KR102504594B1 - Straight type cold and hot air blow dual duct - Google Patents

Abstract

The present invention relates to a straight double duct for hot and cold air. The straight double duct for hot and cold air comprises: a blower side double pipe (20); a remote side double pipe (40); and a straight branch duct (33). According to the present invention, damage to all fruit trees in an orchard due to cold weather or abnormally high temperatures can be reduced.

Description

Straight type cold and hot air blow dual duct}

The present invention includes a hollow outer tube 21 connected to the outlet of a blower provided in an air conditioner 10 and blowing warm air or cold air generated by the air conditioner 10 from the outlet to the outside, and the outer tube 21 Blower-side double pipe 20 connected through a bracket 23 and composed of an inner pipe 22 disposed inside the outer pipe 21; and a hollow outer pipe 41, and the outer pipe 41 It is connected to the bracket 43 and includes an inner tube 42 disposed inside the outer tube 41, and the space in the downstream end of the inner tube 42 is the downstream side in the form of a stopper or cap. It is closed by the end surface 42a, and the space between the downstream end of the outer pipe 41 and the downstream end of the inner pipe 42 is open, and is remote from the blower-side double pipe 20. The remote side double pipe 40 disposed at a distance from each other; and the cold air or warm air is connected between the inner pipe 22 of the blower side double pipe 20 and the inner pipe 42 of the remote side double pipe 40. An inner duct 31 made of a woven film material capable of forming a first air passage F1 supplied and flowing by the blower, an outer pipe 21 of the blower-side double pipe 20, and the remote side double pipe ( An outer duct 32 made of a woven film that is connected between the outer tube 41 of 40) and can form a second blowing passage F2 through which the cold or warm air flows, and the first blowing passage ( An inlet is provided in the inner duct 31 so that a portion of the cold air or warm air flowing along F1) is supplied to the outside of the outer duct 32 across the second blowing passage F2 and the outer duct 32. A straight branch duct 33 made of a woven film material communicating with each other and forming a third blowing passage F3 having an outlet located outside the external duct 32, and the external duct 32 and the branch duct (33) and between the internal duct 31 and the branch duct 33 are sealed by sewing, characterized in that it comprises a duct 30, characterized in that it comprises a straight cold and hot air double duct It's about t.

In general, fruit trees are rarely grown in greenhouses, and are usually directly affected by external temperature changes or abnormal weather because they are usually grown in the open field while being exposed to the external natural environment. For example, unprecedented damage to fruit trees is increasing due to low temperatures or late frosts as abnormal temperature phenomena (low temperature, late frost, etc.) in spring, or outbreaks of blast pests or fruit burns due to abnormally high temperatures in summer. Induction may result in increased fruit damage.

Such fruit tree damage leads to a stable supply and demand of fruit trees and a decrease in fruit quality, and in the long term, the importance of proactive prevention to respond to climate change problems and reduce damage is increasing every year. It is difficult to produce high-quality fruits when the stable supply and demand of fruit trees is hindered and the quality is deteriorated, so thorough prevention is important.

For example, the temperature suddenly drops below freezing repeatedly every year, causing the flowers of fruit trees to freeze, dry, twist, and fall off. For example, even if the flower is fine and the fruit opens, the inside rots and damages the flower, or the occurrence of blast pests and fruit burns in the flower of the fruit tree is induced, resulting in increased damage to the fruit tree and a decrease in product value. That is, when fruit trees are exposed to sudden low or high temperatures during the flower bud formation period or flowering period, fertilization becomes poor, resulting in a drop in fruiting rate or damage to fruit trees. This influence induces the occurrence of deformed fruits, fallen fruits, or defective fruits, which greatly affects the decrease in fruit yield.

For example, more than 90% of crop damage due to low temperature in spring last year was concentrated on fruit trees such as pears and apples, and the average damaged area during the last 4 years, when the damage was concentrated, increased more than 10 times compared to the previous 4 years. These low-temperature damages to crops are not limited to some items, and prior research is absolutely necessary to protect crops and farmhouses in the future.

As part of the above research, research to reduce damage from cold damage is currently being conducted in countries around the world. Representatively, there are a combustion method, a fine spraying method, a spray method, and a warm air method.

In this regard, FIG. 1 is a photograph showing a conventional combustion method among methods for reducing damage from freezing damage to fruit trees, and FIG. 2 is a photograph showing a conventional fine watering method among methods for reducing damage from freezing damage to fruit trees. FIG. It is a photograph showing the conventional protection method among methods for reducing cold damage to fruit trees.

As shown in FIG. 1, the combustion method is a method of increasing the temperature in the orchard by burning sawdust, rice husk, etc., and placing a lot of combustion barrels around the orchard and less inside the orchard so that the temperature in the orchard is even, but sawdust, There is a risk of fire in the orchard when rice hulls are burned.

As shown in FIG. 2, the microsprinkling method is a method of raising the temperature by using latent heat generated when the temperature in the orchard reaches 1 to 2 ° C. by spraying water with a sprinkler and turning it into ice. If the sprinkler operation is stopped due to lack of water, the temperature of the fruit tree becomes lower than the temperature in the orchard, which may cause cold damage, and there are disadvantages in that branches may be broken by ice during thawing.

As shown in FIG. 3, the radiation method is a method in which a fan is attached to an electric motor installed on a steel pipe of 6 to 8 m, and the motor is operated when the temperature decreases to circulate the warm air of the upper layer downward. Since it is provided in a structure in which rotation is not easy, in order to expand the blowing area, it is necessary to use a number of anti-corrosive fans that blow in different directions, which increases the cost and causes a blind spot in the blowing area. However, since the fan is installed to be fixed only at a certain height from the ground, there is a problem in that the effect of preventing frost formation may be reduced because it is difficult to actively respond depending on the time zone and terrain characteristics or seasonal characteristics in which frost forms well.

The warm air method is a method of releasing heated air to fruit trees using a heater. When a portable heater is used, it is pulled by a tractor and has the advantage of releasing hot air at a temperature close to 100 ° C up to 50-75 m. However, a movable heater and a tractor must be provided separately, and the process of releasing hot air to another fruit tree or another row of fruit trees after moving the movable heater after emitting hot air with a movable heater toward one fruit tree or one row of fruit trees due to the problem of cost increase There is a disadvantage in that fruit trees are first exposed to hot air and then, after a certain period of time, are exposed to cold temperatures or frost again.

Registered Patent No. 10-2155585 (2020.09.08.) Registered Patent No. 10-1788532 (2017.10.15.)

The present invention was created to more actively solve the above problems, and improved the warm air method among the previous methods.

In the present invention, the cold and warm air generated by the air conditioner 10 fills the straight double duct with the rotation of the blower and is simultaneously discharged to all orchards in the orchard, thereby reducing damage caused by cold damage and abnormally high temperatures. Its main purpose is to provide

In addition, in the present invention, when the hot air or cold air generated by the air conditioner 10 is supplied to the straight cold/warm air double duct through the blower, it is supplied between the inner tube and the outer tube of the double tube on the blower side of the straight cold/warm air double duct. 2 to provide a straight cold/hot air double duct capable of controlling the supply amount of warm air or cold air flowing along the blowing passage and serving as an adiabatic wind for the warm air or cold air supplied into the inner tube and flowing along the first blowing passage I am working on a different solution.

In addition, when the present invention configures the straight cold/warm air double duct, the outer pipe of the double pipe on the blower side of the straight/warm air double duct and the outer pipe of the double pipe on the remote side and the inner pipe of the double pipe on the blower side of the double duct and the remote Another challenge is to provide a straight cold/warm air double duct capable of preventing separation between the outer duct and the inner duct, which are inserted between the inner tubes of the side double tubes.

In addition, the present invention closely surrounds the stems of fruit trees in the orchard with a collecting unit connected in communication with the straight cold and hot air double duct, supplies warm air or cold air to the collecting unit through the straight cold and hot air double duct, and through the through hole on the upper side of the collecting unit It is an additional challenge to provide a straight cold and hot air double duct capable of preventing cold damage to stems, branches and fruits of fruit trees by being discharged to the outside.

In order to achieve the above problem, the straight cold and hot air double duct proposed by the present invention has the following characteristics.

A hollow outer tube 21 connected to the outlet of the blower provided in the air conditioner 10 and blowing warm air or cold air generated by the air conditioner 10 from the outlet to the outside, and a bracket on the outer tube 21 ( 23) and a blower-side double pipe 20 composed of an inner pipe 22 disposed inside the outer pipe 21; and a hollow outer pipe 41, and a bracket on the outer pipe 41 ( 43) and includes an inner tube 42 disposed inside the outer tube 41, and the space in the downstream end of the inner tube 42 is a downstream end surface in the form of a stopper or cap ( 42a), the space between the downstream end of the outer pipe 41 and the downstream end of the inner pipe 42 is open, and is spaced apart from the blower-side double pipe 20 at a remote location. connected between the inner tube 22 of the blower-side double tube 20 and the inner tube 42 of the remote double tube 40, so that the cold air or warm air blows through the blower An inner duct 31 made of a woven film material capable of forming a first blowing passage F1 supplied and flowing by, and an outer pipe 21 of the blower-side double pipe 20 and the remote-side double pipe 40 An outer duct 32 made of a woven film material connected between the outer tubes 41 to form a second blowing passage F2 through which the cold or warm air flows, and the first blowing passage F1 An inlet communicates with the inner duct 31 so that some of the cold air or warm air flowing along is supplied to the outside of the outer duct 32 across the second blowing passage F2 and the outer duct 32, A straight branch duct 33 made of a woven film material having an outlet forming a third blowing passage F3 located outside the external duct 32, and the external duct 32 and the branch duct 33 A straight hot air double duct (70) in which a gap between the inner duct 31 and the branch duct 33 is sealed by sewing; It is connected to the outlet side end of the double wind duct 70 and is disposed in the greenhouse 60 in a 'U' shape together with the straight warm air double duct 70, A duct (30') forming discharge ports (30h1', 30h2', 30h3', 30h4') whose number increases by one in the upstream sector rather than the downstream sector in the downstream and upstream sectors that come into contact with each other as the sector progresses. In the greenhouse 60 divided into a plurality of sectors having the same length (L1, L2, L3, L4) while going from upstream to downstream along the longitudinal direction, the straight warm air double duct 70 has a plurality of Out of the sectors, discharge ports 30h1, 30h2, 30h3, and 30h4 whose number increases by one in the downstream sector than in the upstream sector are formed in the upstream and downstream sectors that are in contact with each other from the upstream sector to the downstream sector, Connected to the outlet of a blower provided in the warm air heater 10 to blow the warm air generated by the warm air heater 10 from the outlet to the outside, and blowing the warm air through the outlets 30h1, 30h2, 30h3, and 30h4 characterized by

The inner pipe 22 of the blower-side double pipe 20 is characterized in that it further includes a plurality of rectangular segments 21c connected to the upstream end and rotatable around the connection portion.

The outer tube 21 and the inner tube 22 of the blower-side double tube 20 further include one or more beads 21b and 22b formed to protrude along the circumferential direction of the outer circumferential surface, respectively, and the remote side double tube 40 The outer tube 41 and the outer tube 41 further include one or more beads 41b and 42b formed to protrude along the circumferential direction of the outer circumferential surface, respectively, and the inner duct 31 and the outer duct 32 are It is fixed to the outer tube 21 and the inner tube 22 with a stainless band 50 at a position higher than the selected one of the beads 21b and 22b, and the inner duct 31 and the outer duct 32 Is characterized in that it is fixed to the outer tube 41 and the inner tube 42 with a stainless band 50 at a position further downstream than the selected one of the beads 41b and 42b.

In addition, the straight cold and hot air double duct of the present invention has an upper surface forming a plurality of through holes 61a, two pairs of closed side surfaces and a closed lower surface, and one of the two pairs of side surfaces with a relatively narrow width. Velcro tapes (63a, 63b) are attached to the sides of the pair, respectively, and are made of a woven film material and are roundly arranged to closely adhere to the circumference of the fruit tree trunk, so that the Velcro tapes (63a, 63b) are detachably coupled to each other and a cold/hot air collector 60 in the form of a rectangular parallelepiped with a hollow inside; and is connected to the inside of the cold/warm air collector 60 in communication, and the connection portion with the cold/warm air collector 60 is made by sewing. A straight branch duct 64 made of a woven film that is sealed; and the free end of the straight branch duct 33 bent at a set angle by bending the end of the straight branch duct 33 at a set angle and the straight branch duct 64 A hollow elbow 70 having both sides inserted into the straight branch duct 33 and the straight branch duct 64 through the free end of the straight branch duct 33 and the straight branch duct 64; and the straight branch duct 33 and the straight branch duct 64 It is characterized by further comprising a stainless band (50) to be fixed to the elbow (70).

The present invention consisting of the above-described configuration,

First, among the methods for reducing cold damage to fruit trees, the warm air method is improved to send warm air or cold air generated by the air conditioner 10 through a blower to a straight cold and hot air double duct instead of using a portable heater and a tractor. Orchard By simultaneously supplying all orchards within the orchard, it has the effect of providing a straight cold and hot air double duct capable of reducing damage caused by cold damage to all orchards due to abnormally high temperatures.

Second, when the warm air or cold air generated by the air conditioner 10 is supplied to the straight cold/warm air double duct through the blower, it is supplied between the inner tube and the outer tube of the double tube on the side of the blower of the straight cold/warm air double duct, and is supplied to the second blowing passage. It has an effect of providing a straight cold/hot air double duct capable of controlling the supply amount of hot air or cold air flowing along the inner pipe and serving as an adiabatic air for the warm air or cold air flowing along the first blowing passage.

Third, when constructing a straight cold/warm air double duct, between the outer tube of the blower-side double tube and the remote side double tube of the straight cold/warm air double duct, and between the inner tube of the blower-side double tube and the remote double tube of the double duct. It has the effect of providing a straight cold and hot air double duct capable of preventing separation between the outer duct and the inner duct, which are inserted between the inner tubes.

Fourth, the stems of fruit trees in the orchard are tightly surrounded by a collecting unit connected to the straight cold and hot air double duct, and hot or cold air is supplied to the collecting unit through the straight cold and hot air double duct and discharged to the outside through the upper side of the collecting unit. It has the effect of providing a straight cold and warm air double duct that can prevent damage from cold damage to stems, branches and fruits of fruit trees.

1 is a photograph showing a conventional combustion method among methods for reducing damage caused by freezing to fruit trees.
2 is a photograph showing a conventional microsprinkling method among methods for reducing damage caused by freezing to fruit trees.
Figure 3 is a photograph showing a conventional radiation method among methods for reducing cold damage to fruit trees.
4 is a longitudinal cross-sectional view of a straight cold/warm air double duct according to a first embodiment of the present invention.
FIG. 5 is a perspective view of a blower-side double pipe among components of the line-shaped cold and hot air double duct of FIG. 4 .
FIG. 6 is a cross-sectional view taken along the line A-A' of FIG. 5, in which a plurality of rectangular segments connected to the upstream end of the inner tube of the blower-side double tube and rotatable around the connection portion are in a state A before rotation and a state B after being rotated. It is a cross-section representing the state.
FIG. 7 is a perspective view of a remote side double pipe among components of the straight cold/warm air double duct of FIG. 4 .
8 is a cross-sectional view taken along line BB′ of FIG. 7 .
9 is a longitudinal cross-sectional view of a straight cold/warm air double duct according to a second embodiment of the present invention.
FIG. 10 is a perspective view illustrating that a cold/hot air collector among components of the straight cold/warm air double duct of FIG. 9 is disposed in close contact with the stem of a fruit tree.
FIG. 11 is a perspective view of the hot and cold air collector of FIG. 10 in a state in which Velcro tapes attached to a pair of narrow side surfaces of the two pairs of side surfaces are separated from each other and unfolded.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention and the resulting actions and effects will be collectively described.

Advantages and features of the present invention, and methods for achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, and may be implemented in a variety of different forms, and only the present embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to completely inform the person who has the scope of the invention, and the present invention is only defined by the scope of the claims. And like reference numerals designate like elements throughout the specification.

In addition, throughout the specification, when a part is said to be connected to another part, this includes not only the case where it is directly connected but also the case where it is indirectly connected through another element in the middle, and also, any Including a component means that other components may be further included without excluding other components unless otherwise stated.

(First embodiment)

4 is a longitudinal cross-sectional view of a straight cold/hot air double duct according to a first embodiment of the present invention, and FIG. 5 is a perspective view of a blower-side double pipe among components of the straight cold/warm air double duct of FIG. 4. FIG. 5, A-A' cross-sectional view showing the state A before rotation and the state B after rotation of a plurality of rectangular segments that are connected to the upstream end of the inner tube of the blower-side double tube and can rotate around the connection portion. 7 is a perspective view of a remote side double pipe among components of the line-shaped cold and hot air double duct of FIG. 4, and FIG. 8 is a cross-sectional view taken along line BB′ of FIG.

4 to 8, the straight cold and warm air double duct of the present invention includes a blower-side double pipe 20, a remote-side double pipe 40, and a duct 30.

The blower-side double pipe 20 includes a hollow outer pipe 21 connected to the outlet of the blower provided in the air conditioner 10 and blowing the warm air or cold air generated by the air conditioner 10 from the outlet to the outside. It is connected to the outer tube 21 through a bracket 23 and consists of an inner tube 22 disposed inside the outer tube 21. In this way, the blower-side double pipe 20 is composed of a double pipe of an outer pipe 21 and an inner pipe 22, and these outer pipe 21 and inner pipe 22 are also provided in the air conditioner 10 so that the air conditioner ( 10), since they are connected to the outlet of the blower that blows the warm air or cold air generated by the outlet to the outside, the cool or warm air blown from the blower is blown into the space S1 in the inner pipe 22 and the outer pipe ( 21) and the inner tube 22, the outer tube 21 and the inner tube 22 are connected to the outlet of the blower, so that the warm air is blown from the outlet of the blower. When supplied, warm air is supplied to both the spaces S1 and S2, and when cold air is supplied from the outlet of the fan 10, cold air is supplied to both the spaces S1 and S2. .

The remote double pipe 40 includes a hollow outer pipe 41 and an inner pipe 42 connected to the outer pipe 41 through a bracket 43 and disposed inside the outer pipe 41. Including, the space in the downstream end of the inner tube 42 is sealed by the downstream end surface 42a in the form of a stopper or cap, and the downstream end of the outer tube 41 and the inner tube 42 The space between the downstream end of ) is open and is spaced apart from the blower-side double pipe 20 at a remote location. In this way, the space between the downstream end of the outer tube 41 and the downstream end of the inner tube 42 is open, so that the cold or warm air blown from the blower can be discharged to the outside through this open space. The space inside the downstream end of the inner tube 42 is sealed by the downstream end surface 42a in the form of a stopper or cap, so that the cold air or warm air blown from the blower cannot be discharged to the outside through the closed space. .

The duct 30 made of a woven film is connected between the inner tube 22 of the double tube 20 on the blower side and the inner tube 42 of the double tube 40 on the remote side, so that the cold or warm air blows through the blower. An inner duct 31 made of a woven film material capable of forming a first blowing passage F1 supplied and flowing by, and an outer pipe 21 of the blower-side double pipe 20 and the remote-side double pipe 40 An outer duct 32 made of a woven film material connected between the outer tubes 41 to form a second blowing passage F2 through which the cold or warm air flows, and the first blowing passage F1 An inlet communicates with the inner duct 31 so that some of the cold air or warm air flowing along is supplied to the outside of the outer duct 32 across the second blowing passage F2 and the outer duct 32, The outlet includes a straight branch duct 33 made of a woven film material forming a third blowing passage F3 located outside the external duct 32 .

Since the inner duct 31 is made of a woven film material, it is possible to be bent at a set angle in addition to the straight line arrangement, and the inner duct 31 is connected to the inner pipe 22 of the blower-side double pipe 20 and the remote side It is connected between the inner tubes 42 of the double tube 40 to form a first blowing passage F1 through which the cold or warm air is supplied by the blower, and the outer duct 32 is also made of a woven film material. It is possible to be arranged bent at a set angle in addition to the straight arrangement, and the outer duct 32 is the outer pipe 21 of the double pipe 20 on the blower side and the outer pipe 41 of the double pipe 40 on the remote side A second blowing passage (F2) may be formed between the cooling air and the warm air flowing therein.

The warm air or cold air flowing along the second blowing passage F2 serves as a heat insulating layer for the warm air or cold air flowing along the first blowing passage F1 to keep warm or cold air flowing along the first blowing passage F1. Cooling is possible, and since the straight branch duct 33 is made of a woven film material, it is possible to be bent at a set angle in addition to the straight arrangement, and the straight branch duct 33 has an inlet to the inner duct 31 Since the third blowing passage F3 is communicated and the outlet is located outside the external duct 32, some of the cold air or warm air flowing along the first blowing passage F1 is transferred to the second blowing passage ( It is possible to supply to the outside of the external duct 32 across F2) and the external duct 32.

Accordingly, when the end of the straight branch duct 33 faces the fruit tree, some of the cold air or warm air touches the fruit tree planted in the orchard to prevent the occurrence of blast pests or fruit burn disease in the fruit tree at abnormally high temperatures or It can bring about the effect of preventing damage from cold damage.

In the duct 30, the branch duct 33 penetrates the outer duct 32 and the inner duct 31, respectively, between the outer duct 32 and the branch duct 33 and between the inner duct 31 and The space between the branch ducts 33 is sealed by sewing. According to this, the cold air or warm air flowing along the first and second air passages F1 and F2 flows between the inner duct 31 and the branch duct 33. Through this, it is possible to prevent leakage into the second blowing passage F2 and at the same time, leakage to the outside through the gap between the external duct 32 and the branch duct 33 can be prevented.

The inner pipe 22 of the blower-side double pipe 20 further includes a plurality of rectangular segments 21c connected to an upstream end and rotatable around the connection portion. When the plurality of rectangular segments 21c are rotated around the connection portion connected to the upstream end of the inner tube 22, the blower-side double tube 20 is formed according to the rotation direction and degree of rotation of the plurality of rectangular segments 21c. The gap or space between the upstream end of the inner pipe 22 and the upstream end of the outer pipe 21, or the degree of opening of the upstream end of the inner pipe 22 can be adjusted accordingly, from the blower to the blower side. A supply amount of warm air or cold air supplied to the space S2 between the outer tube 21 and the inner tube 22 of the double tube 20 or to the inner tube 22 may be adjusted.

In addition, the outer tube 21 and the inner tube 22 of the blower-side double tube 20 further include one or more beads 21b and 22b formed to protrude along the circumferential direction of the outer circumferential surface, respectively, and the remote side double tube ( The outer tube 41 and the outer tube 41 of 40) further include one or more beads 41b and 42b formed to protrude along the circumferential direction of the outer circumferential surface, respectively, and the inner duct 31 and the outer duct 32 Is fixed to the outer tube 21 and the inner tube 22 with a stainless band 50 at a position more upstream than the selected one of the beads 21b and 22b, and the inner duct 31 and the outer duct ( 32) is fixed to the outer tube 41 and the inner tube 42 with a stainless band 50 at a position further downstream than the selected one of the beads 41b and 42b.

According to this configuration, with one stainless band 50, the inner duct 31 and the outer duct 32 are connected to the outer tube 21 at a position more upstream than the selected one of the beads 21b and 22b. It is fixed to the inner tube 22 and the inner duct 31 and the outer duct 32 are fixed with the other stainless band 50 at a position further downstream than the selected one of the beads 41b and 42b. (41) and the inner tube (42) so that the selected bead serves as a barrier against the movement of the stainless band (50), so that the inner duct (31) and the outer duct (32) are connected to the outer tube (21) It is not separated from the inner tube (22).

(Second embodiment)

9 is a longitudinal cross-sectional view of a straight cold/warm air double duct according to a second embodiment of the present invention, and FIG. 10 is a cold/hot air collector among components of the straight cold/warm air double duct of FIG. 9 placed in close contact with the stem of a fruit tree. FIG. 11 is a perspective view of the hot and cold air collector in a state in which Velcro tapes attached to a pair of narrower side surfaces of the two pairs of sides of the cold and warm air collector of FIG. 10 are separated from each other and unfolded.

In addition, in addition to the configuration of the first embodiment, the straight cold and hot air double duct of the present invention has an upper surface forming a plurality of through holes 61a, two pairs of closed side surfaces, and a closed lower surface, Velcro tapes 63a and 63b are attached to a pair of relatively narrow side surfaces, respectively, and are made of a woven film material and are roundly arranged to closely adhere to the circumference of the fruit tree trunk, are coupled to be separable from each other, and are connected in communication with the inside of the cold and hot air collecting part 60; ) and the straight branch duct 64 made of a woven film material in which the connection portion is sealed by sewing; and the straight branch duct 33 bent at a set angle by bending the end of the straight branch duct 33 at a set angle A hollow elbow 70 having both sides inserted into the straight branch duct 33 and the straight branch duct 64 through the free end and the free end of the straight branch duct 64; and the straight branch duct 33 ) and the straight branch duct 64 fixed to the elbow 70, the stainless band 50; has the same configuration as the configuration of the first embodiment except for further including.

According to the above configuration, the cold and hot air collector 60 has an upper surface forming a plurality of through holes 61a, two pairs of closed side surfaces and a closed lower surface, and one of the two pairs of side surfaces with a relatively narrow width. Velcro tapes (63a, 63b) are attached to the sides of the pair, respectively, and are made of a woven film material and are roundly arranged to closely adhere to the circumference of the fruit tree trunk, so that the Velcro tapes (63a, 63b) are detachably coupled to each other Since the inside is empty, when warm or cold air is supplied to the empty space inside, the supplied warm or cold air can warm or cool the stems of fruit trees, and then through the plurality of through holes 61a formed on the upper surface. It can be discharged to the outside to warm or cool the branches of the fruit tree and the fruits that have opened on the branches.

In addition, since the straight branch duct 64 is made of a woven film material, the elbow 70 can be easily inserted through the opening at the free end, and the straight branch duct 64 is the cold and warm air collecting part ( 60) so that when warm air or cold air is supplied to the straight branch duct 64, the supplied hot or cold air can be supplied to the inside of the cold and hot air collecting unit 60, and also the straight branch duct ( 64) is closed by sewing, so that when warm air or cold air is supplied to the straight branch duct 64, the straight branch duct 64 and the cold and warm air collector 60 are sealed. There is no fear of leakage of the warm air or cold air supplied through the connection portion of the outside.

In addition, the elbow 70 bends the end of the straight branch duct 33 at a set angle through the free end of the straight branch duct 33 and the free end of the straight branch duct 64 bent at a set angle. Both sides can be inserted into the straight branch duct 33 and the straight branch duct 64 and are hollow, so that when the insertion is made, the straight branch duct 33 passes through the elbow 70 to form a straight branch duct ( The warm air or cold air may be supplied to 64).

The stainless band 50 fixes the straight branch duct 33 and the straight branch duct 64 to the elbow 70, so that the straight branch duct 33 and the straight branch duct 64 are By (50), it can be fixed to the elbow 70, which is typically made of materials such as stainless steel (STS304) and carbon steel pipe for fuel gas piping (SPPG), and is hard and has rigidity.

In addition, when manufacturing the outer duct 32 of the straight cold and hot air double duct of the present invention, a long woven film is used to prevent the duct exposed in the open field from leaving its seat due to strong wind or external pressure. The long side ends of both sides are sewn together to form a wire accommodating portion, the wire (W) is inserted into the wire accommodating portion, exposed from both sides to the outside, and then the exposed wire portions on both sides are tied between fruit trees and fixed. It is also possible.

The present invention described above has been described with reference to an embodiment shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments therefrom. will have to be clarified. Therefore, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10. Air conditioner 20. Double pipe on the blower side
21. Outer tubes 21b, 22b. bead
21c. Rectangular section 22. Inner tube
23. Bracket 30. Duct
31. Inner duct 32. Outer duct
33. Straight branch duct 40. Remote side double pipe
41. Outer pipe 41b, 42b. bead
42. Inner tube 42a. downstream end face
43. Bracket 50. Sten Band
60. Cold and warm air collecting unit 61a. through hole
63a, 63b. Velcro tape 64. Straight branch duct
70. Elbow F1. 1st blowing passage
F2. Second blowing passage W. wire

Claims (4)

A hollow outer tube 21 connected to the outlet of the blower provided in the air conditioner 10 and blowing warm air or cold air generated by the air conditioner 10 from the outlet to the outside, and a bracket on the outer tube 21 ( 23) and a blower-side double pipe 20 composed of an inner pipe 22 disposed inside the outer pipe 21; and
It includes a hollow outer tube 41 and an inner tube 42 connected to the outer tube 41 through a bracket 43 and disposed inside the outer tube 41, wherein the inner tube 42 The space in the downstream end of is sealed by the downstream end surface 42a in the form of a stopper or cap, and the space between the downstream end of the outer tube 41 and the downstream end of the inner tube 42 is open, and a remote side double pipe 40 disposed at a location remote from the blower-side double pipe 20; and
A first blowing passage (F1) connected between the inner pipe 22 of the blower-side double pipe 20 and the inner pipe 42 of the remote-side double pipe 40, through which the cool air or warm air is supplied by the blower and flows. ) Is connected between the inner duct 31 made of a woven film material capable of forming, and the outer tube 21 of the blower-side double tube 20 and the outer tube 41 of the remote-side double tube 40 An external duct 32 made of a woven film material capable of forming a second blowing passage F2 through which cool or warm air flows, and a portion of the cold air or warm air flowing along the first blowing passage F1 2, the inlet communicates with the inner duct 31 so that it is supplied to the outside of the outer duct 32 across the blowing passage F2 and the outer duct 32, and the outlet is outside the outer duct 32 A straight branch duct 33 made of a woven film material forming a third blowing passage F3 positioned thereon; between the outer duct 32 and the branch duct 33 and between the inner duct 31 and the branch Including a duct 30 in which the gap between the ducts 33 is sealed by sewing ,
It has an upper surface forming a plurality of through holes 61a, two pairs of closed side surfaces, and a closed lower surface, and Velcro tapes 63a and 63b are respectively formed on a pair of relatively narrow side surfaces of the two pairs of side surfaces. It is attached, made of a woven film material, and is roundly arranged in close contact with the circumference of the trunk of a fruit tree, and the Velcro tapes 63a and 63b are detachably coupled to each other, and the inside is hollow. (60); with
A straight branch duct 64 made of a woven film that is connected to the inside of the cold and warm air collecting unit 60 and has a connection portion with the cold and hot air collecting unit 60 sealed by sewing;
The straight branch duct 33 and the straight branch duct 33 through the free end of the straight branch duct 33 and the free end of the straight branch duct 64 bent at a set angle by bending the end of the straight branch duct 33 at a set angle A hollow elbow 70 in which both sides are inserted into the branch duct 64, respectively; and
A stainless steel band (50) for fixing the straight branch duct (33) and the straight branch duct (64) to the elbow (70). According to claim 1,
The inner tube 22 of the blower-side double tube 20 further comprises a plurality of rectangular segments 21c connected to the upstream end and rotatable around the connection portion. . According to claim 1,
The outer tube 21 and the inner tube 22 of the blower-side double tube 20 each further include one or more beads 21b and 22b formed to protrude along the circumferential direction of the outer circumferential surface,
The outer tube 41 and the outer tube 41 of the remote double tube 40 each further include one or more beads 41b and 42b formed to protrude along the circumferential direction of the outer circumferential surface,
The inner duct 31 and the outer duct 32 are fixed to the outer tube 21 and the inner tube 22 with a stainless band 50 at a position more upstream than the selected one of the beads 21b and 22b become,
The inner duct 31 and the outer duct 32 are fixed to the outer tube 41 and the inner tube 42 with a stainless band 50 at a position further downstream than the selected one of the beads 41b and 42b. A straight cold and hot air double duct, characterized in that it is. delete

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