KR102017854B1 - Returnable Double Duct Type of Hot And Cold Air Circulation System - Google Patents

Abstract

The present invention relates to a returnable dual duct type system for circulating cold and hot air, which comprises: a cold and hot air blower side dual pipe (20) inserted into and coupled to a blast pipe (10a) formed on one side of a cold and hot air blower (10) with a ventilator, and configured to form a dual pipe including an inner pipe (22) and an outer pipe (21); a remote side dual pipe (30) disposed in a remote distance from the cold and hot air blower side dual pipe (20), and configured to form a dual pipe including an inner pipe (32) and an outer pipe (31) disposed outside the inner pipe (32); an inner duct (51) connected between the inner pipe (22) of the cold and hot air blower side dual pipe (20) and the inner pipe (32) of the remote side dual pipe (30), and configured to form a first air blowing passage (L1) through which cold air or hot air, generated from the cold and hot air blower (10) and flowing through the blast pipe (10a) by the ventilator, flows; and an outer duct (52) connected between the outer pipe (21) of the cold and hot air blower side dual pipe (20) and the outer pipe (31) of the remote side dual pipe (30), and configured to form a second air blowing passage (L2), through which the cold or hot air flowing through the first air blowing passage (L1) is introduced and flows, wherein the remote side dual pipe (30) includes an air blowing direction reversing unit configured to reverse an air blowing direction of the cold or hot air flowing the first air blowing passage (L1), and the outer duct (52) includes a plurality of cold and hot air discharge holes (52a) to discharge the cold and hot air flowing through the second air blowing passage (L2). According to the present invention, it is possible to eliminate a temperature difference between a discharge hole of the cold and hot air blower and an end of an inner side of a facility.

Description

Returnable Double Duct Type of Hot And Cold Air Circulation System

The present invention can be coupled to the blower pipe (10a) provided on one side of the cold and hot air blower 10 having a blower, the cold and hot air side double pipe to form a double pipe of the inner tube 22 and the outer tube (21). 20; It is disposed at a position remote from the cold and hot air-side double pipe 20 and is disposed outside the inner tube 32 and the inner tube 32 and the double tube of the inner tube 32 and the outer tube 31 is disposed. Remote side double pipe 30 to form; Connected between the inner tube 22 of the cold air blower-side double pipe 20 and the inner pipe 32 of the remote side double pipe 30, the cold air or hot air generated by the cold air blower 10 is generated by the blower and An internal duct 51 capable of forming a first blowing passage L1 flowing through the blowing pipe 10a; And cold air flowing through the first blow passage L1 by being connected between the outer tube 21 of the cold-generated cold air or hot air-side double tube 20 and the outer tube 31 of the remote side double tube 30. Or an outer duct 52 capable of forming a second blowing passage L2 through which warm air flows, and the remote double pipe 30 has a cold wind or a flowing cold wind flowing through the first blowing passage L1, or It includes a blowing direction reversing portion that can reverse the blowing direction of the warm air, the outer duct 52 is a plurality of cold and hot air outlet holes so that the cold air or hot air flowing along the second blowing passage (L2) ( It relates to a return type double duct type hot and cold wind circulation system comprising a 52a).

Hereinafter, the background art together with the accompanying drawings will be described.

In general, the cultivation of winter facilities requires heating, and the facility area of Korea is increasing with time.

Many of the facilities (eg, plastic house (H)) is heating, many of them are using the hot and cold fan to blow the cold or hot air of the cold and hot air inside the facility.

The hot air is blown into the facility by installing a duct formed of a tubular single vinyl at the discharge port of the cold / hot air fan.

However, when the air is blown by using a single duct formed in a tubular shape as in the prior art, temperature deviations between the hot and cold fan discharge port and the end of the inside of the facility and the front and rear of the inside of the facility are generated up to 13 to 15 ° C. Due to the uneven temperature distribution, crop growth and quality were lowered, which led to the disadvantage of increasing income of facility-warmed farmers.

In order to alleviate some of these shortcomings, Korean Patent Registration No. 20-0344742, which is an embodiment of the prior art, describes, through claims 1 and 2, "in a duct for a cold / hot air fan, having a predetermined diameter and length and having a tubular shape. An outer duct formed with a plurality of external discharge holes at predetermined intervals along a longitudinal direction of the surface, and formed in a tubular shape having a diameter relatively smaller than the diameter of the external duct and installed along the longitudinal direction inside the external duct with a predetermined space; And a double duct including internal ducts having a plurality of internal discharge holes formed at predetermined intervals along a length direction of the surface, and the diameter of the internal discharge holes formed in the internal ducts in the longitudinal direction of the internal duct at the cold / hot air fan side. Suggest a double duct for cold and hot air, characterized in that the larger diameter toward the other side according to have.

However, the Republic of Korea Registered Room No. 20-0344742, which is an embodiment of the prior art, forms a plurality of external discharge ports and internal discharge ports in addition to the external duct and the internal duct, so that the warm air flows to the end of the internal duct and the temperature is lowered. The warm air flowing out of the discharge port flows in the direction perpendicular to the longitudinal direction of the inner duct and the outer duct. Therefore, the warm air flows out almost through the outer discharge port of the adjacent outer duct and the inner duct 30 and the outer duct The amount flowing sideways through the space 40 between the 20 is small. Therefore, the temperature difference between the cold air blower discharge port side and the end portion of the inside of the facility may be alleviated, but there is still a problem.

In addition, the double duct for the cold and hot air fan of the Republic of Korea Registered Room No. 20-0344742, which is one embodiment of the prior art, because the duct formed of vinyl is formed in a double, the length of the cold air blower outlet and the end of the inside of the facility is long There was a fear that the duct made of vinyl would be struck down due to its own weight.

Republic of Korea Patent Publication No. 10-2014-0121611 (2014.10.16.)

Return type double duct cold and hot air circulation system according to the present invention is to solve the following.

It is an object of the present invention to provide a return type double duct type cold and hot air circulation system that eliminates the temperature difference between the hot and cold air fan discharge port side and the end portion inside the facility.

Another object of the present invention is to provide a return-type double duct type cold and hot air circulation system in which a duct formed of vinyl does not slam down due to its own weight even when the length of the end portion of the hot and cold air fan outlet and the inside of the facility is long.

Return type double duct cold and hot air circulation system according to the present invention is configured as follows to solve the above problems.

Cold and hot air blower-side double pipe 20 that can be coupled to the blowing pipe (10a) provided on one side of the cold and hot air blower (10) having a blower to form a double pipe of the inner pipe 22 and the outer pipe (21). ; It is disposed at a position remote from the cold and hot air-side double pipe 20 and is disposed outside the inner tube 32 and the inner tube 32 and the double tube of the inner tube 32 and the outer tube 31 is disposed. Remote side double pipe 30 to form; Connected between the inner tube 22 of the cold air blower-side double pipe 20 and the inner pipe 32 of the remote side double pipe 30, the cold air or hot air generated by the cold air blower 10 is generated by the blower and An internal duct 51 capable of forming a first blowing passage L1 flowing through the blowing pipe 10a; And cold air or hot air flowing between the outer pipe 21 of the cold air blower-side double pipe 20 and the outer pipe 31 of the remote double pipe 30 to flow through the first blowing passage L1. An outer duct 52 capable of forming a flowing second blowing passage (L2), the remote side double pipe (30) to reverse the blowing direction of cold or hot air flowing through the first blowing passage (L1) It may include a blowing direction reversal portion, the outer duct 52 is characterized in that it comprises a plurality of cold and hot air outlet 52a so that the cold or hot air flowing along the second blowing passage (L2) can be discharged. .

The outer tube 31 of the remote side double tube 30 is connected to and supported by the inner tube 32 and the second and third connecting portions 33a and 33b, and the outer tube of the cold / hot air side double tube 20 ( 21 is connected and supported through the inner tube 22 and the fourth connecting portion 23.

The blowing direction reversal unit is connected to the inner tube 32 of the remote side double tube 30 via a plurality of first connecting portions 34 spaced apart from each other, the inner tube 32 of the remote side double tube 30 A disc 35 disposed vertically with respect to the central axis of the inner tube 32 at a distance from the free end of the inner tube 32 and arranged concentrically with the inner tube 32; And a first conical portion 36 installed concentrically on the inner side of the disc 35 with the faucet facing the first blowing passage L1, the diameter of the disc 35 being the remote side. It is characterized in that it is longer than the diameter of the inner tube 32 of the double tube 30 and smaller than the diameter of the outer tube 31 of the remote side double tube 30.

The blowing direction reversing portion has a second conical portion 37 concentrically installed on the outer surface of the disc 35 so that the faucet faces the outside and the circumference of the bottom surface coincides with the circumference of the disc 35. ; And a collar portion 31a connected to the outer tube 31 and smaller in diameter as it moves away from the outer tube 31. And a flange portion 31af which extends horizontally from the free end of the solid portion 31a and which can be fitted into and coupled to the blower pipe 40a of the blower 40.

The first conical part 36 and the second conical part 37 are characterized by forming an angle with respect to the outer surface of the disc 35 of the line connecting the outer periphery of the bottom from the tap at 45 degrees.

The inner duct 51 and the outer duct 52 further include a wire W accommodated in a wire receiving portion provided along a length direction of the inner duct 51 and the outer duct 52, and the wire accommodating portion is provided. The unit is characterized in that it is provided at one or more of the upper side and the lower side of the inner duct 51 and the outer duct 52.

The inner tube 22 and the outer tube 21 of the cold / hot air side double tube 20, and the inner tube 32 and the outer tube 31 of the remote side double tube 30 are fitted with counterparts, respectively. In order to avoid falling out of the city, the small diameter portion on the free end side, and located adjacent to the small diameter portion, characterized in that it comprises a larger diameter than the small diameter portion.

The inner tube 32 of the remote side double tube 30 is characterized in that it has an annular flange (32a) narrowing in diameter toward the front from the free end at the free end facing the disc 35.

The extension line of the vertical section of the annular flange 32a is characterized by an angle of 45 ° with respect to the longitudinal axis of the inner tube 32.

The return-type double duct cold / hot air circulation system according to the present invention can achieve the following effects by the above solution.

First, there is an effect of providing a return type double duct type hot and cold wind circulation system that eliminates the temperature difference between the discharge side of the cold and hot air blower and the end of the inside of the facility.

Second, even if the length of the hot and cold fan discharge port and the end of the inside of the facility is long, there is an effect of providing a return type double duct cold and hot air circulation system that the duct made of vinyl does not fall down due to its own weight.

1 is a schematic diagram of a return type double duct hot and cold air circulation system according to a first embodiment of the present invention.
FIG. 2 is an enlarged view of portion A of FIG. 1.
FIG. 3 is a view showing an inner tube of the remote double tube of FIG. 1 and an annular flange provided at the free end of the inner tube.
FIG. 4 is a schematic diagram of a return type double duct cold / hot air circulation system in which the hot / cold fan and the blower are omitted from FIG. 1.
Figure 5a is a perspective view showing the inside of the cold and hot air side double pipe of FIG.
FIG. 5B is a view illustrating a diameter of the free end of the inner tube of the double tube of the return type double duct type cold / hot air circulation system of FIG. 1 and an adjacent portion thereof.
Figure 6a is a perspective view showing the inside of one side of the distant double tube of Figure 1 obliquely.
Figure 6b is a perspective view showing the inside of the other side of the remote double tube of Figure 1 obliquely.
FIG. 7 is a view showing a second embodiment in which the blower is omitted in the embodiment of FIG. 1.
FIG. 8 is a view showing a third embodiment in which the second conical portion, the solid portion, and the flange portion are further omitted in the second embodiment of FIG. 7.

Hereinafter, various embodiments of the present disclosure will be described with reference to the accompanying drawings. However, this is not intended to limit the techniques described in this document to specific embodiments, but should be understood to cover various modifications, equivalents, and / or alternatives to the embodiments of this document. In connection with the description of the drawings, similar reference numerals may be used for similar components.

In addition, the expressions "first," "second," and the like used in this document may modify various components in any order and / or importance, and may distinguish one component from another. Used only and do not limit the components. For example, the 'first part' and the 'second part' may indicate different parts regardless of the order or importance. For example, without departing from the scope of rights described in this document, the first component may be called a second component, and similarly, the second component may be renamed to the first component.

Also, the terminology used herein is for the purpose of describing particular embodiments only and may not be intended to limit the scope of other embodiments. Singular expressions may include plural expressions unless the context clearly indicates otherwise. The terms used herein, including technical or scientific terms, may have the same meaning as commonly understood by one of ordinary skill in the art. Among the terms used in this document, terms defined in the general dictionary may be interpreted as having the same or similar meaning as the meaning in the context of the related art, and ideally or excessively formal meanings are not clearly defined in this document. Not interpreted as In some cases, even if terms are defined in the specification, they may not be interpreted to exclude embodiments of the present disclosure.

Hereinafter, with reference to the accompanying drawings, a first embodiment of the present invention for solving the above problems is as follows.

(First embodiment)

1 is a schematic diagram of a return type double duct type hot and cold air circulation system according to a first embodiment of the present invention, FIG. 2 is an enlarged view of a portion A of FIG. 1, and FIG. Fig. 4 is a view showing an inner tube and an annular flange provided at the free end of the inner tube, and Fig. 4 is a schematic diagram of a return type double duct hot and cold air circulation system in which the hot and cold fans and the blower are omitted from Fig. 1, and Fig. 5A. 1 is a perspective view showing the inside of the hot and cold air side double pipe of FIG. 1 at an oblique angle, and FIG. 6A is a perspective view showing the inside of one side of the remote double tube of FIG. 1 obliquely, and FIG. 6B shows the inside of the other side of the remote double tube of FIG. 1 obliquely. Is a perspective view.

1 to 6B, the return type double duct cold / hot air circulation system according to the first embodiment of the present invention may be coupled to the blower tube 10a provided on one side of the cold / hot air fan 10 having the blower. A cold / hot air side double pipe (20) forming a double pipe of the inner pipe (22) and the outer pipe (21); It is disposed at a position remote from the cold and hot air-side double pipe 20 and is disposed outside the inner tube 32 and the inner tube 32 and the double tube of the inner tube 32 and the outer tube 31 is disposed. Remote side double pipe 30 to form; Connected between the inner tube 22 of the cold air blower-side double pipe 20 and the inner pipe 32 of the remote side double pipe 30, the cold air or hot air generated by the cold air blower 10 is generated by the blower and An internal duct 51 capable of forming a first blowing passage L1 flowing through the blowing pipe 10a; And cold air or hot air flowing between the outer pipe 21 of the cold air blower-side double pipe 20 and the outer pipe 31 of the remote double pipe 30 to flow through the first blowing passage L1. An outer duct 52 capable of forming a flowing second blowing passage (L2), the remote side double pipe (30) to reverse the blowing direction of cold or hot air flowing through the first blowing passage (L1) It includes a blowing direction reversal portion, the outer duct 52 includes a plurality of cold and hot air outlet holes 52a so that the cold or hot air flowing along the second blowing passage (L2) can be discharged. Here, the inner duct 51 and the outer duct 52 is preferably made of vinyl, but the present invention is not limited thereto, and in other embodiments, other materials other than vinyl (for example, metal, plastic, or wood). It is also possible to be produced with.

According to the above configuration, the cold air or hot air generated in the cold air blower 10 is blown toward the blower tube 10a by the blower provided in the cold air blower 10, and then formed in the inner pipe 22 and the inner duct 51. The first blowing passage (L1), the blowing direction reversing portion, the second blowing passage (L2) formed in the outer duct 52, and the plurality of cold and hot air outlet 52a flows in the order, in this case the inner duct 51 ) Does not form a cold or hot air outflow hole, but is surrounded by an outer duct 52 and the direction of cold or warm air flowing through the first blowing passage L1 and the direction of cold or warm wind flowing through the second blowing passage L2. On the contrary, the first blow passage L1 formed in the inner duct 51 because the cold wind flowing through the first blow passage L1 and the cold wind or warm wind flowing through the second blow passage L2 exchange heat with each other up and down. When the warm air flowing through) is long in the first blowing passage L1 ( , More than 50m) to be eliminated is the temperature difference between the hot and cold Punggi discharge port side and the end of the inner facilities.

The outer tube 31 of the remote side double tube 30 is connected to and supported by the inner tube 32 and the second and third connecting portions 33a and 33b, and the outer tube of the cold / hot air side double tube 20 ( 21 is connected and supported through the inner tube 22 and the fourth connecting portion 23. According to this configuration, the outer tube 21 can be stably supported by being connected through the inner tube 22 and the fourth connecting portion 23.

The blowing direction reversal unit is connected to the inner tube 32 of the remote side double tube 30 via a plurality of first connecting portions 34 spaced apart from each other, the inner tube 32 of the remote side double tube 30 A disc 35 disposed vertically with respect to the central axis of the inner tube 32 at a distance from the free end of the inner tube 32 and arranged concentrically with the inner tube 32; And a first conical portion 36 installed concentrically on the inner side of the disc 35 with the faucet facing the first blowing passage L1, the diameter of the disc 35 being the remote side. It is longer than the diameter of the inner tube 32 of the double tube 30 and smaller than the diameter of the outer tube 31 of the remote side double tube 30.

According to the above configuration, since the cold or warm air flowing along the first blowing passage L1 formed in the inner duct 51 flows to the side while hitting the first conical part 36 and then hits the disc 35 diagonally. The cold or warm air is bounced back from the disc 35 without exiting to the outside, that is, the right side of FIG. 1, through an empty gap or space between the outer circumferential surface of the disc 35 and the outer tube 31 of the remote double tube 30. It is lowered and flows through the second blowing passage (L2) formed in the outer duct 52 to reverse the blowing direction of the cold or warm air.

On the other hand, in another embodiment, the diameter of the disc 35 may be the same as the diameter of the outer tube 31 of the remote double tube 30, even in this case is formed in the inner duct 51 1 Cold air or hot air flowing along the air blow passage (L1) flows to the side while hitting the first conical portion 36 and then hits the disc 35 diagonally, so the cold air or hot air is the outer peripheral surface and the remote side of the disc 35 The second blowing passage L2 formed in the outer duct 52 due to no empty gap or space between the outer tubes 31 of the double tube 30 and thus being unable to escape to the outside, that is, the right side of FIG. By flowing through the) is reversed the blowing direction of the cold or warm air.

In another embodiment, the diameter of the disc 35 is longer than the diameter of the inner tube 32 of the remote side double tube 30 and smaller than the diameter of the outer tube 31 of the remote side double tube 30. a first blower that yirumyeonseo the inside surface smooth curve gradually toward the outer periphery of the circular plate 35, the thickness of the cold air or the disc (35) warm air is striking are possible configurations that toad Wars, formed in the inner duct 51, even if Since the cold or warm air flowing along the passage L1 hits the first conical part 36 and flows laterally to the disk 35, the cold or hot air flows along the smooth curve, so that the cold or hot air flows along the smooth curve. Flows through the second blowing passage L2 formed in the outer duct 52 without exiting to the outside, that is, to the right in FIG. 1, through an empty gap or space between the outer tube 31 of the remote double tube 30 and By being reminded The air flow direction reversal of the wind or warm air will be written.

In addition, the blowing direction reversing portion is a second conical part which is installed concentrically on the outer surface of the disc 35 so that the tap is facing the outside and the circumference of the bottom surface coincides with the circumference of the disc 35 ( 37); And a collar portion 31a connected to the outer tube 31 and smaller in diameter as it moves away from the outer tube 31. It is also possible to further include a flange portion 31af which extends horizontally from the free end of the solid portion 31a and which can be fitted into and coupled to the blower pipe 40a of the blower 40.

According to the above configuration, when the flange part 31af is fitted into the blower pipe 40a of the blower 40 and the blower 40 is operated, the outside of the cold or warm air flowing along the first blower passage L1. Only a small portion of the cold air or hot air of the outer surface of the disk 35 and the gap between the outer circumference of the outer tube 31 of the remote double tube 30 without the impact on the disk 35, that is to the outside, that is to the right of FIG. The thrust force is applied through the second blowing passage (L2) by pushing the whole cold or warm air together with the very part of the cold or warm air to be exited while preventing the exit from the wind generated by the blower 40. Will be.

The first conical part 36 and the second conical part 37 preferably form an angle of 45 ° with respect to the outer surface of the disc 35 of a line connecting the outer periphery of the floor from the nipple, because Forming the angle of the cone portion 36 to 45 ° is most advantageous for reversing the blowing direction of cold or warm air, and forming the angle of the second cone portion 37 to 45 ° is used to prevent the wind generated from the blower 40. Since the cold air or the warm air can be pushed to impart a driving force through the gap or space between the outer circumferential surface of the disc 35 and the outer pipe 31 of the remote double pipe 30 to the inside, that is, the left side of FIG. to be.

The inner duct 51 and the outer duct 52 further include a wire male inner duct wire W provided along the inner duct 51 and the outer inner duct length direction, and the wire receiving portion includes the inner duct. According to the internal duct structure provided in at least one of the upper side and the lower side of the 51 and the outer duct 52, even when the length of the hot / cold fan discharge port and the end of the inside of the facility is long (for example, 50 M or more), The duct will not fall down due to its own weight.

The inner tube 22 and the outer tube 21 of the cold / hot air side double tube 20, and the inner tube 32 and the outer tube 31 of the remote side double tube 30 are fitted with counterparts, respectively. The small diameter portion on the free end side and the large diameter portion positioned adjacent to the small diameter portion to have a larger diameter than the small diameter portion are provided so as not to fall out. For example, as shown in Figs. 1, 4, 6 to 8, the inner tube 22 is adjacent to the first small diameter portion 22a and the first small diameter portion 22a at the end near the left end, and is the inner tube. The second small diameter portion 22c and the second small diameter at the end near the right end have a first large diameter portion which is the same as the diameter of the longitudinal central portion of 22 and is larger than the diameter of the first small diameter portion 22a. It has a second large diameter portion 22d adjacent to the neck portion 22c and equal to the diameter of the longitudinal center portion of the inner tube 22 and larger than the diameter of the second small diameter portion 22c. According to this configuration, the inner tube 22 and the outer tube 21 of the double tube 20, and the inner tube 32 and the outer tube 31 of the remote double tube 30 are fitted with the counterpart, respectively. It will not fall out when joining.

The inner tube 32 of the remote side double tube 30 has an annular flange 32a which narrows in diameter toward the front from the free end at the free end facing the disc 35. According to this configuration, similar to the angle of the second cone portion 37, the inner tube 32 of the remote side double tube 30 toward the front from the free end at the free end facing the disc 35. By forming the diameter narrower, the wind generated in the blower 40 passes through the empty space or space between the outer circumferential surface of the disc 35 and the outer tube 31 of the remote double tube 30 to the inside, that is, the left side of FIG. By inducing pushing the cold or warm air can give a driving force.

In another embodiment, the extension of the vertical section of the annular flange 32a is at an angle of 45 ° with respect to the longitudinal axis of the inner tube 32. According to such a configuration, by forming the inclination angle of the inner tube 32 of the remote side double tube 30 to the angle of the second cone portion 37, the wind generated by the blower 40 to the Through the empty space or space between the outer circumferential surface and the outer tube 31 of the remote side double pipe 30 may be directed to the inside, that is, to the left side of FIG.

(2nd Example)

FIG. 7 is a view showing a second embodiment in which the blower is omitted in the embodiment of FIG. 1.

Referring to FIG. 7, the configuration is the same as the embodiment of FIG. 1 except that the blower 40 is omitted.

According to the second embodiment, since the blower is omitted in the embodiment of FIG. 1, but the rest of the configuration is the same, cold or warm air flowing along the first blowing passage L1 formed in the inner duct 51 is the first cone. The cold air or warm air is an empty gap or space between the outer circumferential surface of the disc 35 and the outer tube 31 of the remote double pipe 30 because the cold air or warm air flows to the side while hitting the part 36 and then hits the disc 35 diagonally. 1 through the second blowing passage (L2) formed in the outer duct 52 by being bounced back from the disc 35 without exiting to the right, that is, the right side of FIG. The loss effect is the same as that of the eleventh embodiment.

In the second embodiment, the remote double tube 30 is supported by appropriate supporting means, although not shown in FIG.

(Third Embodiment)

FIG. 8 is a view showing a third embodiment in which the second conical portion, the solid portion, and the flange portion are further omitted in the second embodiment of FIG. 7.

Referring to FIG. 8, the configuration is the same as that of the second embodiment of FIG. 7 except that the second cone portion 37, the solid portion 31a, and the flange portion 31af are additionally omitted.

According to the third embodiment, since the second conical portion 37, the solid portion 31a, and the flange portion 31af are additionally omitted in the second embodiment of Fig. 7, the inner duct remains the same. Cold air or hot air flowing along the first blowing passage (L1) formed in the (51) hits the first conical portion (36) flows to the side and then hits the disc 35 diagonally so that the cold air or hot air is the disc ( Through the empty gap or space between the outer circumferential surface of 35) and the outer tube 31 of the remote double tube 30, it does not escape to the outside, that is, the right side of FIG. By flowing through the formed second blowing passage (L2) the effect of the reverse direction of the blowing direction of the cold or warm air is the same as in the second embodiment.

In the third embodiment, the remote double tube 30 is supported by appropriate supporting means, although not shown in FIG.

In all of the above embodiments, the return type double duct cold / hot air circulation system of the present invention may be applied to grow, for example, a high-cultivation bed 60 in a facility (e.g., a vinyl house (H)). The cold and hot air blower 10 may be placed on the table 11, and the blower 40 may be placed on the table 41.

As mentioned above, although this invention was demonstrated in detail using the Example, the scope of the present invention is not limited to a specific Example and must be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

10: cold and hot air fan
11, 41: table
10a: blower
20: cold / hot air side double pipe
21: outer tube
22: inner tube
23: fourth connection
30: remote side double pipe
31: outer tube
31a: Gokabbu
31af: flange
32: inner tube
32a: annular flange
33a, 33b: second and third connection portion
34: first connection portion
35: negative
36: first cone
37: second cone
40: blower
40a: blower pipe
51: internal duct
52: outer duct
52a: cold and hot air outlet
L1: 1st ventilation passage
Internal duct passage
W: wire

Claims (8)

Cold and hot air blower-side double pipe 20 that can be coupled to the blowing pipe (10a) provided on one side of the cold and hot air blower (10) having a blower to form a double pipe of the inner pipe 22 and the outer pipe (21). ;
It is disposed at a position remote from the cold and hot air-side double pipe 20 and is disposed outside the inner tube 32 and the inner tube 32 and the double tube of the inner tube 32 and the outer tube 31 is disposed. Remote side double pipe 30 to form;
Connected between the inner tube 22 of the cold air blower-side double pipe 20 and the inner pipe 32 of the remote side double pipe 30, the cold air or hot air generated by the cold air blower 10 is generated by the blower and An internal duct 51 capable of forming a first blowing passage L1 flowing through the blowing pipe 10a; And
Connected between the outer tube 21 of the cold air blower-side double tube 20 and the outer tube 31 of the remote side double tube 30, the cold air or hot air flowing through the first blowing passage L1 flows in. An outer duct 52 capable of forming a second blowing passage L2,
The remote-side double pipe 30 includes a blowing direction reversing portion that can reverse the blowing direction of the cold or hot air flowing through the first blowing passage (L1),
The outer duct 52 includes a plurality of cold and hot air outlet holes 52a so that cold or hot air flowing along the second blowing passage L2 may be discharged .
The blowing direction reverse portion,
It is connected to the inner tube 32 of the remote side double tube 30 via a plurality of first connecting portion 34 spaced apart from each other, the distance between the free end and the free end of the inner tube 32 of the remote side double tube 30 A disc 35 disposed perpendicular to the central axis of the inner tube 32 and disposed concentrically with the inner tube 32; And
It includes a first conical portion (36) concentrically installed on the inner surface of the disc (35) with the tap facing the first blowing passage (L1),
The diameter of the disc 35 is longer than the diameter of the inner tube 32 of the remote side double tube 30 and smaller than the diameter of the outer tube 31 of the remote side double tube 30,
The blowing direction reverse portion,
A second cone portion 37 concentrically installed on the outer surface of the disc 35 so that the tap faces the outside and the circumference of the bottom surface coincides with the circumference of the disc 35; And
A collar portion 31a connected to the outer tube 31 and smaller in diameter as it moves away from the outer tube 31;
Return type double duct cold and hot air further comprising a flange portion 31af extending horizontally from the free end of the solid portion 31a and fitted into the blower pipe 40a of the blower 40. Circulatory system. The method of claim 1,
The outer tube 31 of the remote side double tube 30 is connected and supported through the inner tube 32 and the second and third connecting portions 33a and 33b,
Return-type double duct cold and hot air circulation system, characterized in that the outer tube (21) of the cold and hot air side double pipe (20) is connected and supported through the inner tube (22) and the fourth connecting portion (23). delete delete The method of claim 1 ,
The return cone double duct is characterized in that the first cone portion 36 and the second cone portion 37 form an angle with respect to the outer surface of the disc 35 of the line connecting the outer periphery of the bottom from the tap at 45 degrees. Type hot and cold circulation system. The method of claim 1,
The inner duct 51 and the outer duct 52,
Further comprising a wire (W) accommodated in the wire receiving portion provided along the longitudinal direction of the inner duct 51 and the outer duct 52,
Return wire double duct type hot and cold circulation system, characterized in that provided in one or more of the upper and lower sides of the inner duct (51) and the outer duct (52) . The method of claim 1,
The inner tube 22 and the outer tube 21 of the cold / hot air side double tube 20, and the inner tube 32 and the outer tube 31 of the remote side double tube 30 are fitted with counterparts, respectively. Returned double duct type hot and cold wind circulation system, characterized in that it comprises a small diameter portion on the free end side, and a large diameter portion adjacent to the small diameter portion and larger in diameter than the small diameter portion so as not to fall out. The method of claim 1 ,
The inner tube 32 of the remote side double tube 30 has an annular flange 32a, the diameter of which is narrowed toward the front from the free end at the free end facing the disc 35. Dual duct cold / hot air circulation system.

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