KR101621738B1 - vinyl house heating apparatus for turbo hot-air injection - Google Patents

Abstract

The present invention relates to an apparatus for heating the inside of a greenhouse (1, 1′) through a hot-air injection method. The heating apparatus of the present invention comprises: a heating means (10) in which a spraying pipe (11) having a plurality of spraying nozzles (12) filters air, compressed and heated by using a turbo pneumatic device (13a) or a turbo blower (13b), and sprays the air to an upper side of the greenhouse (1, 1′); and a control means (20) including pressure sensors (21), flow meters (22), temperature sensors (23), and controllers (27). In the control means, the pressure sensors (21) detect spraying pressure of hot air to vary hot air conditions of the spray nozzles (12) in response to the inner temperature of the greenhouse (1, 1′); the flow meters (22) detect spray speed of the hot air; the temperature sensors (23) detect spray temperature of the hot air; and the controllers (27) apply output to the turbo pneumatic device (13a), turbo blower (13b), valves (25), and a display (26) under a predetermined condition by using the sensors. Accordingly, the heating apparatus of the present invention: maintains the temperature of the greenhouse in winter to cultivate crops, and thus reduces emission of greenhouse gases, thereby preventing environmental contamination; does not generally use expensive oil by using pure compressed air, thereby reducing heating costs; and facilitates cultivation of crops by conveniently maintaining the temperature of the greenhouse.

Description

[0001] The present invention relates to a heating system for a vinyl house using a turbo hot air blowing method,

The present invention relates to a heating apparatus for a greenhouse, and more particularly, to a greenhouse heating system for reducing greenhouse gas emissions to maintain a temperature on a cold winter greenhouse to cultivate crops, thereby preventing environmental pollution, The present invention relates to a heating apparatus for a greenhouse using a turbo hot air blowing method which can reduce heating costs by not using expensive oil and is easy to cultivate the crops with a temperature maintained at a convenient temperature.

In order to maximize the warming effect in the winter season, medium and large plastic greenhouses usually have small greenhouses installed inside large greenhouses to maintain the temperature through a plurality of membranes. The greenhouse gas generated by heating has become a major factor in environmental pollution. In order to solve these problems, there is a desperate need for continuous efforts to manage energy saving and greenhouse gas emission performance in vinyl house crops in the future.

For example, according to Korean Utility Model Registration No. 0174585, 'the heat exchanger (40) inside the greenhouse (10) is heated by hot water supplied from the boiler (20) provided outside the greenhouse Wherein the air is blown by an air blowing motor to blow air in the greenhouse into the upper part of the body, And a blowing fan 51 for blowing air into the body 31. The heat exchanger 40 blows air from the blowing fan 51 in a zigzag arrangement of the hot water pipes 21 of the boiler 20, And a discharge port 33 for circulating warm air to the inside of the greenhouse 10 is provided at a lower portion of the body 31. [ Heating of the vinyl house. "

However, the heating system of the greenhouse has become a main factor of environmental pollution due to the greenhouse gas generated through the boiler.

As another example, Korean Utility Model No. 0236958 discloses a heating device capable of supplying hot water supplied from a boiler provided outside a plastic house to the inside of a plastic house. In the heating device, And a pump connected to the water tank and a separator are connected to a pipe installed inside the trough so that the hot water can be supplied by the valve. present.

Such a vinyl house heating system could not solve the greenhouse gas generated by the boiler, and the efficiency of the heating through hot water was not so high compared to the cost to be used.

Korean Registered Utility Model No. 0174585 "Heating of the plastic house" Korean Registered Utility Model No. 0236958 "Heating of the vinyl house"

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned problems of the prior art by providing a method for preventing environmental pollution by reducing greenhouse gas emissions for cultivating crops by maintaining temperature on a cold winter greenhouse, The present invention provides a heating system for a greenhouse using a turbo hot air blowing method which can reduce heating costs by not using expensive oil and is easy to cultivate the crops with a temperature maintained at a convenient temperature.

In order to achieve the above object, the present invention provides an apparatus for heating the inside of a plastic greenhouse through a hot air blowing method, the apparatus comprising: a discharge tube having a plurality of injection nozzles on an upper side of the plastic greenhouse, Hot air means for filtering and injecting heated air; A pressure sensor for detecting a blowing pressure of the hot air to change a hot air condition of the injection nozzle in correspondence with an internal temperature of the vinyl house, a flow rate sensor for detecting a blowing speed of hot air, a temperature sensor for detecting a blowing temperature of the hot air, And a controller for applying an output to the turbo pneumatic device, the turbo blower, the valve, and the display under the set conditions using the signal of the turbo pneumatic device.

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It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described above, according to the present invention, it is possible to prevent environmental pollution by reducing greenhouse gas emissions in order to grow crops by maintaining temperature on a cold winter green house, and to use oil that is generally expensive through the use of pure compressed air It is possible to reduce the heating cost, and it is easy to cultivate the crops by keeping the temperature at a convenient temperature.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a whole heating system for a greenhouse according to the present invention,
FIG. 2 is a schematic view showing a main structure of a heating apparatus for a greenhouse according to the present invention,
FIG. 3 is a schematic view showing another type of injection tube of a heating apparatus for a greenhouse according to the present invention,
FIG. 4A is a schematic view showing a parallel-type injection tube of a heating apparatus for a greenhouse according to the present invention,
FIG. 4B is a schematic view showing a serial-type spray tube of a heating apparatus for a greenhouse according to the present invention. FIG.

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

2 is a schematic view showing a main configuration of a heating apparatus for a greenhouse according to the present invention viewed from above, and Fig. 3 is a schematic view showing a main part of a vinyl house heating apparatus according to the present invention, 4A is a schematic view showing a parallel-type spray tube of a heating system for a greenhouse according to the present invention, and FIG. 4B is a schematic view of a heating apparatus for a green house according to the present invention. Fig. 2 is a schematic view showing a series-type injection tube.

An apparatus for heating the interior of the greenhouses 1, 1 'by a hot air blowing method is proposed.

The hot air means 10 according to the present invention has a spray tube 11 having a plurality of spray nozzles 12 on the upper side of the greenhouses 1 and 1 '. The hot air means 10 is provided with a spray nozzle 12 on the top of the greenhouse 1 or 1 'so that the hot air of high pressure and high speed, in which the spray nozzle 12 is supplied to the spray tube 11, (A) by providing thermal energy to have a cold winter.

At this time, the hot air blower 10 is characterized in that the air compressed and heated by using the turbo pneumatic device 13a or the turbo blower 13b is filtered and injected. The turbo pneumatic device 13a compresses and sends out the air in a turbo mode and the turbo blower 13b compresses and sends air in a turbo mode so that the turbo pneumatic device 13a and the turbo blower 13b can be compressed And may be applied simultaneously. The turbo-pneumatic device 13a and the turbo-blower 13b use compressed and heated air generated through an impeller (not shown) inside the turbo. In either case, it is advisable to keep the filter in a clean state by performing filtration several times during the process of heating, compressing and sending out the air as hot air. The turbo air compressor 13a or the turbo blower 13b of the hot air means 10 uses pure compressed air and compressed air heated to about 100 ° C or more flows through the injection tube 11 into the greenhouse 1, (1 ') to operate at a constant temperature in conjunction with the control means (20) described later. Such hot compressed air can be sprayed directly onto the crop (A), but in such a case, it is suitable to allow the inside of the greenhouse (1) (1 ') to circulate due to damage to the crops.

The injection pipe 11 of the hot air means 10 is connected to the turbo pneumatic device 13a and the turbo blower 13b in a manner selected from a parallel type, a series type and a mixture type thereof. Such a selection from the parallel type, the series type, and the mixture type can be formed in consideration of the size and condition of the vinyl house. That is, in the parallel type, a plurality of spray tubes 11 are connected in parallel and simultaneously blow hot air, and the spray tubes 11 arranged in parallel in a tandem type are connected to each other to spray hot air at the same time. 4A illustrates a method in which the hot wind of the turbo pneumatic device 13a and the turbo blower 13b flows along the plurality of supply pipes 14 to the center of the respective injection pipes 11, And the hot wind of the turbo pneumatic device 13a and the turbo blower 13b alternately flows to one end and the other end of the respective injection pipes 11 along the plurality of supply pipes 14. [

4A is a plan view showing a state in which the upstream end and the downstream end of the injection tube 11 are bent into a zigzag shape with one serial tube body. According to the tandem structure, the structure is simpler than that of the parallel type, but a pressure difference between the upstream side injection nozzle 12 and the downstream side injection nozzle 12 necessarily occurs. Therefore, when the overall size (capacity) of the heating device is small, the injection tube 11 is configured in series, but it is preferable to add the parallel type mixedly or largely as the capacity increases.

The hot air means 10 is provided so that each of the spray nozzles 12 provided in each spray tube 11 emits hot air in at least two directions. Of course, the injection nozzle 12 may be provided so as to vary the injection direction variously by using a ball joint or the like.

It is to be noted that the city includes the four-stage spray tube 11 as the hot air means 10, but it may also be constituted by five or more stages depending on the size of the greenhouses 1 and 1 'and the amount of the crop A have.

The control means 20 according to the present invention is characterized by a structure in which the hot air condition of the injection nozzle 12 is varied in accordance with the internal temperature of the greenhouse 1 (1 '). The control means 20 is formed of a microcomputer circuit on which control conditions corresponding to the crop A are mounted.

At this time, the control means 20 includes a pressure sensor 21 for detecting the hot air blowing pressure, a flow rate sensor 22 for detecting the hot air blowing speed, a temperature sensor 23 for detecting the hot air blowing temperature, And a controller 27 for applying an output to the turbo pneumatic device 13a, the turbo blower 13b, the valve 25, and the display 26 under the set conditions using the signals of the turbo pneumatic device 13a. Of course, the input / output of the controller 27 can be applied differently.

The pressure sensor 21 and the temperature sensor 23 in the case of the parallel type injection tube 11 are provided in the respective injection tubes 33 and in the case of the serial type injection tube 33, 23 are installed at the upstream end and the downstream end. The pressure sensor 21 is selected to a standard of 2 to 5 atmospheres, and the temperature sensor 23 is selected to a standard of about 100 ° C. It is preferable that the flow rate sensor 22 is installed at a position adjacent to the crop A. The flow rate sensor 22 can be a semiconductor type high temperature Si micro hole sensor for a miniaturized structure. The control on the turbo pneumatic device 13a and the turbo blower 13b includes the heater temperature and the hot air discharge amount variation. The valve 25 is provided on the supply pipe 14 of the parallel-type injection pipe 11, and may be omitted in the case of the serial-type injection pipe 11. The valve 25 is preferably an electronic type for automatic control, but it is also preferable to add a manual operation function of the operator. The controller 27 stores and updates control algorithms and data tables. The display 26 may be provided in the controller 27, but may be provided in the adjacent local area.

The controller 27 drives the turbo pneumatic device 13a and the turbo blower 13b to the crop A accommodated in the greenhouses 1 and 1 ' 12, the input of the pressure sensor 21, the flow rate sensor 22 and the temperature sensor 23 is analyzed and the turbo pneumatic device 13a, the turbo blower 13b, And outputs the control state to the display 26 and generates an alarm when an abnormality occurs. Of course, even if the operator manually operates the valve 25, the inside of the cold winter greenhouse 1 (1 ') can be heated as the pressure and the flow rate of the hot wind are displayed on the display 26.

As described above, the present invention prevents environmental pollution by reducing greenhouse gas emissions in order to grow crops by keeping temperature on cold winter greenhouses, and does not use expensive compressed air through the use of pure compressed air, It is possible to reduce the cost, and it is easy to cultivate the crops with the temperature maintained at a convenient temperature.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1, 1 ': vinyl house 10: hot air means
11: Dispense tube 12: Dispense nozzle
13a: Turbo pneumatic device 13b: Turbo blower
14: supply pipe 20: control means
21: Pressure sensor 22: Flow rate sensor
23: temperature sensor 25: valve
26: Display 27: Controller
A: Crops

Claims (3)

An apparatus for heating the inside of a greenhouse (1) (1 ') by a hot air blowing method, comprising:
The injection tube 11 having a plurality of injection nozzles 12 on the upper side of the greenhouses 1 and 1 'filters the air compressed and heated by using the turbo pneumatic device 13a or the turbo blower 13b Hot air means 10 for spraying; , A pressure sensor (21) for detecting the hot air blowing pressure so as to change the hot air condition of the injection nozzle (12) in correspondence with the internal temperature of the greenhouse (1) The turbo blower 13b, the valve 25, and the display 26 under the conditions set by using the signals of the sensors, the temperature sensor 23 for detecting the temperature of hot air blowing, And a control unit (20) having a controller (27) for applying an output of the turbo hot air blowing system.
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