KR101447575B1 - Glasshouse having improved hot air supplying efficiency and drying effciency - Google Patents

Abstract

The present invention relates to a greenhouse having improved hot air supplying efficiency and drying efficiency. The greenhouse of the present invention includes: a greenhouse body which has a work space formed therein, has at least one ventilating hole formed in one top side thereof, and is made of a transparent material to enable light to penetrate; a hot air supplying means which is installed on the outside of or inside the greenhouse body and supplies hot air; a side direction hot air supplying unit which is installed in the length direction of the greenhouse body in the greenhouse body, has one side connected with the hot air supplying means, includes a plurality of discharging holes which are separately formed at particular intervals along a length direction, and supplies hot air into the greenhouse body through the discharging holes; and an ascending air flow forming unit which is installed at one bottom side in the greenhouse body, has one side connected with the hot air supplying means, includes at least one spraying hole in one side thereof, and sprays hot air to the top thereof. According to the present invention, hot air is horizontally supplied to the ground in the greenhouse body, and hot air is upwardly sprayed from the bottom surface of the greenhouse body, so that an ascending air flow is formed. Hot air is uniformly supplied to the overall inside of the greenhouse body, so that drying efficiency can be maintained irrespective of the position in which a material to be dried is disposed. Also, ventilating efficiency is improved, so that the inside of the greenhouse body can be cleanly maintained.

Description

[0001] The present invention relates to a glasshouse having improved hot air supply efficiency and drying efficiency,

The present invention relates to a greenhouse having improved warm air supply efficiency and drying efficiency, and more particularly, to a greenhouse capable of uniformly supplying hot air to the inside of a greenhouse body, thereby maintaining the same drying efficiency irrespective of the position where the object to be dried is disposed The present invention relates to a greenhouse having improved air supply efficiency and drying efficiency, which can easily maintain an internal temperature even when a plurality of ventilation openings are formed, and can improve the ventilation efficiency and maintain the interior of the greenhouse body in a pleasant environment.

Generally, agricultural products produced in rural areas, such as pepper, tobacco for mushroom, ginseng, mossam, rice, radish, and garlic, and seafood such as seaweed, kelp, and anchovy, which are produced in fishing villages, If not dried, the value of the product is lost.

Therefore, in the past, the agricultural products or aquatic products were naturally dried using the solar heat, but the natural drying was largely dependent on the drying condition depending on the weather, that is, the weather conditions, and the drying time required for the above- There was a problem that it could not be produced.

Recently, a forced drying method has been adopted so as to be able to easily control the release and shipment amount of dried material and to be capable of mass processing. As a typical example, a plurality of shelves are installed in a greenhouse such as a vinyl house, A method of supplying warm air to the inside of a greenhouse by using a warm air supply means such as a heater is used.

1 is a sectional view of a conventional greenhouse for drying agricultural and marine products.

1, the conventional greenhouse for drying agricultural and marine products includes a greenhouse main body 110 in which a working space is formed, a hot air supply pipe 140 disposed at one side of the greenhouse main body 110 to supply warm air to the inside of the greenhouse, And a hot air supply unit 130 connected to one side of the hot air supply pipe 140 to supply hot air to the hot air supply pipe.

The conventional greenhouse 100 for drying agricultural and marine products is provided with a shelf 120 inside a greenhouse 110 and a drying object such as agricultural and marine products is placed on the shelf 120, The supplied hot air is supplied to the interior of the greenhouse through the hot air supply pipe 140 while the warm air is supplied from the hot air providing means 130 to the hot air supply pipe 140. The supplied hot air circulates inside the greenhouse by convection, And dried.

However, in the conventional greenhouse 100 for drying agricultural and marine products, the hot air supplied from the hot air supply pipe 140 is circulated by convection to dry the object to be dried. As the working space inside the greenhouse 100 becomes larger, The circulation of the warm air is not properly performed, so that the temperature inside the greenhouse is partially varied, and there is a problem that the drying efficiency varies depending on the position where the drying object is seated.

Accordingly, in order to prevent the drying efficiency from being lowered due to the temperature deviation, the conventional greenhouse 100 for drying agricultural and marine products is supplied with hot air at a high temperature of about 140 ° C., There is a problem in that the temperature is greatly lowered.

In addition, in the conventional greenhouse for drying agricultural and marine products, the drying object is dried as the warm air is circulated by the convection as described above. In order to prevent the heat of the warm air from being discharged to the outside, Since the drying operation is performed in a state where the air vent formed in the main body is closed and the number of the formation of the complete mechanism is minimized in order to minimize the heat loss, the inside of the greenhouse is always kept moist by the moisture contained in the drying object, There is a problem that the drying efficiency is significantly lowered.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus and a method for supplying hot air uniformly to the inside of a greenhouse body to maintain the same drying efficiency irrespective of a position at which a drying object is disposed The inside air of the greenhouse including the moisture and moisture contained in the drying object is discharged to the outside by the rising air stream, so that the drying efficiency can be greatly improved even at a low temperature, and the warm air supply efficiency And a greenhouse with improved drying efficiency.

Another object of the present invention is to provide a method of manufacturing an air conditioner capable of more easily moving the hot air blown from the upward airflow forming portion by the guide plate and allowing the sunlight to be reflected, And to provide a greenhouse with improved warm air supply efficiency and drying efficiency.

According to an aspect of the present invention, there is provided a method of manufacturing a greenhouse, including: a greenhouse body having a work space formed therein, at least one ventilation hole formed at an upper side thereof, A warm air supply means provided in the outside or inside of the main body and supplying warm air to the inside of the greenhouse main body in the longitudinal direction of the greenhouse main body and one side connected to the hot air supply means, A plurality of discharge holes formed at a predetermined distance apart from each other to supply hot air to the inside of the greenhouse through the discharge hole; And a rising air flow forming part having at least one spray hole formed at one side thereof for spraying warm air upward. This class efficiency and drying efficiency and provide enhanced greenhouse.

Preferably, the air conditioner further includes a guide plate installed vertically to one side of the inside of the greenhouse main body and guiding the hot air blown by the upward airflow forming unit to move upward.

In addition, the guide plate may be formed with an inclined surface inclined downward from the upper end of the both sides in the outward direction.

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According to the present invention, warm air is supplied horizontally from the inside of the greenhouse to the ground and hot air is blown upward from the bottom surface of the greenhouse to form a rising airflow, So that the drying efficiency can be maintained at the same level irrespective of the position where the object to be dried is disposed. In addition, the inside air of the greenhouse including moisture and moisture contained in the object to be dried is discharged to the outside by the rising air stream, The efficiency can be greatly improved and the inside of the greenhouse can be maintained in a comfortable environment.

Further, according to the present invention, it is possible to more easily move upward the hot air blown from the upward airflow forming portion by the guide plate, and to improve the drying efficiency by the heat caused by the reflected light, .

1 is a sectional view of a conventional greenhouse for drying agricultural and marine products,
FIG. 2 is a sectional view of a greenhouse with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention,
3 is a plan view of a greenhouse with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention,
4 is a view illustrating operation of a greenhouse with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention,
FIG. 5 is a view illustrating a state in which hot air is blown by a rising air stream through a plurality of ventilation holes according to an embodiment of the present invention; FIG.
56 is a sectional view of a greenhouse having improved warm air supply efficiency and drying efficiency according to another embodiment of the present invention,
7 is a view illustrating operation of a greenhouse with improved warm air supply efficiency and drying efficiency according to another embodiment of the present invention.

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

FIG. 2 is a sectional view of a greenhouse with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention, and FIG. 3 is a plan view of a greenhouse with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention.

2 to 3, the greenhouse 1 having improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention includes a greenhouse body 10, a warm air supply unit 20, a lateral warm air supply unit 30, a rising airflow forming portion 40, and a guide plate 50.

The greenhouse body 10 includes a frame 11 formed in an approximately trapezoidal shape to form an outer shape and a glass portion 12 coupled to the frame 11. The greenhouse 10 has a plurality of Exhaust ducts 14 are formed in the respective ventilating openings 13 of the greenhouse main body 10 so that the internal air of the greenhousing body 10 passes through the ventilation openings 13 and the exhaust ducts 14 As shown in FIG.

Here, the glaze part of the greenhouse body 10 is preferably formed of a double glass for maintaining the temperature inside, and serves to provide a drying area of the dried object isolated from the outside.

A pair of rails L are provided on one side of the bottom surface of the greenhousing body 10 along the longitudinal direction so as to be spaced apart from each other and a shelf 15 on which the object to be dried is placed is lifted along the rail L And is movably installed.

The shelf 15 includes a frame 15a having a plurality of drying spaces 15ac and a wheel portion 15b provided below the frame 15a and movably installed on the rail L. [ The frame 15a may include a vertically arranged column portion 15aa and a plurality of seating plates 15ab horizontally disposed on the column portion 15aa. The seating plate 15ab A drying space 15ac is formed between the mounting plate 15a and the seating plate 15ab so that the drying space 15ac is opened at all sides to improve the drying efficiency of the drying object.

The warm air supply means 20 is installed at either the inside or the outside of the greenhouse main body 10 and is connected to the lateral warm air supply portion 30 and the upward air flow formation portion 40, 30 and the upward airflow forming unit 40. [0053]

Here, the warm air supply means 20 may be a boiler and a heater. Such a warm air supply means 20 may be a well- It is to be understood that a detailed description of the configuration is omitted.

The lateral warm air supply unit 30 is formed in a substantially tubular shape and is disposed inside the greenhousing body 10 along the longitudinal direction of the greenhousing body 10. The plurality of discharge holes 31 are spaced apart from each other by a predetermined distance .

One side of the lateral warm air supply portion 30 is connected to one side of the warm air supply means 20 and supplies hot air to the ground surface in the horizontal direction through the discharge hole 31, Thereby uniformly supplying warm air to the outdoor unit.

On the other hand, it is preferable that the lateral warm air supply unit 30 is installed at one side of the warm air supply unit 20 in multiple stages so that warm air is more uniformly supplied to the interior of the greenhouse 10.

The upward airflow forming unit 40 is installed at a lower one side of the interior of the greenhouse body 10 and has one side connected to one side of the warm air supply means 20 and a plurality of spray holes 41 Spaced apart.

The upward airflow forming unit 40 receives the warm air from the warm air supply unit 20 and blows the supplied warm air upward to form a rising air flow so that the air inside the greenhouse 10, , And the moisture contained in the object to be dried is discharged to the outside.

In other words, the upward airflow forming unit 40 forms a rising airflow by continuously blowing hot air from the bottom surface of the greenhouse body 10 to form a rising airflow, The inside air of the greenhouse including water is also discharged to the outside through the ventilation opening 13 formed in the upper part of the greenhouse body 10 along with the rising airflow so that the drying efficiency can be greatly improved even at a low temperature, So that it can be maintained in a pleasant environment.

FIG. 4 is a view showing the operation of a greenhouse with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention. FIG. 5 is a view illustrating a warm air flow generated by a rising air stream through a plurality of air vents according to an embodiment of the present invention. Fig.

The operation of the greenhouse 1 with improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention having such a structure will be described with reference to FIGS.

First, when the warm air supply means 20 is driven, warm air is supplied from the warm air supply means 20 to the lateral warm air supply portion 30 and the upward air flow forming portion 40.

The hot air supplied to the lateral warm air supply unit 30 is moved along the lateral warm air supply unit 30 and is supplied to the inside of the greenhouse 10 through a plurality of discharge holes 31 formed in the lateral warm air supply unit 30. [ The warm air is uniformly supplied to the inside of the greenhouse 10 by the lateral warm air supply unit 30 provided in multiple stages.

The warm air supplied to the ascending air flow forming portion 40 provided on the bottom surface of the greenhouse body 10 is moved along the ascending airflow forming portion 40 and is directed through the plurality of spray holes 41, As shown in FIG. 5, the warm air, which forms upward airflow while being sprayed upward from the bottom surface, forms a rising air stream, and the warm air, together with the internal air of the greenhouse body 10 containing moisture and moisture contained in the object to be dried, 10 through the plurality of ventilation openings 13 formed in the upper portion.

The greenhouse 1 having improved warm air supply efficiency and drying efficiency according to an embodiment of the present invention supplies hot air in the horizontal direction to the ground within the greenhouse main body 10, So that the warm air is uniformly supplied to the inside of the greenhouse 10 as a whole, so that the drying efficiency can be maintained at the same level regardless of the position at which the drying object is disposed, and the ventilation efficiency is improved The interior of the greenhouse 10 can be maintained in a pleasant environment.

FIG. 6 is a sectional view of a greenhouse having improved warm air supply efficiency and drying efficiency according to another embodiment of the present invention, and FIG. 7 is a view illustrating operation of a greenhouse with improved warm air supply efficiency and drying efficiency according to another embodiment of the present invention to be.

The basic structure of the embodiment of FIGS. 6 to 7 is the same as that of the embodiment of FIGS. 2 to 4, but is structured such that the upward flow can be more easily formed and the drying efficiency can be further improved.

As shown in FIG. 6, the present embodiment further comprises a guide plate 50, unlike the previous embodiment.

Here, the guide plate 50 is formed in a substantially plate shape and installed vertically between the shelf 15 and the shelf 15 on which the object to be dried is seated in the interior of the greenhouse 10.

In addition, the guide plate 50 is formed of a metal material having a high light reflectance and reflects the sunlight transmitted through the greenhouse 10, so that the drying efficiency of the drying target can be further improved by the reflected heat If the guide plate 50 according to another embodiment of the present invention is formed of a material emitting far-infrared rays, the sterilizing effect of the object to be dried may be additionally generated.

In addition, it is preferable that the guide plate 50 has a sloped surface 51 that is inclined downward from the upper and lower ends of the both sides so that the reflected light is irradiated on the dried object, thereby improving the drying efficiency.

The guide plate 50 according to another embodiment of the present invention guides upwardly the hot air blown from the upward airflow forming unit 40 so that the hot air can be easily moved upward, And serves to improve the drying efficiency of the object to be dried by the reflected heat as the transmitted sunlight is reflected.

The other structures are the same as those of the above-described basic embodiment, and the remaining description will be omitted.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications or changes as fall within the scope of the invention.

1: Greenhouse 10 with improved warm air supply efficiency and drying efficiency 10: Greenhouse body
11: Frame 12: Glass part
13: Ventilation hole 14: Exhaust duct
15: shelf 15a: frame
15aa: column portion 15ab: seat plate
15ac: Drying space 15b: Wheel part
20: warm air supply means 30: lateral warm air supply unit
31: discharge hole 40:
41: minute hole 50: guide plate
51: slope

Claims (4)

A greenhouse main body having a work space formed therein, at least one ventilation hole formed at one side of the upper side thereof, and formed of a transparent material and transmitting light therethrough;
A warm air supply means provided on one side of the outside or inside of the greenhouse main body for supplying warm air;
A plurality of discharge holes are formed in the longitudinal direction of the greenhouse main body so as to be spaced along the longitudinal direction of the greenhouse main body, A warm air supply unit for supplying warm air to the outdoor unit;
And a rising air flow forming unit installed on a lower one side of the inside of the greenhouse main body, one side connected to the hot air supplying means, and having at least one spray hole formed on one side thereof for spraying warm air upward. And a greenhouse with improved drying efficiency.
The method according to claim 1,
Further comprising a guide plate installed vertically to one side of the inside of the greenhouse main body and guiding the hot air blown by the upward airflow forming unit to move upward.
3. The method of claim 2,
Wherein the guide plate has an inclined surface inclined downwardly in an outward direction from the upper end of both sides, wherein the warm air supply efficiency and the drying efficiency are improved. delete

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