KR101469327B1 - Supply Air Duct For Uniformly Releasing - Google Patents

Abstract

The present invention relates to an air supply duct used in an air conditioning system, and more particularly, to an air supply duct which is capable of uniformly discharging warm air or cool air supplied from an air conditioner to a room as uniformly as possible, To dual-supply ducts.
The dual air supply duct for uniform discharge according to the present invention includes: an outer duct having a plurality of first discharge holes arranged in a row at regular intervals along a longitudinal direction; An inner duct inserted into the outer duct while maintaining a predetermined distance from the inner surface of the outer duct and having a plurality of second discharge holes arranged in a row at regular intervals along the longitudinal direction; And a pair of sockets closing and joining a space formed between an inner surface of the outer duct and an outer surface of the inner duct at one end and the other end, respectively.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double-

The present invention relates to an air supply duct used in an air conditioning system, and more particularly, to an air supply duct which is capable of uniformly discharging warm air or cool air supplied from an air conditioner to a room as uniformly as possible, To dual-supply ducts.

In general, a duct is a conduit that acts as a pipe through which air or other fluid is transferred. Generally, it is made of zinc steel plate. In addition, it is made of various materials such as plastic, aluminum, stainless steel plate, etc., and may be provided with a heat insulating material for keeping warm or cold.

Such ducts can be used for air conditioning systems such as general air-conditioning and heating systems, general ventilation equipment, and low-temperature working facilities in the industrial field, by supplying air with temperature and humidity control to the room to appropriately maintain the indoor environment, Ventilation ducts, ventilation ducts, exhaust ducts and the like depending on their roles.

In this case, the air supply duct is a duct which directly receives the conditioned air, such as temperature and humidity, from the air conditioner, and discharges the conditioned air directly to the indoor space.

Background Art [0002] Conventional air supply ducts are formed to be long in a ceiling or the like, and are configured to discharge air to a room through a plurality of discharge openings formed at regular intervals in a longitudinal direction on an upper surface of a lower surface.

In such a conventional air supply duct, the length of the conventional air supply duct is considerably long, and as the distance from the air inlet increases, the amount of air discharged from the air outlet decreases. As a result, the efficiency of the air conditioning system deteriorates. There is a problem that the environment of the room is not uniform due to a change in the position of the discharge port.

In particular, when the air conditioning system is constructed using a conventional air supply duct in the case of a storage room for storing or aging agricultural products such as fruit, the environment in which fruit is stored or aged varies depending on the position, It was difficult to keep it.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air supply duct for supplying air heated or cooled to a predetermined temperature from an air conditioner and discharging the air to a room, And to provide a double air supply duct for uniformly discharging the air with a uniform amount of air while maintaining a constant amount of air regardless of the distance to each discharge port formed in a line.

The present invention relates to a double air supply duct for uniformly discharging air, comprising: an outer duct in which a plurality of first discharge holes are formed in a row at regular intervals along a longitudinal direction; An inner duct inserted into the outer duct while maintaining a predetermined distance from the inner surface of the outer duct and having a plurality of second discharge holes arranged in a row at regular intervals along the longitudinal direction; And a pair of sockets closing and joining a space formed between an inner surface of the outer duct and an outer surface of the inner duct at one end and the other end, respectively.

At this time, the first discharge hole and the second discharge hole are selectively formed in any one of upper and lower portions of the outer duct and the inner duct, respectively. The first discharge hole and the second discharge hole are symmetrical .

The dual supply air duct for uniform discharge includes a base plate having a width that can be inserted into the inner duct and a long length in a longitudinal direction of the base plate and a bottom plate having the same width as the width of the base plate, The guide plate may further include an induction guide formed of a plurality of plate-shaped guide blades formed at regular intervals and inclined at an angle to the other side of the base plate, the guide plate being raised in height from one side to the other side. The guide is inserted into the inner duct so that one side of the base plate is positioned on the inlet side of the inner duct and the lower surface of the base plate is mounted on the upper or lower inner surface of the inner duct where the second discharge hole is not formed .

In addition, the guide vane may be formed at a position corresponding to a plurality of second discharge holes formed in the inner duct when the guide is installed in the inner duct, so that the supplied air is discharged well.

The induction guide has a width that can be inserted into the inner duct and is formed to be long in the longitudinal direction. The induction guide may have a shape in which the upper surface has an inclined surface so as to be thicker from one side to the other side. In this case, The guide is inserted into the inner duct so that one side of the guide is located on the inlet side of the inner duct and the lower surface of the guide is mounted on the upper or lower inner surface of the inner duct on which the second outlet hole is not formed .

It is preferable that the inner duct and the outer duct have a circular cross section. At this time, the socket can be screwed to any one of the outer duct and the inner duct, thereby increasing the sealing force and the coupling force. have.

The present invention relates to an air supply duct for supplying air heated or cooled to a predetermined temperature from an air conditioner and discharging the air to a room, wherein the air supply duct has a dual structure of an outer duct and an inner duct inserted at a certain distance from the outer duct, A plurality of discharge openings are formed in the upper portion of the duct and the lower portion of the inner duct or in the lower portion of the outer duct and the upper portion of the inner duct so that the warm air or cool air adjusted in the air conditioner is sufficiently supplied to the inner duct, And air of uniform quality is discharged to the room from the outer duct so that a maximum amount of air can be supplied to the room irrespective of the positions of the plurality of discharge ports formed in the outer duct.

1 is an exploded perspective view of a dual supply duct for even discharge according to one embodiment of the present invention.
2 is a side cross-sectional view of a dual supply duct for even discharge according to an embodiment of the present invention.
3 is a front cross-sectional view of a dual supply duct for even discharge according to one embodiment of the present invention.
4 is a front cross-sectional view of a dual supply duct for even discharge according to another embodiment of the present invention.

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

FIG. 1 is an exploded perspective view of a dual supply duct for even discharge according to an embodiment of the present invention, FIG. 2 is a side sectional view of a double supply duct for even discharge according to an embodiment of the present invention, Sectional front view of a dual supply duct for even discharge according to an embodiment of the invention.

Referring to FIGS. 1, 2 and 3, a dual supply duct 100 for uniform discharge according to an embodiment of the present invention includes an outer duct 110 having a predetermined length, A guide 130 inserted into the inner duct 120 and a socket 130 coupled to one end and the other end of the outer duct 110 and the inner duct 120. The inner duct 120 is inserted into the inner duct 120, ).

At this time, a first discharge hole 111 having a predetermined length in a longitudinal direction is continuously formed in the lower part of the outer duct 110, and a second discharge hole 111 having a predetermined length in the longitudinal direction is also formed in the upper part of the inner duct 120. Holes 121 are continuously formed. The size and shape of each of the first discharge hole 111 and the second discharge hole 121 may be determined according to the capacity of the double air supply duct 100 and the place of use.

The first discharge hole 111 and the second discharge hole 121 may be formed in the same direction in the upper or lower portion of the outer duct 110 and the inner duct 120, . That is, if the first discharge hole 111 is formed in the lower portion of the outer duct 110 as in the present embodiment, the second discharge hole 121 is formed on the upper portion of the inner duct 120 The second discharge hole 121 may be formed in the lower portion of the inner duct 120 if the first discharge hole 111 is formed in the upper portion of the outer duct 110. [

The first discharge hole 111 and the second discharge hole 121 are formed so as to be opposite to each other so that air supplied to the inner duct 120 flows through the first discharge hole 111 and the second discharge hole 121, A sufficient amount of air is firstly supplied to the inner duct 120 without being immediately discharged to the outside through the hole 121 so that the air inside the inner duct 120 becomes as uniform as possible, The air is supplied to the space between the inner duct 120 and the outer duct 110 through the hole 121 and then discharged to the outside through the first discharge hole 111 again.

Considering the positions of the first discharge hole 111 and the second discharge hole 121 depending on whether the air supplied to the double air supply duct 100 is warm or cool air, The second outlet hole 121 of the inner duct 120 is preferably formed in the lower portion in order to sufficiently supply the air supplied to the inner duct 120 from one side to the other side. The first discharge hole 111 is formed on the upper portion of the outer duct 110. When cold air is supplied, since the cold air tends to sink downward, the second discharge hole 121 of the inner duct 120 is formed on the upper part so that air is sufficiently supplied without escaping. In this case, 1 discharge holes 111 are formed in the lower portion of the outer duct 110. [

Meanwhile, in the present embodiment, the outer duct 110 and the inner duct 120 are formed of a circular pipe having a circular cross section, and each of the outer duct 110 and the inner duct 120 may have a rectangular shape or an elliptical shape And may be in various forms.

Although it is desirable that the outer duct 110 and the inner duct 120 have the same cross-sectional shape, the outer duct 120 and the inner duct 120 may be formed to have different cross-sectional shapes, if necessary. For example, the outer duct 110 may be a rectangular duct, and the inner duct 120 may be a circular or elliptical duct.

More importantly, in order to secure a sufficient space between the outer surface of the inner duct 120 and the inner surface of the outer duct 110 when the inner duct 120 is inserted into the outer duct 110, The diameter and height of the inner duct 120 and the outer duct 110 are determined.

In order that the outer surface of the inner duct 120 and the inner surface of the outer duct 110 may be spaced apart from each other and the inner duct 120 may be fixed without moving inside the outer duct 110, The socket 130 is attached to the left and right ends of the outer duct 120 and the outer duct 110, respectively.

The socket 130 is formed at the central portion with a through hole 131 having the same shape as the end surface of the inner duct 120 and inserted between the outer surface of the inner duct 120 and the inner surface of the outer duct 110. And protrusions 132 are formed around the through holes 131 so as to maintain an interval.

The socket 130 may be configured to seal the space between the inner duct 120 and the outer duct 110 to prevent the supplied air from escaping. For this purpose, a packing may be formed of rubber or silicone. Do.

When the inner duct 120 and the outer duct 110 are formed in a circular shape as in the present embodiment, any one of the inner duct 120 and the outer duct 110 and the socket 130 ) Can be screwed together is also preferable in terms of sealing force and fixing force. That is, the outer surface of the protrusion 132 of the socket 130 and the inner surface of one side and the other side of the outer duct 110 are threaded so that the socket 130 and the outer duct 110 can be screwed together A thread is formed on the inner surface of the protrusion 132 of the socket 130 and the outer surface of one side and the other side of the inner duct 120 so that the socket 130 and the inner duct 120 are screwed together .

In addition, when the socket 130 is used by connecting a plurality of the double air supply ducts 100 having one set and when one side of the double air supply duct 100 is connected to the air conditioning equipment, You can also configure it to act.

On the other hand, one side of the double air supply duct 100 is opened to provide a suction port for supplying the air adjusted by the air conditioner, but the other side should be closed so that the sucked air does not escape. Of course, when a plurality of the double air supply ducts 100 are connected, the other side should be opened. In this case, only the other side of the double air supply duct 100 to be finally connected may be closed.

The other end of the inner duct 120 may be closed without forming the through hole 131 at the center of the socket 130 coupled to the other side to close the other side of the double air supply duct 100, (130) having a through hole (131) formed at its center portion is used as it is, but the other end of the inner duct (120) itself is closed.

The double air supply duct 100 according to the present invention may be formed of only the outer duct 110, the inner duct 120 and the socket 130, but the flow of the air supplied to the inner duct 120 is not limited thereto. It is preferable to insert the induction guide 140 into the inner duct 120 for efficient induction.

The induction guide 140 includes a base plate 141 formed to be long in the longitudinal direction and a plurality of guide vanes 142 formed on the top surface of the base plate 141.

At this time, the base plate 141 has a plate shape having a predetermined thickness, and the shape of the base plate 141 may be somewhat changed according to the sectional shape of the inner duct 120. That is, in the case where the inner duct 120 has a circular tube shape as in the embodiment of the present invention, the upper surface of the base plate 141 is flat, and the lower surface of the base plate 141 is in contact with the inner So as to be in close contact with the inner surface of the duct 120.

The induction guide 140 is mounted on the opposite side of the inner duct 120 on which the second discharge hole 121 is formed. That is, if the second discharge hole 121 is formed on the upper surface of the inner duct 120, the induction guide 140 is mounted on the inner bottom surface of the inner duct 120, and the second discharge hole 121, The induction guide 140 is mounted on the inner upper surface of the inner duct 120. In this case, When the induction guide 140 is mounted on the inner upper surface of the inner duct 120, it is tightly fastened using a fastening member such as an adhesive or a screw so as not to be dropped by gravity. It is preferable to fix it by using a fastening member such as an adhesive or a screw so as not to move by an external force or vibration.

A plurality of guide vanes 142 are formed on the upper surface of the base plate 141 with a predetermined gap therebetween. The guide vanes 142 extend from one side of the base plate 141 located on the inlet side of the inner duct 120 to the other side The height is gradually increased. The guide vane 142 is inclined at a predetermined angle from one side of the base plate 141 rather than vertically upward from the upper surface of the base plate 141, The guide vanes 142 may be positioned corresponding to the plurality of second discharge holes 121 formed in the inner duct 120 when the inner duct 120 is mounted on the inner duct 120. By this configuration, it is possible to prevent the wind pressure and the air volume of the air from being reduced as much as possible even if they are away from the inlet port of the inner duct 120 to which air is supplied, so that the amount of air discharged through each of the second discharge holes 121 can be kept constant have.

On the other hand, a double air supply duct 100 using another form of the guide guide 140 is shown in Fig.

4, another embodiment of the induction guide 140 includes a guide plate 140 having guide plates 140 and guide plates 142, which are formed of the base plate 141 and the guide blade 142, ).

However, the upper surface of the guide member 140 has a slope that increases from one side to the other side so as to have a role similar to that of the guide vane 142. That is, the induction guide 140 has a thicker thickness from one side to the other side, and one side of the induction guide 140 is positioned at the inlet side of the inner duct 120, The air can be discharged through the second discharge hole 121 of the inner duct 120 with sufficient wind pressure and air volume.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

100 - Dual supply duct
110 - Outer duct 111 - First discharge hole
120 - Inner duct 121 - Second discharge hole
130 - Socket 131 - Through hole
132 -
140 - Induction guide 141 - Base plate
142 - Induction wing

Claims (7)

An outer duct in which a plurality of first discharge holes are formed in a row at regular intervals along the longitudinal direction;
An inner duct inserted into the outer duct while maintaining a predetermined distance from the inner surface of the outer duct and having a plurality of second discharge holes arranged in a row at regular intervals along the longitudinal direction;
A pair of sockets closing and joining a space formed between the inner surface of the outer duct and the outer surface of the inner duct at one end and the other end, respectively; And
A base plate having a width that can be inserted into the inner duct and formed to be long in the longitudinal direction; a base plate having a width equal to the width of the base plate and formed at regular intervals on an upper surface of the base plate, And an induction guide formed of a plurality of plate-shaped guide blades formed to be inclined at a predetermined angle toward the other side while being heightened toward the other side,
The guide is inserted into the inner duct so that one side of the base plate is positioned on the inlet side of the inner duct and the lower surface of the base plate is mounted on the upper or lower inner surface of the inner duct where the second discharge hole is not formed The dual supply duct for equal discharge. The method according to claim 1,
The first discharging hole and the second discharging hole may be selectively formed in either the upper or lower portion of the outer duct and the inner duct, respectively, and the first discharging hole and the second discharging hole may be symmetrically formed so as to be opposite to each other A dual supply duct for equal discharge. delete The method according to claim 1,
Wherein the guide vane is formed at a position corresponding to a plurality of second discharge holes formed in the inner duct when the guide is installed in the inner duct. An outer duct in which a plurality of first discharge holes are formed in a row at regular intervals along the longitudinal direction;
An inner duct inserted into the outer duct while maintaining a predetermined distance from the inner surface of the outer duct and having a plurality of second discharge holes arranged in a row at regular intervals along the longitudinal direction;
A pair of sockets closing and joining a space formed between the inner surface of the outer duct and the outer surface of the inner duct at one end and the other end, respectively; And
And an induction guide having a width that can be inserted into the inner duct and elongated in the longitudinal direction and having an upper surface formed with an inclined surface so as to be thicker from one side to the other side,
The guide is inserted into the inner duct so that one side of the guide is positioned on the inlet side of the inner duct and the lower surface of the guide is mounted on the upper or lower inner surface of the inner duct on which the second outlet hole is not formed A dual supply duct for equal discharge. The method according to any one of claims 1, 2, 4, and 5,
Wherein the inner duct and the outer duct are formed by a tube having a circular cross section. The method according to claim 6,
Wherein the socket is threadedly engaged with either the outer duct or the inner duct.

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