JPH0545021A - Gasification latent heat type cooling device - Google Patents

Abstract

PURPOSE:To reduce a facility cost by a method wherein a gasification latent heat type cooling device is comprised of an air permeating provided with an air leakage duct for leaking air blown from a blower out of the duct, water is atomized from an atomization nozzle toward an outer surface of the duct and a cooling action is generated by gasification latent heat of fine atomized air. CONSTITUTION:Each of air leakage ducts 4 is arranged in parallel with a ledge 2 above each of rows of plants 3 in the case that a cooling device is installed in a glass lined green room for use in cultivating plants, and a water feeding pipe 5 having atomization nozzles 6 are arranged above each of the air leakage ducts 4 in parallel with the air leakage ducts 4. Each of the air leakage ducts 4 is formed into an elongated tube composed of slit non-woven fabric, for example, its extremity end is bound by some fine strips or the like to close it and concurrently the ducts are hung by hanger wires 12 hung at a water supplying pipe 5 and a flexible air blowing pipe 8 branched from the blower fixed at an upper part within a green house is connected to it. Fine atomized air injected from each of the atomization nozzles 6 under a driving operation of the pump is gasified through its contact with leaked air got from the air leakage ducts 4 and then an air cooling is carried out with its latent heat.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vaporization latent heat type air conditioner used in a plant or mushroom cultivating place, a livestock raising place, various working places and the like.

[0002]

2. Description of the Related Art Conventionally, for example, as a vaporization latent heat type cooling device for a greenhouse for cultivating plants, a long duct made of a breathable sheet having a large number of pores is arranged in the greenhouse, and a blower and a sprayer are used from one end of the duct. A wind containing a fine mist is blown into the duct, and the fine mist vaporizes while flowing in the duct and cools the air in the duct by its latent heat, and the cooled air enters the greenhouse from many pores of the duct. It is known that the air is discharged to perform cooling.

[0003]

However, in the above-mentioned conventional vaporization latent heat type cooling device, the fine mist sent into the duct is almost vaporized by the time it reaches the tip of the duct. Therefore, at the tip of the duct. There is little cooling effect, and such drawbacks are particularly pronounced in long ducts that are laid in large greenhouses.

An object of the present invention is to eliminate the drawbacks of the conventional vaporization latent heat type cooling device, and to make the cooling action substantially uniform over the entire length of the duct even with a long duct.

[0005]

Means for Solving the Problems As a means for solving the above problems, the present invention relates to a duct made of a breathable sheet having a large number of pores substantially evenly, the distal end of which is closed or narrowed to a proximal end. , In a state in which a blower that blows air into the duct and leaks from the large number of pores to the outside of the duct is connected, the leak duct that is piped, and is outside the leak duct, and has water on the outer surface of the duct over the entire length of the duct. We propose a vaporization latent heat type air conditioner composed of a spray nozzle for spraying.

The "breathable sheet" of the duct in the present invention
For this, a number of thin cracks are made in parallel on a synthetic resin film such as polyvinyl alcohol (for example, vinylon) or polyethylene, and this is stretched in the direction of the cracks to make split fibers, and the split fibers are crossed vertically and horizontally. Vertically woven and woven fabrics made by weaving the synthetic fiber, natural fiber filaments, threads, etc. vertically and horizontally. Of filaments, threads, tapes, strings, etc., which are fused by crossing the vertical and horizontal sides, and a multi-layer sheet obtained by partially adhering or fusing a reinforcing sheet to various breathable sheets, and various other Stuff used. The reinforcing sheet is preferably a net, cloth, non-woven fabric or the like that does not impair the air permeability of the air permeable sheet.

Some of the ducts have a hygroscopic property, and the sled includes a split fiber non-woven fabric made of polyvinyl alcohol (for example, vinylon) or other hygroscopic synthetic resin, a hygroscopic synthetic fiber, a woven fabric or a non-woven fabric of natural fibers. What is formed by is used. Embodiments of the present invention will be described below with reference to the drawings.

[0008]

EXAMPLE FIG. 1 shows an example of application in a glass-covered greenhouse (1) for cultivating plants. Plants (3) ... (3) planted in two rows respectively on ridges (2) formed on the ground in the greenhouse. The tubular air leak ducts (4) are arranged in parallel with the ridges (2) ... at appropriate positions in the middle of each row of the rows, and the spray nozzles (6) are provided above the air leak ducts (4). The water supply pipes (5) are arranged in parallel with the ducts (4), and the flexible blower pipes (8) branched from the blower (7) mounted on the upper side wall of the greenhouse (1) are arranged in the ducts (4). ) Are connected to each other, and the air blower (7) blows air into each air leak duct (4). In addition,
The air intake of the blower (7) can be taken from outside the greenhouse or inside the greenhouse by a switching operation.

As shown in FIGS. 2 and 3, the water supply pipes (5) ... have downwardly projecting spray nozzles (6) on the lower surface of the pipes and are horizontally stretched in the greenhouse (1). Wire (9) ...
Each of the water supply pipes (5) ...
At each end of the hose (1) connected to a pump (not shown)
0) ... are connected to each other, and the water supply pipe (5) is connected by the pump.
High pressure water is supplied inside. In some cases, the hoses (10) may be connected to the water faucet except for the pump.

In this example, the air leak ducts (4) ... are long tube-shaped ones made of split fiber nonwoven fabric, and the ends thereof are tied with a string or the like to close (11) and hang on the water supply pipe (5). Suspended by a suspension line (12).

The operation of the above example is as follows. First, when air is pumped into each of the air leak ducts (4) ... by driving the air blower (7), one air leak duct looks like the air leak duct (4) bulging into a cylindrical shape, and then the air inside the duct (4). Due to static pressure, the high-pressure air is discharged from the large number of pores on the entire circumferential surface of the duct (4) as a breeze almost uniformly. At the same time, when water is pumped into the water supply pipe (5) by driving the pump, fine mist is sprayed from the spray nozzles (6) on the entire length of the air leak duct (4), and these fine mist are discharged into the air leak duct (4). ) It vaporizes by touching the breeze emitted from the entire length, and the latent heat cools the surrounding air in the entire length of the duct (4). By the cooling action over the entire length of each air leak duct (4), almost uniform cool air is supplied to the plants (3).

The blower (7) in the above example selectively takes in indoor or outdoor air and pressure-feeds it. In addition to this, dry air whose moisture has been removed by a dehumidifier or the like, or dry air which has been dehumidified and cooled by a heat pump or the like. There is also a case where it is taken in and pressure-fed into the duct (4). In this case, the vaporization of fine mist is promoted and the cooling effect is improved.

As another embodiment of the present invention, when a leak duct made of a split fiber non-woven fabric of hygroscopic synthetic resin such as vinylon is used, a part of the fine mist injected from the spray nozzle leaks without being vaporized. Although adhering to the duct surface, the hygroscopic ventilation sheet of the duct absorbs this, and the above-mentioned absorbed moisture is gradually vaporized by the air flowing out from the inside through the large number of pores of the breathable sheet, which is caused by the latent heat of vaporization. Since the vaporized water vapor is released to the outside while performing the cooling action, the cooling action can be continuously performed even if the spray from the spray nozzle is intermittently performed, which helps to save the amount of water supply.

The cooling device of the present invention is particularly effectively used for cooling in a high temperature dry area. For example, when the cooling device of the present invention is arranged in a plant cultivation place such as a vinyl house or a work place such as a simple assembly building, the dry air discharged from the air leakage duct effectively vaporizes the fine mist, thereby performing a sufficient cooling action.

As yet another embodiment, the air leak duct (4) and the spray nozzle (4) are located near the root of the plant between the plants (3), (3), ... Planted in two rows in the ridge (2). 6) ... An example in which the water supply pipe (5) is arranged in the same manner as the above example is also available.

[0016]

According to the vaporization latent heat type cooling device of the present invention,
Even if a long duct is used, the latent heat of vaporization of fine mist is generated over the entire length of the air leakage duct by supplying a uniform mist of air from many pores along the entire length of the air leakage duct and supplying fine mist from the spray nozzle to the outside of the duct. It is possible to perform a cooling action by means of the above, and by doing so, even in a large plant cultivation place, by arranging a long air leak duct and a spray nozzle, it is possible to perform almost uniform cooling up to every corner.

[Brief description of drawings]

FIG. 1 is a schematic vertical sectional view of a greenhouse.

FIG. 2 is an enlarged cross-sectional view of a cooling device portion.

FIG. 3 is a partially omitted enlarged side view of a cooling device portion.

[Explanation of symbols]

 4 Leakage duct 6 Spray nozzle 7 Blower

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Internal reference number FI technical display location F24F 6/04 8816-3L

Claims (1)

[Claims] 1. A duct comprising a breathable sheet having a large number of pores substantially evenly, the tip of which is closed or narrowed,
At the base end, in a state in which a blower that blows air into the duct and blows air from the large number of pores to the outside of the duct is connected, a leak duct that is piped and a duct that is outside the leak duct and extends over the entire length of the duct. A vaporization latent heat type cooling device composed of a spray nozzle for spraying water on the outer surface.