KR200369163Y1 - Structure for coupling pipes of perpendicular exhaust pipe with damper - Google Patents

Abstract

The present invention is a utility design registered in Utility Model No. 115755. More specifically, the vertical duct is installed as a distribution pipe at right angles to the center of the vertical exhaust pipe, so that the indoor air exhausted to the vertical exhaust pipe through the flexible duct is smoothly discharged to the outside. A damper is installed inside the pipe connection structure of the exhaust pipe to prevent the air flowing in the vertical exhaust pipe from flowing back into the room.The damper opens automatically only when the blower fan is operating.The vertical can minimize the loss of heating and cooling. It is about the structure of the exhaust pipe.

The flexible duct 11 and the distribution pipe 12 are integrally connected to each other at a right angle to the vertical exhaust pipe 10 so that the air and the vertical exhaust pipe are exhausted into the vertical exhaust pipe 10 through the flexible duct 11. In the pipe connection structure of the vertical exhaust pipe 10 made to smoothly flow the air, it is rotatably fixed to the inner side of the flexible duct 11 and the distribution pipe 12 connected to the vertical exhaust pipe 10 at a right angle It is a pipe connection structure of a vertical exhaust pipe equipped with a damper, characterized in that the damper 14, which is configured to be opened and closed in accordance with the flow of air by a predetermined inclination by the rotary shaft (13).

Description

STRUCTURE FOR COUPLING PIPES OF PERPENDICULAR EXHAUST PIPE WITH DAMPER}

The present invention is designed to utilize utility model registration No. 115755. More specifically, the flexible duct is installed as a distribution pipe at a right angle to the center of the vertical exhaust pipe, so that the vertical air exhausted to the vertical exhaust pipe through the flexible duct can be smoothly discharged to the outside. A damper is installed inside the pipe connection structure of the exhaust pipe to prevent the air flowing in the vertical exhaust pipe from flowing back into the room.The damper opens automatically only when the blower fan is operating.The vertical can minimize the loss of heating and cooling. It is about the structure of the exhaust pipe.

In general, when installing a plurality of flexible ducts in the vertical exhaust pipe installed on the wall as a distribution pipe, the flexible duct was connected to the vertical exhaust pipe.

On the other hand, when the indoor air is discharged to the vertical exhaust pipe through the flexible duct, a blower fan is driven by the operation of the motor to induce and discharge the air in the vertical exhaust pipe to the upper side to exhaust the indoor air through the flexible duct connected to the distribution pipe. .

Utility Model Registration No. 115755, to which the applicant has the right, refers to a flexible duct connected to a vertical exhaust pipe, which is always connected through, so that the air discharged from the household flows back to the interior of the household with different smell and noise. In addition to the inflow, the air in the room where the heating and cooling is done is the biggest cause of deterioration of the effect of cooling and heating in summer and winter by continuously exhausting air through ducts and vertical exhaust pipes, resulting in excessive energy loss. This is happening now.

The present invention has been made to solve the above problems, by installing a flexible duct at a right angle to the center of the vertical exhaust pipe as a distribution pipe of the vertical exhaust pipe to be discharged to the outside smoothly to the outside air exhausted to the vertical exhaust pipe through the flexible duct The damper is installed inside the pipe connection structure to prevent the air flowing in the vertical exhaust pipe from flowing back into the room and the damper opens automatically only when the blower fan is operated to minimize the loss of heating and cooling. Is there.

In order to achieve the above object, the flexible duct is integrally connected to the distribution pipe in an eccentric portion of the vertical exhaust pipe so that the air flows smoothly between the vertical exhaust pipe and the air when the indoor air is exhausted into the vertical exhaust pipe through the flexible duct. In the pipe connection structure of the vertical exhaust pipe;

The flexible duct connected to the vertical exhaust pipe at right angles and a rotating shaft rotatably fixed to one inner side of the distribution pipe are equipped with a damper that can be opened and closed according to the flow of air by a predetermined inclination to flow in the vertical exhaust pipe. Air can be prevented from flowing back into the room, and the damper opens automatically only when the blower fan is operating to minimize the loss of heating and cooling. Also, indoor air flows into the vertical exhaust pipe through the flexible duct. It is in providing that there is no such thing.

1 is a perspective view when the damper of the present invention is closed

Figure 2 is a perspective view of the damper of the present invention when the heat

Figure 3 is a cross-sectional view of the damper of the present invention is coupled to the vertical exhaust pipe closed

Figure 4 is a cross-sectional view of the damper is open state coupled to the vertical exhaust pipe

<Explanation of symbols for the main parts of the drawings>

(10): vertical exhaust pipe (11): flexible duct

(12): distribution pipe (13): rotating shaft

14: damper 15a (15b): locking jaw

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

1 is a perspective view when the damper of the present invention is closed,

2 is a perspective view of the damper of the present invention when it is heated;

3 is a cross-sectional view of the damper of the present invention coupled to a vertical exhaust pipe and closed;

Figure 4 shows a cross-sectional view of the damper is open state coupled to the vertical exhaust pipe.

The flexible duct 11 is integrally connected with the distribution pipe 12 at a right angle to the central axis of the vertical exhaust pipe 10 so that the air in the room is exhausted into the vertical exhaust pipe 10 through the flexible duct 11. In the pipe connection structure of the vertical exhaust pipe 10 is made to smooth the air flow of the vertical exhaust pipe, and can be rotated on the inner side of the flexible duct 11 and the distribution pipe 12 connected to the vertical exhaust pipe 10 at a right angle. It is configured to mount the damper 14 that can be opened and closed in accordance with the flow of air by a predetermined inclination by the rotary shaft 13 is fixed.

The operation of the present invention is as follows.

Air flow by a predetermined slope by the integral flexible duct 11 and the rotating shaft 13 is rotatably fixed at one inner side of the distribution pipe 12 are connected to the center axis of the vertical exhaust pipe 10 at a right angle. The damper 14 which can be opened and closed along is installed.

The damper 14 is mounted to a portion where the flexible duct 11 is integrally coupled with the distribution pipe 12 at a right angle with the central axis of the vertical exhaust pipe 10, and rotates at one side inside the distribution pipe 12. Through holes are formed on both sides of the distribution pipe 12 so as to be fixed, and the rotary shaft 13 formed in the damper 14 is inserted into the through holes to fix the through holes 12 so that the dampers 14 are caused by the air discharged from the room. The air that is automatically opened naturally and the air rotated in the vertical exhaust pipe 10 presses the outer surface of the damper 14 to the air pressure, but the damper 14 is connected to the catching jaw 15a on the front side and the catching jaw 15b on the back side. Due to the structure that can not be opened in the rear by the air inside the vertical exhaust pipe (10) will be impossible to flow back to the room.

Locking jaws 15a and 15b are formed on opposite sides of the damper 14, respectively, and the locking jaws 15a and 15b adjust the inclination angle of the damper 14 as well as the reverse flow of the exhaust gas. It is to prevent the role.

When the damper 14 having the above structure operates a motor to discharge the indoor air to the outside through the vertical exhaust pipe 10, the indoor air flows along the flexible duct 11 connected to the indoor space, and finally the vertical exhaust pipe Discharge of the indoor air into the vertical exhaust pipe 10 while automatically opening the damper 14 mounted in the flexible duct 12 coupled to the distribution pipe 13 connected to the 10 by the flow of air. Will be.

Due to the air flow of the vertical exhaust pipe 10, the damper 14 is kept closed, and the backing of the air inside the vertical exhaust pipe 10 is not generated due to the locking jaws 15a and 15b.

On the contrary, the path into which the air in the room flows into the vertical exhaust pipe 10 through the flexible duct 11 and the distribution pipe 12 is rotated on the inner side of the flexible duct 11 and the distribution pipe 12. The damper 14 is easily opened by a small flow of air due to a fixed inclination of the rotating shaft 13 so that the damper 14 can be easily opened even by a small flow of air. .

That is, the damper 14 of the present invention is normally closed, and when the air is to be discharged out of the room, the damper 14 is automatically opened according to the air flow, thereby enabling energy saving during heating and cooling.

(Variants, applications and legal interpretations)

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Therefore, the present design prevents the air of the vertical exhaust pipe from flowing back to the room by installing a damper that is opened according to the air flow inside the flexible duct connected at right angles to the central axis of the vertical exhaust pipe. Due to the continuous discharge of the air, the indoor air temperature decreases during heating and the temperature rises during cooling, which lowers the efficiency of the air conditioning equipment and prevents it from being operated for a long time. It is a very useful design.

Claims (3)

The flexible duct 11 is integrally connected to the distribution pipe 12 to the vertical exhaust pipe 10 so that the air in the room and the air of the vertical exhaust pipe are exhausted into the vertical exhaust pipe 10 through the flexible duct 11. In the pipe connection structure of the vertical exhaust pipe 10 made to flow smoothly, Damper that can be opened and closed according to the flow of air by a predetermined inclination by a flexible duct 11 and a rotating shaft 13 rotatably fixed to one inside of the distribution pipe 12 connected to the vertical exhaust pipe 10 at a right angle ( 14) pipe connection structure of the vertical exhaust pipe is equipped with a damper, characterized in that consisting of mounting. delete The method of claim 1; On the opposite side of the damper 14, respectively, engaging jaw (15a, 15b) is formed, characterized in that the pipe connection structure of the vertical exhaust pipe is equipped with a damper.