KR101842399B1 - Duct connector - Google Patents

Abstract

According to the present invention, a duct connector with packing may comprise: a first frame coupled to a first duct unit, and having a hollow portion therein; a second frame coupled to a second duct unit, and having a hollow portion therein; and a connector body in which both end portions are coupled to an edge of the first frame and the second frame, internal air passes, and the internal air to leak to the outside is prevented.

Description

DUCT CONNECTOR {DUCT CONNECTOR}

The present disclosure relates to a duct connector.

Generally, a duct, which is a passage through which a fluid such as air flows, is provided in a multi-story building or a large building. The duct is generally formed by bending a metal plate in a rectangular shape in cross section and installing it on a ceiling or an exhaust passage in a building. Such ducts are generally formed long in the form of a pipe, and ducts of a plurality of pipe types are connected to each other in accordance with the structure of the building and the convenience of the user. However, in the process of connecting the duct to the other duct, a gap is formed between the connecting portions, so that the air inside the duct may leak to the outside or condensation may occur in the gap.

Korean Utility Model No. 20-2009-0006133 (June 22, 2009) 'Ventilation duct with airtight means at the connection'

The technique disclosed in this specification provides a duct connector that prevents the air inside the duct from flowing out to the outside through the connection portion between the duct and other ducts.

Exemplary techniques disclosed herein include a first frame coupled to a first duct unit and having a hollow therein; A second frame coupled to the second duct unit and having a hollow therein; And a connector body coupled to both ends of the first frame and the second frame at opposite ends thereof to prevent air from passing through the inside and leakage of air from the inside.

In addition, the connector body may be formed to have a narrow central portion between the opposite end portions, and may have elasticity.

The first frame and the second frame may be formed in a rectangular ring shape, and the first frame and the second frame may include a plurality of frame units corresponding to respective sides of the rectangular ring and separated from each other .

In addition, a cross section of the frame unit may be formed in the same isosceles trapezoidal shape in which the lengths of the pair of opposite sides that are not parallel are the same.

In addition, the first frame and the second frame may include at least one frame unit combination to prevent air from leaking out to the outside between the neighboring frame units.

In addition, the at least one frame unit combination may be interlocked with the distal ends between the opposite end portions of the neighboring frame units, and may have elasticity.

Exemplary techniques disclosed herein include a first duct unit in which a hollow is formed; A second duct unit having a circumferential length different from that of the first duct unit; And a duct connector for preventing internal air from leaking between the first duct unit and the second duct unit, wherein the duct connector includes a first duct unit coupled to the first duct unit, ; A second frame coupled to the second duct unit and having a hollow therein; And a connector body coupled to both ends of the first frame and the second frame at opposite ends thereof to prevent air from passing through the inside and leakage of air from the inside.

The first duct unit may be slidably inserted into the second duct unit.

An exemplary method disclosed herein includes the steps of engaging the other side of a duct connector inside one side of a first duct unit; Inserting one side of the first duct unit into the other side of the second duct unit so as to be slidable; And coupling one side of the duct connector to the other side of the second duct unit, wherein the duct connector comprises: a first frame coupled to the first duct unit and having a hollow therein; A second frame coupled to the second duct unit and having a hollow therein; And a connector body coupled to both ends of the first frame and the second frame at opposite ends thereof to prevent air from passing through the inside and leakage of air from the inside.

The technique disclosed herein provides an economic effect of preventing energy loss in cooling and heating and thereby increasing energy efficiency by blocking air leaking to the connection between the duct and other ducts.

1 is a diagram illustrating an exemplary duct.
2 is a view of an exemplary duct connector.
3 is a side view of an exemplary duct connector.
4 is a perspective view of an exemplary duct connector.
5 is a view showing an exemplary first duct unit and a second duct unit combined.
6 is a view showing a state in which another exemplary first duct unit and a second duct unit are combined.

It is noted that the technical terms used herein are used only to describe specific embodiments and are not intended to limit the scope of the technology disclosed herein. Also, the technical terms used herein should be interpreted as being generally understood by those skilled in the art to which the presently disclosed subject matter belongs, unless the context clearly dictates otherwise in this specification, Should not be construed in a broader sense, or interpreted in an oversimplified sense. It is also to be understood that the technical terms used herein are erroneous technical terms that do not accurately represent the spirit of the technology disclosed herein, it is to be understood that the technical terms used herein may be understood by those of ordinary skill in the art to which this disclosure belongs And it should be understood. Also, the general terms used in the present specification should be interpreted in accordance with the predefined or prior context, and should not be construed as being excessively reduced in meaning.

As used herein, terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the description of the technology, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals denote like or similar elements, and redundant description thereof will be omitted.

Further, in the description of the technology disclosed in this specification, a detailed description of related arts will be omitted if it is determined that the gist of the technology disclosed in this specification may be obscured. It is to be noted that the attached drawings are only for the purpose of easily understanding the concept of the technology disclosed in the present specification, and should not be construed as limiting the spirit of the technology by the attached drawings.

1 is a diagram illustrating an exemplary duct.

The duct 100 is a passage and structure through which air or other fluid flows. The duct 100 may be formed in a rectangular, polygonal, circular, and / or elliptical cross section. A heat insulating material may be formed around the duct 100 to prevent heat from being generated due to the difference between the temperature of the air flowing through the duct 100 and the temperature of the air outside the duct 100. For example, the insulation may include a zinc sheet, vinyl chloride, and / or glass fiber. Exemplary duct 100 may include at least one of a first duct unit 110, 120, a second duct unit 130, and / or a duct connector 140, 150.

The first duct units 110 and 120 may include piping in which a hollow is formed. The first duct units 110 and 120 can provide a passage through which air can flow smoothly without leaking outside. For example, the first duct unit 110 may be disposed in parallel with the other first duct unit 120 so as to face each other. In this way, the air inside can flow through the plurality of first duct units 110 and 120.

The second duct unit 130 can connect the first duct unit 110 to the other first duct unit 120. The second duct unit 130 may be disposed between the first duct unit 110 and the other first duct unit 120 arranged side by side. The second duct unit 130 can guide the first duct unit 110 and the other first duct unit 120 so as to face each other and to be arranged in parallel and to be firmly connected.

The second duct unit 130 may include a pipe in which a hollow is formed. The second duct unit 130 may be a pipe having a shorter length than the first duct units 110 and 120. The length of the circumference of the second duct unit 130 may be different from the length of the circumference of the first duct unit 110, 120. For example, the circumference of the second duct unit 130 may be longer or shorter than the circumference of the first duct unit 110, 120.

One side 113 of the first duct unit 110 is connected to the second duct unit 130 when the circumference of the second duct unit 130 is longer than the circumference of the first duct unit 110, And the other side 135 of the housing 120 can be slidably inserted. The other side 125 of the first duct unit 120 can be slidably inserted into one side 133 of the second duct unit 130.

The other side 135 of the second duct unit 130 is connected to the first duct unit 110 when the length of the second duct unit 130 is shorter than the circumference of the first duct unit 110, To be slidable on one side (113) One side 133 of the second duct unit 130 may be slidably inserted into the other side 125 of the first duct unit 120.

The duct connectors 140 and 150 can prevent the internal air from leaking between the first duct units 110 and 120 and the second duct unit 130. [ The duct connectors 140 and 150 may be disposed inside a portion where the first duct units 110 and 120 and the second duct unit 130 are connected. When the first duct units 110 and 120 are inserted into both sides 133 and 135 of the second duct unit 130 or when both sides 133 and 135 of the second duct unit 130 are inserted into the first duct 135, The duct connectors 140 and 150 are inserted into the first and second duct units 110 and 120 and the second duct unit 130 when they are inserted into one side 113 and the other side 125 of the units 110 and 120, can do. The duct connectors 140 and 150 can prevent air from leaking through the minute gap between the first and second duct units 110 and 120 and the second duct unit 130.

For example, the other side 145 of the duct connector 140 is coupled to one side 113 of the first duct unit 110, and one side 143 of the duct connector 140 is connected to the second duct unit 110 130 on the other side 135 thereof. In this case, the position where the duct connector 140 and the first duct unit 110 are coupled is a predetermined distance from the one side 113 of the first duct unit 110 to the other side of the first duct unit 110 And may be the interior of the first duct unit 110. The position where the duct connector 140 and the second duct unit 130 are coupled is determined in advance from the other side 135 of the second duct unit 130 toward the one side 133 of the second duct unit 130 And may be the inside of the second duct unit 130. As shown in FIG.

The other side 155 of the duct connector 150 is coupled to one side 133 of the second duct unit 130 and one side 153 of the duct connector 150 is connected to the first duct unit 120. [ To the other side (125) of the housing. The position where the duct connector 150 and the second duct unit 130 are coupled is shifted from one side 133 of the second duct unit 130 toward the other side 135 of the second duct unit 130 May be a predetermined distance apart, and may be the interior of the second duct unit 130. The position where the duct connector 150 and the first duct unit 120 are coupled is a predetermined distance from the other side 125 of the first duct unit 120 toward one side of the first duct unit 120 And may be the interior of the first duct unit 120.

A seal (not shown) such as silicone and / or rubber may be used to block the air in the joint from leaking to the outside or the air from entering the inside.

A coupling hole may be formed in the coupling portion of the first duct unit 110, 120, the second duct unit 130, and / or the duct connector 150. For example, the first duct unit 110, 120, the second duct unit 130, and / or the duct connector 150 may be connected to each other using a coupling member (e.g., a screw or bolt) Can be combined. For example, a first coupling hole may be formed in the first duct unit 110, 120, and a third coupling hole may be formed in the second duct unit 130, And a second coupling member.

Hereinafter, a construction method of the duct 100 will be briefly described.

When the length of the circumference of the second duct unit 130 is longer than the circumference of the first duct unit 110 and 120, the method of construction of the exemplary duct 100 is a method 113) of the duct connector (140); Inserting one side (113) of the first duct unit (110) so as to be slidable into the other side (135) of the second duct unit (130); And coupling one side (143) of the duct connector (140) to the other side (135) of the second duct unit (130).

When the length of the circumference of the second duct unit 130 is shorter than the circumference of the first duct unit 110 and 120, the method of constructing the exemplary duct 100 is the same as that of the first duct unit 110 (145) of the duct connector (140) to the inside of the side (113); Inserting the other side (135) of the second duct unit (130) so as to be slidable into one side (113) of the first duct unit (110); And coupling one side (143) of the duct connector (140) to the other side (135) of the second duct unit (130).

2 is a view of an exemplary duct connector.

The duct connector 200 can combine the first duct unit and the second duct unit and prevent the leakage of the internal air between the first duct unit and the second duct unit. Exemplary duct connector 200 includes at least one of a first packing 210, a first frame 220, a connector body 230, a second frame 240, and / or a second packing 250 .

The first packing 210 is disposed between the first frame 220 and the first duct unit and can prevent air from leaking between the first frame 220 and the first duct unit. The first packing 210 is disposed outside the rim of the first frame 220 and may cover the outer rim of the first frame 220. The first packing 210 can prevent air from leaking to the outside or preventing the outside air from entering into the inside at the joint portion of the duct connector 200 and the first duct unit.

The first packing 210 may have a ring shape in which a hollow is formed therein. The first packing 210 may have the same shape as the first frame 220. For example, if the first frame 220 has a rectangular ring shape, the first packing 210 may also have a rectangular ring shape. The material of the first packing 210 may include silicon and / or rubber and the like.

The first frame 220 may be coupled with the first duct unit, and a hollow may be formed therein. When the first frame 220 is tightly coupled with the first duct unit 210 through the first packing 210, air can be prevented from leaking between the first duct unit 220 and the first frame 220. Air can flow through the hollow formed inside the first frame 220.

In addition, the first frame 220 can form the edge of the other side of the duct connector. The first frame 220 may have a rectangular ring shape, and a coupling hole (for example, a second coupling hole) for coupling with the first duct unit may be formed. Further, the first frame 220 may be coupled to the other side of the connector body 230. The first frame 220 may have a hollow inside the connector body 230 and maintain the shape of the other end of the connector body 230 so that air can pass through the connector body 230.

The connector body 230 has the edges of the first frame and the second frame coupled to both ends thereof, and allows the air inside the connector body 230 to be prevented from leaking out. To this end, the connector body 230 may include a hollow therein. The other end of the connector body 230 may be coupled to the rim of the first frame 220 and the other end of the connector body 230 may be coupled to the rim of the second frame 240. The connector body 230 may be formed so that the central portion between both end portions narrows narrowly. The air inside the duct can flow through the coaxial hollow formed inside the first frame 220, the connector body 230, and the second frame 240.

The connector body 230 may be disposed inside the connecting portion of the first duct unit and the second duct unit and may provide a passage through which air can pass into the first duct unit and the second duct unit . The other side of the connector body 230 is tightly coupled to the first duct unit through the first packing 210 and the first frame 220 and the other side of the second packing 250 and the second frame 240 So that the connector body 230 can prevent air from leaking from the connection portion between the first duct unit and the second duct unit.

The connector body 230 may be a material having elasticity. Accordingly, when the first duct unit and the second duct unit are moved in the longitudinal direction or contracted or expanded in the direction perpendicular to the longitudinal direction, the connector main body 230 is moved along the first duct unit and / or the second duct unit Lt; / RTI > Accordingly, the connector body 230 can prevent air from leaking at the connection portion between the first duct unit and the second duct unit.

The second frame 240 may be coupled to the second duct unit, and a hollow may be formed therein. When the second frame 240 is tightly coupled to the second duct unit through the second packing 250, air can be prevented from leaking between the second duct unit and the second frame 240. Air can flow through the hollow formed inside the second frame 240.

Further, the second frame 240 can form a rim of one side of the duct connector. The second frame 240 may have a rectangular ring shape, and a coupling hole (for example, a fourth coupling hole) for coupling with the second duct unit may be formed. In addition, the second frame 240 can be coupled to one side of the connector body 230. [ The second frame 240 may have a hollow inside the connector body 230 and maintain the shape of a cross section of one side of the connector body 230 so that air can pass through the connector body 230.

The second packing 250 is disposed between the second frame 240 and the second duct unit and can prevent air from leaking into the space between the second frame 240 and the second duct unit. The second packing 250 is disposed outside the frame of the second frame 240 and may cover the outer frame of the second frame 240. The second packing 250 can prevent air from leaking to the outside or preventing the outside air from entering into the inside at the joint portion of the duct connector 200 and the second duct unit.

The second packing 250 may have a ring shape in which a hollow is formed therein. The second packing 250 may have the same shape as the second frame 240. For example, if the second frame 240 has a rectangular ring shape, the second packing 250 may also have a rectangular ring shape. The material of the second packing 250 may include silicon and / or rubber and the like.

3 is a side view of an exemplary duct connector.

Exemplary duct connector 300 includes at least one of a first frame 311, a first packing 313, a connector body 330, a second frame 321, and / or a second packing 323 . The details of the duct connector 300 may include all the contents of the above-described duct connector.

The other side 310 of the duct connector 300 can engage with the first duct unit and can include the first frame 311 and the first packing 313. At least one coupling hole 315 (for example, a second coupling hole) for coupling with the first duct unit may be formed in the first frame 311 and the first packing 313.

One side 320 of the duct connector 300 may engage with the second duct unit and may include a second frame 321 and a second packing 323. At least one coupling hole 325 (for example, a fourth coupling hole) for coupling with the second duct unit may be formed in the second frame 321 and the second packing 323.

The length of the circumference of the other side 310 of the duct connector 300 may be shorter than the length of the circumference of the one side 320 of the duct connector 300. The length of the circumference of the other side 310 of the duct connector 300 may be longer than the length of the circumference of the side 320 of the duct connector 300. [

The interior of the duct connector 300 includes a hollow and the air inside the duct is connected to the other side 310 of the duct connector 300, the connector body 330, and / or one side 320 of the duct connector 300. [ Or in the opposite direction.

 The first packing 313 is disposed outside the rim of the first frame 311 and can cover the outer rim of the first frame 311. The second packing 323 is disposed outside the rim of the second frame 321 and can cover the outer rim of the second frame 321.

The other side of the connector body 330 may be coupled to the inner surface of the first frame 311 near the connector body 330 with respect to the coupling hole 315 (e.g., the second coupling hole). One side of the connector body 330 may be coupled to the inner surface of the second frame 321 near the connector body 330 with respect to the coupling hole 325 (e.g., the fourth coupling hole).

The other side 310 of the connector body 330 may be coupled to one side of the first frame 310 facing the second frame 320. [ One side 320 of the connector body 330 may be coupled to one side of the second frame 320 facing the first frame 310. In this case, the position where the connector body 330 and the first frame 311 or the second frame 311 are engaged is a position close to the hollow inside the first frame 311 or the second frame 311 Lt; / RTI >

4 is a perspective view of an exemplary duct connector.

Exemplary duct connector 400 may include at least one of a first frame 410, a second frame 420, and / or a connector body 330. For convenience, the first packing (not shown) and the second packing (not shown) are omitted, and the details of the duct connector 400 may include all the contents of the duct connector described above.

The exemplary first frame 410 may be coupled to the first duct unit and may have a hollow therein. The first frame 410 may be formed in a rectangular ring shape. The first frame 410 may include a plurality of frame units 411, 412, 413, and 414 that correspond to the respective sides of the rectangular ring and are separated from each other. The cross sections of the frame units 411, 412, 413, and 414 may be formed in the same isosceles trapezoidal shape in which the lengths of the pair of opposite sides that are not parallel are equal.

In addition, the first frame 410 may include at least one frame unit combination 416, 417, 418, 419 to prevent air from leaking out to the outside between neighboring frame units. At least one of the frame unit assemblies 416, 417, 418, 419 may engage with the opposite ends of the adjacent frame units. Thus, at least one frame unit combination 416, 417, 418, 419 may include at least one frame unit 411, 412, 414, 414 so that at least one frame unit 411, 412, 413, 414 can be formed in the shape of a rectangular ring. , 413, 414). The first frame 410 may be formed of a circular ring or a polygonal ring and at least one of the frame unit assemblies 416, 417, 418, 419 may include at least one frame unit 411, 412, 413, 414 may be combined with at least one frame unit 411, 412, 413, 414 so as to be formed in the shape of a round ring or a polygonal ring.

At least one of the frame unit assemblies 416, 417, 418, 419 may have elasticity. Thus, at least one frame unit 411, 412, 413, 414 can move in each direction while being coupled with at least one frame unit combination 416, 417, 418, 419 while forming a rectangular ring. At least one of the frame unit assemblies 416, 417, 418, 419 may be contracted or stretched depending on the movement of the at least one frame unit 411, 412, 413, 414.

Further, the second frame 420 may be coupled with the second duct unit, and a hollow may be formed therein. The second frame 420 may also include at least one frame unit and / or at least one frame unit combination and may include all of the features of the first frame 410.

5 is a view showing an exemplary first duct unit and a second duct unit combined.

Exemplary duct 500 may include at least one of first duct unit 510, 520, second duct unit 530, and / or duct connector 540, 550. The first duct units 510 and 520 may be disposed facing each other. In addition, the first duct units 510 and 520 and the second duct unit 530 may have hollows therein and allow air to pass therethrough. The perimeter of the first duct unit 510, 520 may be different from the perimeter of the second duct unit 530. The perimeter of the first duct unit 510, 520 may be smaller than the perimeter of the second duct unit 530. One side of the first duct unit 510 is slidably inserted into the other side of the second duct unit 530 and the other side of the first duct unit 520 is connected to the second duct unit 530. [ So as to be slidable in the inside of one side of the housing.

The duct connectors 540 and 550 can prevent leakage of the internal air between the first duct units 510 and 520 and the second duct unit 530. [ The duct connectors 540 and 550 may be disposed inside a portion where the first duct units 510 and 520 and the second duct unit 530 are overlapped and connected to each other. For example, the other side of the duct connector 540 may be coupled to the inside of the first duct unit 510, and may include a first packing 541 and a first frame 542. The other side of the duct connector 540 and the first duct unit 510 can be coupled using a coupling member 5421 (for example, a first coupling member) A packing 5423 of silicone and / or rubber material may be disposed between the duct units 510. [ One side of the duct connector 540 may be coupled to the inside of the second duct unit 530 and may include a second packing 544 and a second frame 543. One side of the duct connector 540 and the second duct unit 530 can be coupled using a coupling member 5431 and the coupling member 5431 (e.g., the second coupling member) A packing 5433 of silicone and / or rubber material may be disposed between the duct units 530.

When the first duct units 510 and 520 and the second duct unit 530 are overlapped and connected by the duct connectors 540 and 550, the air inside the duct is connected to the connector main body 545 of the duct connectors 540 and 550, As shown in FIG.

The positions where the duct connectors 540 and 550 and the first duct units 510 and 520 or the second duct units 530 are coupled can be predetermined. For example, the connecting members 5421, 5431, the first frame 542, and / or the second frame 543 may be configured such that the first duct unit 510, 520 or the second duct unit 530 is excessively slid So that it can be prevented from moving.

6 is a view showing a state in which another exemplary first duct unit and a second duct unit are combined.

Exemplary duct 600 may include at least one of first duct unit 610, 620, second duct unit 630, and / or duct connector 640, 650. The first duct units 610 and 620 can be disposed facing each other. Further, the peripheries of the first duct units 610 and 620 may be larger than the peripheries of the second duct units 630. For example, the other side of the second duct unit 630 is slidably inserted into one side of the first duct unit 610, and one side of the second duct unit 630 is inserted into the first duct unit 620, As shown in Fig.

In this case, the peripheries of both sides of the duct connector can be determined based on the peripheries of the first duct units 610, 620 and / or the second duct unit 630.

In the foregoing, preferred embodiments of the present invention have been described with reference to the accompanying drawings. Herein, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and should be construed as meaning and concept consistent with the technical idea of the present technology.

The scope of the present technology is not limited to the embodiments disclosed in the present specification, and the present invention may be modified, changed, or improved in various forms within the scope of the present invention.

100: duct 110, 120: first duct unit
130: second duct unit 140, 150: duct connector

Claims (9)

A first frame inserted into the first duct unit and coupled to the first duct unit and having a hollow therein;
A second frame inserted into the second duct unit and coupled to the second duct unit and having a hollow therein; And
And a connector body coupled to both ends of the first frame and the second frame so as to allow air to pass therethrough and prevent air from leaking to the outside,
Wherein the first frame and the second frame each include four frame unit assemblies arranged between four frame units and neighboring frame units and having elasticity,
At least one second coupling hole corresponding to at least one first coupling hole of the first duct unit is formed in the first frame so that the first frame is inserted into the first duct unit,
At least one fourth coupling hole corresponding to at least one third coupling hole of the second duct unit is formed in the second frame so that the second frame is inserted into the second duct unit,
Wherein the connector body is formed such that a central portion between the opposite end portions is constricted narrowly and is resilient so that when the first duct unit or the second duct unit contracts or expands in the longitudinal direction of the connector body, A duct connector which is contracted or elongated in a direction perpendicular to the longitudinal direction,
The duct connector
At least one first coupling hole and at least one second coupling hole penetrating through the at least one second coupling hole such that the first frame is inserted and fixed in the first duct unit, A first engaging member of the first engaging member; And
At least one third coupling hole and at least one fourth coupling hole for coupling the second frame and the second duct unit so that the second frame is inserted and fixed in the second duct unit, And a second coupling member of the second coupling member. delete The method according to claim 1,
Wherein each of the first frame and the second frame is formed in a shape of a rectangular ring connected to each of the four frame units. The method of claim 3,
Wherein a cross section of the frame unit is formed in a shape of an equilateral truncated trapezoid with a pair of opposite sides which are not parallel. delete 5. The method of claim 4,
Wherein said at least one frame unit combination engages with said distal ends between opposite ends of said neighboring frame units. A first duct unit in which a hollow is formed;
A second duct unit having a circumferential length different from that of the first duct unit; And
And a duct connector for preventing internal air from leaking between the first duct unit and the second duct unit,
The duct connector includes:
A first frame inserted into the first duct unit and coupled to the first duct unit and having a hollow therein;
A second frame inserted into the second duct unit and coupled to the second duct unit and having a hollow therein; And
And a connector body coupled to both ends of the first frame and the second frame so as to allow air to pass therethrough and prevent air from leaking to the outside,
Wherein the first frame and the second frame each include four frame unit assemblies arranged between four frame units and neighboring frame units and having elasticity,
At least one second coupling hole corresponding to at least one first coupling hole of the first duct unit is formed in the first frame so that the first frame is inserted into the first duct unit,
At least one fourth coupling hole corresponding to at least one third coupling hole of the second duct unit is formed in the second frame so that the second frame is inserted into the second duct unit,
Wherein the connector body is formed such that a central portion between the opposite end portions is constricted narrowly and is resilient so that when the first duct unit or the second duct unit contracts or expands in the longitudinal direction of the connector body, As a duct which is contracted or elongated in the direction
The duct connector
At least one first coupling hole and at least one second coupling hole penetrating through the at least one second coupling hole such that the first frame is inserted and fixed in the first duct unit, A first engaging member of the first engaging member; And
At least one third coupling hole and at least one fourth coupling hole for coupling the second frame and the second duct unit so that the second frame is inserted and fixed in the second duct unit, And a second coupling member of the second coupling member. 8. The method of claim 7,
Wherein the first duct unit is slidably inserted into the second duct unit. Coupling the other side of the duct connector to the inside of one side of the first duct unit;
Inserting one side of the first duct unit into the other side of the second duct unit so as to be slidable; And
And coupling one side of the duct connector to the other side of the second duct unit,
The duct connector includes:
A first frame inserted into the first duct unit to be coupled to the first duct unit and having a hollow therein, and the first frame is inserted into the first duct unit, At least one second coupling hole corresponding to at least one first coupling hole of the one duct unit is formed;
A second frame inserted into the second duct unit to be coupled to the second duct unit and having a hollow therein, and the second frame is inserted into the second duct unit, At least one fourth coupling hole corresponding to at least one third coupling hole of the two duct units is formed;
At least one first coupling hole and at least one second coupling hole penetrating through the at least one second coupling hole such that the first frame is inserted and fixed in the first duct unit, A first engaging member of the first engaging member;
At least one third coupling hole and at least one fourth coupling hole for coupling the second frame and the second duct unit so that the second frame is inserted and fixed in the second duct unit, A second engaging member of; And
And a connector body coupled to both ends of the first frame and the second frame so as to allow air to pass therethrough and prevent air from leaking to the outside,
Wherein the first frame and the second frame each include four frame unit assemblies arranged between four frame units and neighboring frame units and having elasticity,
Wherein the connector body is formed such that a central portion between the opposite end portions is constricted narrowly and is resilient so that when the first duct unit or the second duct unit contracts or expands in the longitudinal direction of the connector body, Lt; RTI ID = 0.0 > and / or < / RTI >

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