) having a fan (10) for forcibly circulating the air in the greenhouse with the outside air is installed in the middle of the heat pipe (4) in parallel.

The heat dissipation pipe 4 may be one or two or more pipes in the heat transfer casing 3 to simultaneously cool and heat two or more greenhouses. (The illustrated example simultaneously cools and heats two greenhouses. This is an example of the case where the heat pipe is piped to make it possible.)

In addition, a cold / warm-separator 11 is provided to selectively supply cold or warm air into the heat transfer casing 3.

The cold / warm-separator 11 injects compressed air supplied by compressing air in the atmosphere at a high pressure in the compressor 12 through the compressed air inlet 13, and the hot and cold air through the outlets 14 and 15. As a means of automatically separating, such a cold-warm-separator 11 is known from the Russian patent, etc., and in the present invention, it is possible to increase efficiency by additionally using a known cold-warm-separator 11.

Looking at the structure and principle of the cold-warm-separator 11 with reference to Figure 3, the compressed air injected through the compressed air inlet 13 (at least 1kgf / ㎠ to up to 10kgf / ㎠) is 2 Outline of the supply pipe (16, 17) branched through the supply hole (18, 19) formed in the opening direction rotatably installed in the vortex tube (20) connected to the lower portion of the supply pipe (16, 17) As the vane 21 is rotated and driven, the vane 21 is rotated, and as the compressed air is heated by frictional heat with the inner edge of the vortex tube 20, the outside is formed with warm air, and the center is cold air. The formed warm air is discharged to the discharge port 14 along the passage formed by the lower threaded adjusting means 22, and the cold air collected at the center is supplied to the upper discharge port 15 through the supply pipes 16 and 17 in the swirl pipe 20. The cold-warm-separator (11) is discharged to the air when compressed air is injected. Compressed air rotates at high speed through the supply holes 18 and 19 tangentially formed in the pipes 16 and 17, and the vanes 21 installed in the lower swirl pipe 20 are heated by frictional heat. Since the spontaneous thermal separation phenomenon occurs, the warm air is discharged in a state of 90 ° C to 120 ° C and the cold air in the center is -20 ° C to -30 ° C. Inject into.

That is, in winter, the hot water heated by the electric heater (2) is heated to a higher temperature. In the summer, the electric heater (2) is turned off, and the cold ground water is supplied to the electrothermal casing (3) and the cold / hot-separator (11). By supplying the cold air discharged from) can be cooled to a cooler state.

In addition, the cold and warm air discharged from the cold / warm-separator 11 are also supplied to the air circulation heat exchanger 9 to be used simultaneously to forcibly circulate air in the greenhouse.

In the figure, reference numeral 23 denotes an injection tube for injecting cold or warm air into the electrothermal casing 3, and 24 denotes a greenhouse.

The cooling and heating device 1 of the present invention, which can be configured as described above, is installed in a greenhouse 24 for growing various crops, and heating is performed when the temperature is low, such as winter, and cooling when the temperature is high, such as summer. As can be selectively performed, the specific operation and the like of the present invention will be described in detail below.

That is, when heating is to be performed using the cooling / heating device 1 of the present invention, the electric power is turned on to operate the heat transfer heater 2 and the circulation pump 5. And by operating the cold-warm-separator (11) to connect the outlet 14 and the heat transfer casing (3) that discharges the warmth to the injection pipe 23 so that the warm air is injected simultaneously into the heat transfer casing (3), injection The tube 23 is also connected to the air circulation heat exchanger 9 to simultaneously supply the warmth.

The water heated by the heat transfer heater 2 in the heat transfer casing 3 by the operation of the circulation pump 5 is circulated back to the heat transfer casing 3 along the heat dissipation tube 4, and the heat transfer heater 2 The temperature of the water by warming the water to the temperature of about 70 ° C and using the warmer injected from the cold / warm-separator 11 to increase the temperature of the water by about 15 to 20 ° C. It can be obtained with a small amount of electricity consumption.

And if the temperature of the hot water is lowered below the set value by checking the temperature in the water thermometer (7) installed in the heat transfer casing (3) to operate the heat transfer heater (2) to automatically warm to the desired hot water temperature.

If the temperature required in the greenhouse 24 using the cooling and heating device 1 of the present invention is to maintain the internal temperature of about 17 ° C. in winter for mushroom cultivation, The warmed hot water is maintained at a temperature of about 17 ° C., which is optimal for cultivation of mushrooms as a whole, while maintaining the temperature of about 85 ° C. ± 2 ° C. in the heat radiating tube 4, which is This is possible through the flow rate, the surface temperature of the heat transfer heater 2, and the voltage proportional control (SCR).

The flow rate of hot water is 1HR / 360ℓ, the surface temperature of the electric heater 2 is controlled at 650 ℃ ± 3 ~ 5 ℃, and if the water temperature of the hot water is maintained at 85 ℃ ± 2 ℃, the outlet hot water of the electrothermal casing 3 The temperature is about 85 ℃, the inlet hot water temperature can be continuously circulated about 83 ~ 84 ℃, due to the heat source that the hot water emanates through the stainless steel heat dissipation pipe (4) consisting of corrugated pipe by this hot water temperature The room temperature in the greenhouse 24 can be maintained at 17 ° C.

And one side of the heat dissipation tube 4 of the present invention is provided with an air circulation heat exchanger (9) can circulate the air in the greenhouse 24 with the outside air forcibly, the air circulation heat exchanger (9) Since the warmth is simultaneously supplied from the warmer-separator 11 through the injection pipe 23, a higher energy saving efficiency can be obtained when the air in the greenhouse 24 is forcedly circulated.

On the other hand, when the cooling and heating device (1) of the present invention to cool the inside of the greenhouse 24 in the summer, the heat transfer heater (2) is turned off, the water is to use the ground water, the cold and warmer-separator (11 When supplying the cold air discharged from the through the inlet tube 23 can be utilized as a cooling device for cooling the heat in the greenhouse 24 while the cold water circulates like electricity, and also when performing the cooling function Only through 23) can air supply to the air circulation heat exchanger (9) at the same time to contribute to the cooling circulation.

In fact, the inventors of the present invention manufactured the air-conditioning and heating device (1) and experimented with the crop cultivator, and when the required heat was 10,000㎉, the electric heater (2) operated about 7,000㎉. It was possible to obtain about 3,000 kW using the warmth supplied from the cold / warm-separator (11), thereby reducing the energy saving effect by about 20% compared to the energy cost generated by operating the electrothermal heater (2) alone. You can get it.

As described in detail above, the cooling / heating device 1 of the greenhouse for crop cultivation according to the present invention cools and cools the temperature inside the greenhouse 24 to a desired temperature by selectively supplying cold water and hot water through the heat radiating tube 4. As I can heat it,

In particular, the present invention injects the warmth generated from the heat transfer heater (2) and the cold / warm-separator (11) at the same time into the heat transfer casing (3) at the time of heating, generated in the cold / warm-separator (11) during cooling By injecting cold air into the air, it is possible to perform high efficiency heating and cooling with low energy cost. Also, by selecting and injecting cold air and warm air onto the air circulation heat exchanger 9, the air in the greenhouse 24 is forced to the outside air. The efficiency can be maximized even when cycling, and the installation cost can be reduced, which can greatly contribute to the revitalization of the difficult rural economy.

Claims (1)

In constructing a cooling / heating device (1) installed in the greenhouse for crop cultivation (24) to selectively perform cooling and heating; In the heat transfer casing 3 in which the water temperature meter 7, the drain valve 8, and the expansion tank 6 are respectively provided, a heat transfer heater 2 in which voltage proportional control (SCR) is performed is provided. Before and after the heat transfer casing (3) is connected to the heat dissipation pipe (4) piped in each greenhouse 24 and the circulation pump (5), An air circulation heat exchanger (9) having a fan (10) for forcibly circulating air inside the greenhouse (24) with outside air is installed in the middle of the heat pipe (4), One side of the heat transfer casing (3) is connected to the injection pipe 23 of the cold / warm-separator (11) that can selectively supply cold and warm air, The injection pipe 23 is connected to the air circulation heat exchanger (9), the cooling and heating device of the greenhouse for crop cultivation.