KR102686825B1 - Joint of Length Flexible and Transfer Apparatus of Air using the same - Google Patents

Abstract

The present invention relates to a length variable joint that can improve ventilation efficiency by changing the position of ducts installed in research facilities, houses, etc., and to an air transfer device consisting of the same. Specifically, in the length variable joint, the inside is penetrated and the fluid flows, a first flow part that is open on one side, the inside of which is penetrated, and a second flow part that is open on the other side, and an insertion area where the other side of the second flow part is partially inserted into the first flow part, and It is coupled to one side of the first flow part and has an airtight part in contact with the outside of the second flow part.

Description

Length variable joint and air transfer device made thereof {Joint of Length Flexible and Transfer Apparatus of Air using the same}

The present invention relates to a length variable joint that can improve ventilation efficiency by changing the position of a duct installed in research facilities, houses, etc., and an air transport device comprised thereof.

Patent document 001 shows various pipes and ducts installed on the ceiling of an interior, hallway, or living room. This shows the hanger part of the refrigerant pipe. By using a small-sized hanger, space loss due to hanger installation is minimized. When applying a hybrid constant heat exchange ventilation system (considering cooling, heating and ventilation simultaneously), the air conditioner refrigerant and drain piping, ventilation unit supply and exhaust ducts, and sprinkler piping must be efficiently arranged. At this time, a distributor, etc. must be installed in the ventilation unit supply duct. A technology that can be applied to reduce pressure loss is presented.

Patented invention 002 consists of an inlet duct that guides air flowing in from the outdoors into the room and an outlet duct that guides the air flowing in from the room to the outdoors in an integrated double structure, and the inflow duct and the inlet duct are located in the inner center of the casing. a body portion provided with a space portion through which discharge ducts communicate with each other; The space portion includes a heat exchanger of a predetermined shape made of mesh screens of laminated porous bodies so that opposingly flowing air exchanges heat with each other through rotation or reciprocating motion; and a control unit for controlling the rotation or reciprocating movement of the heat exchanger.

Patented invention 003 consists of a sleeve body forming a passage through the inside, a coupling protrusion on the inside to be inserted and coupled to both sides of the body, and a closing cap forming a detachable opening inside; On the side of the sleeve main body, there is a coupling step protrusion inserted into the passage of the sleeve main body on the inner outer periphery, a coupling step groove having the same size as the insertion hole of the sleeve main body on the outer outer periphery, and an upper and lower part connected and supported inside. However, a technology is proposed to provide continuous combination of at least one length adjustment member of a certain width size to form a separable reinforcement support.

Patented invention 004 includes a socket buried in the upper part of a concrete wall; It includes a duct mounted on the socket to guide the movement of air, wherein the socket includes an embedded member penetrated inside and buried in an upper part of the concrete wall; an accommodating space that extends to form outwardly engaging steps at both ends of the buried member to accommodate the duct; A technology is proposed that includes a fixing piece that extends in the longitudinal direction at the top of the accommodation space and is seated on the upper surface of the form when forming a concrete wall.

Jeongjae Lee. Research on optimal design of residential ventilation duct system (December 2008) KR 10-2006-0019889 A (March 6, 2006) KR 20-0443574 Y1 (February 19, 2009) KR 10-2010-0131219 A (December 15, 2010)

The present invention relates to a length variable joint that can improve ventilation efficiency by changing the position of a duct installed in research facilities, houses, etc., and an air transport device comprised thereof.

It is intended to solve the problems of prior inventions, and the present invention relates to a length variable joint, which includes a first flow part 100 that penetrates the inside, through which fluid flows, and has one side open; a second flow part 200 that has an interior that is penetrated, through which fluid flows, and the other side is open; an insertion area 300 where the other side of the second flow part 200 is partially inserted into the first flow part 100; It is coupled to one side of the first flow part 100 and is configured to include an airtight part 400 that is in contact with the outside of the second flow part 200.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); It is added that the first flow part 100 and the second flow part 200 are made of the same material to the invention consisting of the airtight part 400.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); It is added that the first flow part 100 and the second flow part 200 are made of different materials to the invention consisting of the airtight part 400.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); To the invention consisting of an airtight portion (400), the first and second fluid portions (100) and (200) are made of metal or synthetic resin.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); To the invention consisting of an airtight portion 400, a cross section of the first flow portion 100 and the second flow portion 200 is formed in a circular or polygonal shape.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); A clearance formed on the inner circumferential surface of the first flow part 100 and the outer circumferential surface of the second flow part 200 is added to the invention consisting of the airtight part 400.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion 400, the airtight portion 400 includes a coupling portion 410 coupled to the first moving portion 100; A contact part 420 extending from the coupling part 410 and in contact with the second moving part 200 is added.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion (400), the coupling portion (410) includes an insert (411) formed at the end of the first moving portion (100); An insertion groove 412 is formed on the coupling portion 410 and inserted into the insert 411.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion (400), the coupling portion (410) includes a first coupling hole (421) formed at the end of the first moving portion (100); A second coupling hole 422 formed in the coupling portion 410; A fastening means 423 for fastening the first coupling hole 421 and the second coupling hole 422 is added.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion 400, the fastening means 423 includes a bolt 423b that penetrates the first coupling hole 421 and is coupled to the female screw 423a of the second coupling hole 422; is added.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion 400, the fastening means 423 includes a bolt 423b penetrating the first coupling hole 421 and the second coupling hole 422; A nut (423c) fastened to the bolt (423b) is added.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion 400, the fastening means 423 adds a coupling pin 423d for forcefully fitting the first coupling hole 421 and the second coupling hole 422.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion 400, the contact portion 420 includes a fixture 424 extending to the rear of the coupling portion 410; A deformable body 425 is formed extending from the front of the coupling portion 410 and is deformed and contacts the outer surface of the second moving portion 200.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of the airtight portion 400, the contact portion 420 adds that the end of the deformable body 425 is formed as a curved surface.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); To the invention consisting of an airtight portion 400, the airtight portion 400 is formed of a soft material.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of an airtight portion 400, the soft material is formed of natural rubber or synthetic rubber.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of the airtight portion 400, the synthetic rubber is formed of any one selected from silicone rubber, urethane rubber, and acrylic rubber.

The present invention relates to a variable length joint, and in the variable length joint, the first flow part 100 is penetrated inside, through which fluid flows, and has one side open; a second flow part 200 that has an interior that is penetrated, through which fluid flows, and the other side is open; an insertion area 300 where the other side of the second flow part 200 is partially inserted into the first flow part 100; It consists of a configuration including a limiting part 500 formed in the second flow part 200 or the first flow part 100.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); In the invention consisting of the limiting part 500, the limiting part 500 adds a first limiting protrusion 510 protruding from the outer peripheral surface of the second moving part 200.

The present invention relates to a length variable joint, and includes the first moving part 100 presented above; Second flow unit (200); insertion area (300); The limiting part 500 adds a second limiting protrusion 520 protruding from the inner peripheral surface of the first moving part 100.

The present invention relates to an air transport device consisting of a length variable joint, and includes a first flow part (100) through which the inside is penetrated, through which fluid flows and one side of which is open, and a second section which penetrates into the inside, through which fluid flows and whose other side is open. A variable length joint (10) consisting of a moving part (200) and an insertion area (300) where the other side of the second moving part (200) is partially inserted into the first moving part (100); It is composed of a configuration including a third flow part 600 in which the flow direction of air branches from the first flow part 100 and/or the second flow part 200.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; The third flow part 600 is branched into multiple branches to the invention consisting of a third flow part 600.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; A length variable part 610 formed in the middle of the third flow part 600 is added to the invention consisting of the third flow part 600.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; An air discharge part 630 or an air intake part 620 formed in the middle or end of the third flow part 600 is added to the invention consisting of the third flow part 600.

The present invention relates to an air transport device consisting of a length variable joint, and includes a first flow part (100) through which the inside is penetrated, through which fluid flows and one side of which is open, and a second section which penetrates into the inside, through which fluid flows and whose other side is open. A variable length joint (10) consisting of a moving part (200) and an insertion area (300) where the other side of the second moving part (200) is partially inserted into the first moving part (100); It consists of a configuration including a total heat exchanger 700 in communication with the first flow part 100 and/or the second flow part 200.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; In the invention consisting of a total heat exchanger (700), the total heat exchanger (700) includes a case (710) made of an enclosure, each having a first opening, a second opening, a third opening, and a fourth opening; A first communication pipe 720 communicating with the first opening and the third opening; a second communication pipe 730 communicating with the second opening and the fourth opening; The first communication pipe 720 and the second communication pipe 730 intersect, and a heat exchanger 740 formed at the intersection; A first blower 750 and a second blower 760 formed in the first communication pipe 720 and the second communication pipe 730, respectively, are added.

The present invention relates to an air transport device consisting of a length variable joint, and includes a first flow part (100) through which the inside is penetrated, through which fluid flows and one side of which is open, and a second section which penetrates into the inside, through which fluid flows and whose other side is open. A variable length joint (10) consisting of a moving part (200) and an insertion area (300) where the other side of the second moving part (200) is partially inserted into the first moving part (100); It is composed of a configuration including a fixing part 800 that is fixed to the first moving part 100 and/or the second moving part 200 and is coupled to the ceiling.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; The invention includes a fixing unit 800; a first fixing body 810 formed on the first moving part 100 and/or the second moving part 200; A second fixture 820 formed on the ceiling slab; A third fixture 830 combining the first fixture 810 and the second fixture 820 is added.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; A length variable fixture 831 formed on the third fixture 830 is added to the invention consisting of the fixture 800.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; A vibration isolating means (832) formed on the third fixture (830) is added to the invention consisting of the fixing part (800).

The present invention relates to an air transport device consisting of a length variable joint, and includes a first flow part (100) through which the inside is penetrated, through which fluid flows and one side of which is open, and a second section which penetrates into the inside, through which fluid flows and whose other side is open. A variable length joint (10) consisting of a moving part (200) and an insertion area (300) where the other side of the second moving part (200) is partially inserted into the first moving part (100); It consists of a configuration including a sensor unit 900 in which a sensor is mounted on the first flow unit 100 and/or the second flow unit 200.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; A first temperature and humidity sensor 910 built into the first flow part 100 and/or the second flow part 200 is added to the invention consisting of the sensor part 900.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; A flow sensor 920 built into the first flow part 100 and/or the second flow part 200 is added to the invention consisting of the sensor part 900.

The present invention relates to an air transport device consisting of a length-variable joint, including the length-variable joint (10) presented above; A measuring unit 930 that measures the sensor signal of the sensor unit 900 is added to the invention consisting of the sensor unit 900.

The present invention allows the length of the duct to be varied in various ways as the second flow part protrudes from the first flow part.

The present invention is capable of improving airtightness between the first flow part and the second flow part by forming an airtight part.

In the present invention, the third flow part is formed to be detachable from the first flow part and/or the second flow part, so that it can be used on various planes.

In the present invention, temperature control is possible through heat exchange between indoors and outdoors by forming a total heat exchanger.

The present invention is capable of measuring indoor and outdoor temperature, flow rate, etc. as the sensor is formed.

The present invention can prevent separation and damage of the first and second flow parts by forming a fixture of variable length on the ceiling.

1 is a perspective view of a length variable joint of the present invention.
Figure 2 is a cross-sectional view of the length variable joint of the present invention.
3 to 4 are illustrations of an airtight portion of the present invention.
Figure 5 is a cross-sectional view of an airtight portion according to another embodiment of the present invention.
Figure 6 is a cross-sectional view of a length variable joint installed with a limiting portion of the present invention.
7 to 8 are exemplary diagrams of an air transfer device consisting of a length variable joint of the present invention.
Figures 9 to 10 are exemplary diagrams showing the third moving part of the present invention installed.
Figure 11 is a cross-sectional view showing the fixing part of the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention.

Numbers cited in the examples below are not limited to the objects of citation and can be applied to all examples. An object that has the same purpose and effect as the configuration presented in the examples is an equivalent replacement object. The high-level concept presented in the examples includes low-level concept objects that are not described.

(Example 1-1) The present invention relates to a length-variable joint, which includes a first flow part 100 through which fluid flows, and one side of which is open; a second flow part 200 that has an interior that is penetrated, through which fluid flows, and the other side is open; an insertion area 300 where the other side of the second flow part 200 is partially inserted into the first flow part 100; It includes an airtight portion 400 coupled to one side of the first fluid portion 100 and in contact with the outside of the second fluid portion 200.

(Example 2-1) The present invention relates to a length variable joint. In Example 1-1, the first moving part 100 and the second moving part 200 are formed of the same material; Includes.

(Example 3-1) The present invention relates to a length variable joint, in Example 1-1, wherein the first moving part 100 and the second moving part 200 are made of different materials; Includes.

(Example 4-1) The present invention relates to a length variable joint. In Example 1-1, the first moving part 100 and the second moving part 200 are made of metal or synthetic resin. Includes ;

(Example 5-1) The present invention relates to a length variable joint. In Example 1-1, the cross sections of the first flow part 100 and the second flow part 200 are formed in a circular or polygonal shape. Includes ;

(Example 6-1) The present invention includes a length variable joint, in Example 1-1, a clearance formed on the inner peripheral surface of the first moving part 100 and the outer peripheral surface of the second moving part 200.

The present invention relates to a length variable joint. Specifically, the length variable joint is installed on the roof of a building and can change the position of the duct at the position of the diffuser to increase ventilation efficiency. These length-variable joints are installed on the roofs of buildings such as research facilities, houses, apartments, offices, etc., and provide ventilation by moving the inside and outside air of the units. At this time, the length variable joint changes the position of the duct so that it is connected to a diffuser installed in a place with high ventilation efficiency within the building. To explain this in detail, buildings such as research facilities are formed with various floor plans, and diffusers are installed in multiple locations with high ventilation efficiency in each room, such as the kitchen, living room, room, and bathroom. At this time, a duct is connected to each diffuser and the position of the duct is varied to determine ventilation efficiency.

In addition, in modular homes such as mobile homes, ducts must be installed for ventilation after combining each room, but since the ducts must be installed on the ceiling, there is a disadvantage of having to construct a new ceiling to install the ducts. In order to overcome this, the present invention changes the position of the duct by a length variable joint.

Referring to FIGS. 1 and 2, the length variable joint for varying the position of the duct is penetrated inside, through which fluid flows, and has a first flow part 100 with one side open, through which fluid flows. flows, and a second flow part 200 with the other side open is formed. The first flow part 100 and the second flow part 200 are made of metal or synthetic resin, and the first flow part 100 and the second flow part 200 may be made of the same or different materials. . The cross-sections of the first flow part 100 and the second flow part 200 are circular or polygonal, and the first flow part 100 and the second flow part 200 are formed in different sizes. At this time, as a clearance is formed on the inner peripheral surface of the first fluid portion 100 and the outer peripheral surface of the second fluid portion 200, the other side of the second fluid portion 200 is partially inserted into the first fluid portion 100, an insertion area 300. ) is formed, so that the first flow part 100 is formed with a wider cross section than the second flow part 200. In addition, an airtight part 400 is formed on one side of the first flow part 100, which contacts the outside of the second flow part 200 to improve airtight performance.

Therefore, the length variable joint of the present invention can adjust the length of the duct by changing the position inside the first flow part 100 as the second flow part 200 is partially inserted into the first flow part 100. It has features that can be

(Example 7-1) The present invention relates to a length variable joint, and in Example 1-1, the airtight portion 400 includes a coupling portion 410 coupled to the first moving portion 100; It includes a contact part 420 that extends from the coupling part 410 and is in contact with the second moving part 200.

(Example 8-1) The present invention relates to a length variable joint. In Example 7-1, the coupling portion 410 includes an insert 411 formed at an end of the first moving portion 100; It includes an insertion groove 412 formed on the coupling portion 410 and inserted into the insert 411.

(Example 9-1) The present invention relates to a length variable joint. In Example 7-1, the coupling portion 410 includes a first coupling hole 421 formed at an end of the first moving part 100; A second coupling hole 422 formed in the coupling portion 410; It includes a fastening means 423 for fastening the first coupling hole 421 and the second coupling hole 422.

(Example 10-1) The present invention relates to a variable length joint. In Example 9-1, the fastening means 423 penetrates the first coupling hole 421 and the second coupling hole 422. ) includes a bolt (423b) coupled to the female screw (423a).

(Example 11-1) The present invention relates to a length variable joint, in Example 9-1, wherein the fastening means 423 penetrates the first coupling hole 421 and the second coupling hole 422. bolt 423b; It includes a nut (423c) fastened to the bolt (423b).

(Example 12-1) The present invention relates to a variable length joint. In Example 9-1, the fastening means 423 presses the first coupling hole 421 and the second coupling hole 422. Includes a coupling pin (423d).

(Example 13-1) The present invention relates to a length variable joint, in Example 9-1, the contact portion 420 includes a fixture 424 extending to the rear of the coupling portion 410; It includes a deformable body 425 that extends from the front of the coupling part 410 and is deformed and in contact with the outer surface of the second flow part 200.

(Example 14-1) The present invention relates to a length variable joint, in Example 9-1, wherein the contact portion 420 includes an end of the deformable body 425 formed as a curved surface.

(Example 15-1) The present invention includes a length variable joint, in Example 1-1, wherein the airtight portion 400 is formed of a soft material.

(Example 16-1) The present invention includes a length variable joint, in Example 15-1, wherein the soft material is formed of natural rubber or synthetic rubber.

(Example 17-1) The present invention includes a length variable joint, in Example 15-1, wherein the synthetic rubber is formed of any one selected from silicone rubber, urethane rubber, and acrylic rubber.

(Example 17-2) In Example 6-1, the length variable joint of the present invention includes a sealing material formed in the clearance and improving airtight performance.

The present invention relates to the airtight part 400, and specifically, the airtight part 400 can improve the airtight performance of the clearance formed between the first flow part 100 and the second flow part 200. Referring to FIGS. 3 to 5, this airtight portion 400 is formed on one side of the first flow portion 100 and extends into the clearance to contact the outside of the second flow portion 200. At this time, the airtight part 400 is formed with a coupling part 410 that is coupled to the first moving part 100, and the coupling part 410 is an insert formed by bending at the end of the first moving part 100 ( 411) and an insertion groove 412 that is inserted into the insert 411 are formed. And the insert 411 is bent to fold against each other at the end of the first moving part 100 or is bent in one direction. In addition, the insertion groove 412 inserted into the insert 411 is formed at the bottom center of the coupling portion 410 and is formed to have the same or smaller width as the insert 411, so that the insertion groove 412 is formed at the bottom center of the coupling portion 410. 410) is inserted to generate friction through interference fit.

And when the first moving part 100 and the coupling part 410 are coupled by the fastening means 423, the end of the first moving part 100 is not bent. At this time, when the first moving part 100 and the coupling part 410 are coupled by the fastening means 423, the first coupling hole 421 is formed at the end of the first flowing part 100, and the coupling part 410 ), a second coupling hole (422) matching the first coupling hole (421) is formed. The fastening means 423 penetrating the first coupling hole 421 and the second coupling hole 422 penetrates the first coupling hole 421 or the second coupling hole 422, and the other second coupling hole 422 ) or a bolt (423b) coupled to the female screw (423a) of the second coupling hole (422). And when the first coupling hole 421 and the second coupling hole 422 are fastened with the bolt 423b, the fastening means 423 is preferably formed of a nut 423c coupled with the bolt 423b. In addition, in another embodiment, the fastening means 423 is formed of a coupling pin 423d and can penetrate the first coupling hole 421 and the second coupling hole 422 by interference fitting.

And the contact part 420 extends from the rear of the coupling part 410 to form a fixture 424 that is fixed to the insert 411 or the fastening means 423, and extends to the fixture 424 and the other surface. A deformable body 425 is formed that is deformed and comes into contact with the outer surface of the second moving part 200. At this time, the end of the deformable body 425 may be formed as a curved surface, and this is to ensure that the deformable body 425 is smoothly deformed when the second flow part 200 moves inside the first flow part 100.

In this way, the airtight part 400 is made of a soft material so that it can be freely deformed by the movement of the second moving part 200, and the soft material is made of natural rubber or synthetic rubber. And the synthetic rubber is preferably formed of silicone rubber, urethane rubber, acrylic rubber, etc. In addition, a sealing material is formed in the clearance to be spaced apart from the airtight portion 400, and the sealing material is formed to be fixed to the outside of the end of the second flow portion 200, doubly improving airtightness performance.

Accordingly, the airtight portion 400 of the present invention has features that can improve airtightness performance between the first flow portion 100 and the second flow portion 200 in various embodiments.

(Example 18-1) The present invention relates to a length variable joint, and in Examples 1-1 to 17-1, in the length variable joint, the inside is penetrated, the fluid flows, and one side is open. a first moving part (100); A second flow part 200 that has a penetrating interior, through which fluid flows, and is open on the other side; an insertion area 300 where the other side of the second flow part 200 is partially inserted into the first flow part 100; It includes a limiting part 500 formed in the second movable part 200 or the first movable part.

(Example 19-1) The present invention relates to a length variable joint, in Example 18-1, wherein the limiting portion 500 is a first limiting protrusion 510 protruding from the outer peripheral surface of the second moving portion 200. Includes ;

(Example 20-1) The present invention relates to a length variable joint, in Example 18-1, wherein the limiting portion 500 is a second limiting protrusion 520 protruding from the inner peripheral surface of the first moving portion 100. Includes ;

(Example 20-2) In the length variable joint of the present invention, in Example 20-1, the limiter 500 is formed integrally with or separate from the first flow part 100 or the second flow part 200. Includes; becoming.

(Example 20-3) In Example 20-1, the length variable joint of the present invention includes one or more limiting portions 500.

The present invention relates to a length variable joint, and specifically, the length variable joint has a limiting portion 500 formed to limit the moving distance of the second moving portion 200. Referring to FIG. 6, in this length variable joint, the second moving part 200 moves due to pressure in the insertion area 300 or a limiting part 500 is formed to accurately maintain the variable length. The limiting portion 500 is formed with a first limiting protrusion 510 protruding from the outer peripheral surface of the second flowing portion 200, and the first limiting protruding 510 is integrated with or separated from the second fluidizing portion 200. is formed When the first limiting protrusion 510 is formed separately from the second moving part 200, the first limiting protrusion 510 is formed at a location where the first limiting protrusion 510 and the second moving part 200 contact each other due to friction. A friction member made of rubber is formed to prevent movement. In addition, the first limiting protrusion 510 may be formed to have a cross-sectional size equal to or larger than that of the first flow part 100 so as to contact the end of the first flow part 100.

In addition, the second limiting protrusion 520, which is formed to be spaced apart from the first limiting protrusion 510 and protrudes from the inner circumferential surface of the first fluidizing portion 100, allows the second fluidizing portion 200 to extend to the first fluidizing portion 100. ) and is formed integrally with or separate from the first flow part 100 to adjust the length inserted into the inside. When the first flow part 100 and the second limiting protrusion 520 are formed separately, the second limiting protrusion 520 is preferably fixed by welding, fixing hardware, etc.

In this way, the length of the insertion area 300 may be determined by the limiting portion 500, and the limiting portion 500 may be formed of one or more first limiting protrusions 510 and second limiting protrusions 520. there is.

(Example 21-1) The present invention relates to an air transport device made of a length-variable joint. In Examples 1-1 to 20-1, the air transport device 20 made of a variable joint has an internal A first flow part 100 through which fluid flows and one side is open, a second flow part 200 through which fluid flows and the other side is open, and the other side of the second flow part 200 is a first side. 1A variable length joint (10) consisting of an insertion area (300) partially inserted into the moving part (100); It includes a third flow part 600 in which the flow direction of air branches off from the first flow part 100 and/or the second flow part 200.

(Example 21-2) In Example 21-1, an air transport device consisting of a length variable joint of the present invention includes a first flange 640 formed at the end of the third moving part 600; A second flange 650 formed on a side of the first flow part 100 and/or the second flow part 200; It includes a binding body 660 that binds the first flange 640 and the second flange 650.

(Example 21-3) In Example 21-1, the air transport device consisting of a length variable joint of the present invention includes a flange opening formed on the side of the first flow part 100 and/or the second flow part 200. (670); A branch fixing plate 680 formed on the second flange 650 and fastened to the flange opening 670; It includes a back fixing plate 690 that is attached to the flange opening 670 and is attached to an opening other than the branch fixing plate 680.

(Example 22-1) The present invention includes an air transport device consisting of a length-variable joint, in Example 21-1, wherein the third flow part 600 is branched into a plurality of branches.

The present invention relates to an air transport device (20) made of a length-variable joint. Specifically, the air transport device (20) made of a length-variable joint is provided in a plurality of first flow parts (100) and second flow parts (200). The third moving part 600 is branched so that each thread can be connected. Referring to FIGS. 7 and 8, the air transport device 20 consisting of such a length variable joint includes a first flow part 100 and a length variable joint 10 protruding or inserted from the inside of the first flow part 100. is formed, and a third flow part 600 is formed in the variable length joint 10, which branches out according to the direction of air flow. Referring to FIGS. 9 and 10, the third flow part 600 is formed to be integrated with or separate from the first flow part 100 or the second flow part 200, and may be connected to the diffuser of each room. And a first flange 640 is formed outward from the end of the third flow part 600, and the first flange 640 is formed on the side of the first flow part 100 or the second flow part 200. When combined with the second flange 650, air from the first flow part 100 or the second flow part 200 can be transferred to the third flow part 600. At this time, the first flange 640 and the second flange 650 can be fixed by the binding body 660, and the binding body 660 is formed of fastening hardware to connect the first flange 640 and the second flange ( 650) or may be formed as a clamp to secure the first flange 640 and the second flange 650.

And a flange opening 670 is formed on the side of the first flow part 100 and/or the second flow part 200, and the flange opening 670 has the same shape and size as the cross section of the third flow part 600. It is formed and the third moving part 600 is combined. At this time, a plurality of flange openings 670 can be formed, and the position of the third moving part 600 can be easily adjusted. And a branch fixing plate 680 is formed on the second flange 650, which is attached to the flange opening 670, and the branch fixing plate 680 is formed so that the first flange 640 of the third moving part 600 is connected to the first moving part 600. It is fastened to (100) and/or the second moving part (200). At this time, the branch fixing plate 680 is formed in the flange opening 670 to which the third moving part 600 is fastened, and the flange opening 670 to which the third moving part 600 is not fastened has a rear fixing plate 690. This can prevent air from being formed.

Therefore, in the air transfer device 20 consisting of a length variable joint of the present invention, the third flow part 600 is fastened to the first flow part 100 or the second flow part 200 to facilitate air flow within the household. It has the characteristics of being

(Example 23-1) The present invention relates to an air transport device consisting of a length-variable joint, which in Example 21-1 includes a length-variable portion 610 formed in the middle of the third moving portion 600. do.

(Example 24-1) The present invention relates to an air transport device consisting of a length-variable joint. In Example 21-1, the air discharge part 630 formed in the middle or end of the third flow part 600 or Includes an air intake unit 620.

The present invention relates to the third moving part 600, and specifically, the third moving part 600 has a variable length. Referring to FIG. 9, this third flow part 600 is formed with a length variable part 610, and the length variable part 610 is formed by connecting a plurality of ducts with different cross-sectional sizes to each other. At this time, the length of the variable length part 610 can be adjusted by forming a stopper, and after the length is adjusted, it is fastened by an adhesive member or a fixing member 800 material to be fixed.

In addition, an air intake part 620 or an air discharge part 630 is formed in the middle or end of the third flow part 600 to suck or discharge air, and the air intake part 620 and the air discharge part 630 Can be formed as a diffuser.

(Example 25-1) The present invention relates to an air transport device made of a length-variable joint. In Examples 1-1 to 24-1, in the air transport device 20 made of a variable joint, the internal A first flow part 100 through which fluid flows and one side is open, a second flow part 200 through which fluid flows and the other side is open, and the other side of the second flow part 200 is a first side. 1A variable length joint (10) consisting of an insertion area (300) partially inserted into the moving part (100); It includes a total heat exchanger 700 in communication with the first flow part 100 and/or the second flow part 200.

(Example 26-1) The present invention relates to an air transport device consisting of a length-variable joint. In Example 25-1, the total heat exchanger 700 is made of a housing, and has a first opening, a second opening, and a first opening. Case 710 in which 3 openings and 4 openings are formed respectively; A first communication pipe 720 communicating with the first opening and the third opening; a second communication pipe (730) communicating with the second opening and the fourth opening; The first communication pipe 720 and the second communication pipe 730 intersect, and a heat exchanger 740 formed at the intersection; It includes a first blower 750 and a second blower 760 formed in the first communication pipe 720 and the second communication pipe 730, respectively.

The present invention relates to an air transport device (20) made of a length-variable joint. Specifically, the air transport device (20) made of a length-variable joint has a plurality of length-variable joints (10) connected to a total heat exchanger (700) to be used indoors. It is possible to exchange heat between the outside and the outside. Referring to FIG. 8, the air transport device 20 composed of such a length variable joint is formed with a first flow part 100 and a length variable joint 10 that protrudes or is inserted from the inside of the first flow part 100. , a plurality of variable length joints 10 connect the indoors and outdoors, and a total heat exchanger 700 is formed between the plurality of variable length joints 10 connecting the indoors and outdoors.

The total heat exchanger 700 consists of a case 710 formed with a first opening, a second opening, a third opening, and a fourth opening, respectively, and a first communication pipe 720 communicating with the first opening and the third opening. A second communication pipe 730 is formed that communicates with the second opening and the fourth opening. At this time, the first communication pipe 720 and the second communication pipe 730 intersect, and a heat exchanger 740 is formed at the intersection, and the first communication pipe 720 and the second communication pipe 730 are equipped with a first blower ( 750) and a second blower 760 are formed, respectively. Accordingly, the air flowing in from outdoors and the air discharged indoors intersect with each other to maintain the indoor temperature.

(Example 27-1) The present invention relates to an air transport device made of a length-variable joint. In Examples 1-1 to 26-1, in the air transport device 20 made of a variable joint, the internal A first flow part 100 through which fluid flows and one side is open, a second flow part 200 through which fluid flows and the other side is open, and the other side of the second flow part 200 is a first side. 1A variable length joint (10) consisting of an insertion area (300) partially inserted into the moving part (100); It includes a fixing part 800 that is fixed to the first moving part 100 and/or the second moving part 200 and is coupled to the ceiling.

(Example 28-1) The present invention relates to an air transport device consisting of a length-variable joint. In Example 27-1, the first flow part 100 and/or the second flow part 200 are provided. 1 fixture (810); A second fixture 820 formed on the ceiling slab; It includes a third fixture 830 that connects the first and second connectors.

(Example 29-1) The present invention relates to an air transport device consisting of a length-variable joint, which in Example 28-1 includes a length-variable fixture 831 formed on the third fixture 830. .

(Example 30-1) The present invention provides an air transport device consisting of a length-variable joint, which in Example 28-1 includes a vibration damping means 832 formed on the third fixture 830.

The present invention relates to an air transport device (20) made of a length-variable joint. Specifically, the air transport device (20) made of a length-variable joint fixes the length-variable joint (10) so that it is spaced apart from the ceiling. Referring to FIG. 11, the air transport device 20 composed of such a length variable joint is formed with a first flow part 100 and a length variable joint 10 that protrudes or is inserted from the inside of the first flow part 100. , a fixing part 800 is formed that couples the length variable joint 10 to the ceiling. The fixing part 800 is formed by being coupled to the ceiling within the household, and is formed at the bottom of the first fixing body 810 and the ceiling slab formed in the first moving part 100 and/or the second moving part 200. A second fixture 820 is formed. And the first fixture 810 and the second fixture 820 are connected by the third fixture 830. At this time, the first fixture 810 is formed to surround the outside of the first flow part 100 and the second flow part 200, and is designed to smoothly change its position as the second flow part 200 moves. It is formed with a wider cross-sectional size than the first flow part 100 and the second flow part 200.

And the second fixture 820 is formed on the ceiling slab, and is formed as a hinge so that the third fixture 830 rotates smoothly when the second moving part 200 protrudes from the first moving part 100. do. At this time, the third fixture 830 has a length-variable fixture 831 formed in the middle, and a plurality of the length-variable fixtures 831 are spirally coupled so that the third fixture 831 moves as the second moving portion 200 moves. When the length of the stagnant 830 increases, the length changes flexibly. In addition, the third fixture 830 is provided with a vibration isolating means 832 formed of a spring, etc. to absorb shock due to gas pressure, earthquake, shock, etc., thereby causing the first flow part 100 and the second flow part ( 200) can prevent damage.

(Example 31-1) The present invention relates to an air transport device made of a length-variable joint. In Examples 1-1 to 30-1, in the air transport device 20 made of a variable joint, the internal A first flow part 100 through which fluid flows and one side is open, a second flow part 200 through which fluid flows and the other side is open, and the other side of the second flow part 200 is a first side. 1A variable length joint (10) consisting of an insertion area (300) partially inserted into the moving part (100); It includes a sensor unit 900 in which a sensor is mounted on the first flow unit 100 and/or the second flow unit 200.

(Example 32-1) The present invention relates to an air transport device consisting of a length-variable joint, which in Example 31-1 is installed inside the first flow part 100 and/or the second flow part 200. Includes a first temperature and humidity sensor 910.

(Example 33-1) The present invention relates to an air transport device consisting of a length-variable joint, which in Example 31-1 is installed inside the first flow part 100 and/or the second flow part 200. Includes a flow sensor 920;

(Example 34-1) The present invention provides an air transport device consisting of a length-variable joint. In Example 31-1, the present invention includes a measuring unit 930 that measures a sensor signal of the sensor unit 900.

(Example 34-2) In Example 34-1, the air transport device consisting of a length variable joint of the present invention includes a length sensor for measuring the variable length of the insertion area 300.

(Example 34-3) In Example 34-1, the air transport device consisting of a length variable joint of the present invention includes a vibration sensor that measures the vibration of the first flow part 100 and the second flow part 200. Includes ;

(Example 34-4) In Example 34-1, the air transport device consisting of a length variable joint of the present invention is configured to control the temperature and humidity of the room communicating from the first flow part 100 and the second flow part 200. Includes a second temperature and humidity sensor that measures.

(Example 34-5) In Example 34-1, the air transport device consisting of a length variable joint of the present invention includes a third temperature and humidity sensor that measures outdoor temperature and humidity.

The present invention relates to an air transport device (20) made of a length-variable joint. Specifically, the air transport device (20) made of a length-variable joint is equipped with a sensor and can measure flow rate and flow rate. Referring to FIG. 8, the air transport device 20 composed of such a length variable joint is formed with a first flow part 100 and a length variable joint 10 that protrudes or is inserted from the inside of the first flow part 100. , a sensor unit 900 in which sensors are mounted on the first flow unit 100 and the second flow unit 200 is formed. The sensor unit 900 is formed inside the first flow part 100 and the second flow part 200 to form a first temperature and humidity sensor 910 that measures the temperature and humidity of the air. At this time, as the second temperature and humidity sensor is formed in a position close to the diffuser to measure the indoor temperature and humidity and is spaced apart from the first temperature and humidity sensor 910, and the third temperature and humidity sensor is formed in a position close to the outdoors, the total heat exchanger (700) ) You can control the temperature.

And the sensor unit 900 can measure the flow rate of air by the flow rate sensor 920 formed in the first flow part 100 and/or the second flow part 200, and the total heat exchanger according to the air flow rate. Adjust the blower at (700). In addition, the sensor unit 900 is formed in the insertion area 300 to form a length sensor that measures the variable length of the second moving part 200, and the length sensor is formed with infrared rays or has a built-in spring to measure the variable length. can do. And the sensor unit 900 is formed with a vibration sensor that measures the vibration of the first flow part 100 and the second flow part 200, and the first flow part 100 and the second flow part (200) are formed by the vibration sensor. 200) separation and damage can be predicted.

like this. The various sensors formed in the sensor unit 900 transmit signals, and the signals transmitted from the sensor unit 900 are measured by the measurement unit 930 and transmitted within the household.

10: Variable length joint 20: Air transfer device
100: first moving part 200: second moving part
300: insertion area 400: confidential part
410: Coupler 411: Insert
412: Insertion groove 420: Contact portion
421: first coupling hole 422: second coupling hole
423: Fastening means 423a: Female thread
423b: bolt 423c: nut
423d: coupling pin 424: fixture
425: variant 500: restriction part
510: first limiting protrusion 520: second limiting protrusion
600: Third moving part 610: Variable length part
620: air intake part 630: air discharge part
640: 1st flange 650: 2nd flange
660: Binding body 670: Flange opening
680: Branch fixing plate 690: Back fixing plate
700: Total heat exchanger 710: Case
720: 1st communication pipe 730: 2nd communication pipe
740: heat exchanger 750: first blower
760: Second blower 800: Fixing part
810: first fixture 820: second fixture
830: Third fixture 831: Length variable fixture
832: Vibration isolation means 900: Sensor unit
910: First temperature and humidity sensor 920: Flow rate sensor
930: measurement unit

Claims (34)

delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete In the air transfer device 20 consisting of a variable joint,
A first flow part 100 with an inside penetrating, fluid flowing through and open on one side, a second flow part 200 with an inside penetrating, a fluid flowing with and an open other side, and the other side of the second flow part 200 A length-variable joint (10) consisting of an insertion area (300) partially inserted into the first moving part (100);
a third flow part 600 in which the air flow direction branches off from the first flow part 100 and/or the second flow part 200;
A total heat exchanger (700) in communication with the first flow part (100) and/or the second flow part (200);
A fixing part 800 fixed to the first moving part 100 and/or the second moving part 200 and coupled to the ceiling; and
It includes a sensor unit 900 equipped with a sensor in the first flow part 100 and/or the second flow part 200,
It includes a length variable portion 610 formed in the middle of the third moving portion 600,
A first flange 640 formed at the end of the third moving part 600;
A second flange 650 formed on a side of the first flow part 100 and/or the second flow part 200;
It includes a binding body 660 that binds the first flange 640 and the second flange 650,
A flange opening 670 formed on a side of the first flow part 100 and/or the second flow part 200;
A branch fixing plate 680 formed on the second flange 650 and fastened to the flange opening 670;
It includes a back fixing plate 690 attached to the flange opening 670 and attached to an opening other than the branch fixing plate 680,
It includes a length sensor that measures the variable length of the insertion area 300,
It includes a vibration sensor that measures vibration of the first moving part 100 and the second moving part 200,
A first fixture 810 formed in the first flow part 100 and/or the second flow part 200;
A second fixture 820 formed on the ceiling slab;
It includes a third fixture 830 combining the first fixture 810 and the second fixture 820,
A length-variable fixture 831 is installed in the middle of the third fixture 830, wherein a plurality of the length-variable fixtures 831 are spirally coupled and move according to the movement of the second moving portion 200. It includes allowing the length to vary when the length of the third fixture 830 changes,
An air transport device consisting of a length-variable joint including a vibration damping means (832) formed with a spring in the third fixture (830).
In claim 21,
The third moving part (600) is branched into plural numbers. An air transport device consisting of a length variable joint including a.
delete In claim 21,
An air transport device consisting of a length variable joint including an air discharge part 630 or an air intake part 620 formed in the middle or end of the third flow part 600.
delete In claim 21,
The total heat exchanger 700 consists of a case 710, which is composed of a case and has a first opening, a second opening, a third opening, and a fourth opening, respectively;
A first communication pipe 720 communicating with the first opening and the third opening;
a second communication pipe 730 communicating with the second opening and the fourth opening;
The first communication pipe 720 and the second communication pipe 730 intersect, and a heat exchanger 740 formed at the intersection;
An air transport device consisting of a length variable joint including a first blower (750) and a second blower (760) formed in the first communication pipe (720) and the second communication pipe (730), respectively.
delete delete delete delete delete In claim 21,
An air transport device consisting of a length variable joint including a first temperature and humidity sensor (910) built into the first flow part (100) and/or the second flow part (200).
In claim 21,
An air transport device consisting of a length variable joint including a flow rate sensor (920) built into the first flow part (100) and/or the second flow part (200).
In claim 21,
An air transport device consisting of a length variable joint including a measuring unit 930 that measures the sensor signal of the sensor unit 900.