KR102035446B1 - Ventilating opening chamber for preventing dew condensation - Google Patents

Abstract

The present invention relates to a vent chamber for preventing due condensation. The purpose thereof is to prevent dew condensation, which is caused by a difference in temperature between outdoor air and indoor air flowing through the inside of a chamber, through a flocking layer by creating a structure forming flowing layers in a hood cap installed on the front side of a body housing of the chamber and a partition plate installed therein. To achieve the purpose, the vent chamber comprises: a dented body housing (6) buried in an outer wall (4) of a building; hood caps (10) installed on both sides of the front part of the body housing (6) respectively to form a vent hole (12) in the lower part of the outer edge surface while letting outdoor air and indoor air go therethrough; a filter (14) installed on the rear side of the hood caps (10) to filter fine dust out while letting the air go therethrough; a partition plate (16) installed in the middle part of the body housing (6) while being divided into an air supply space (18) and an air discharge space (20); a cover plate (22) combined with the rear side of the body housing (6); and an air supply pipe (24) and an air discharge pipe (26), combined with both sides of the cover plate (22) while being placed on both sides of the partition plate (16). Flocking layers (28) are formed on the inner and outer surfaces of the hood caps (10) respectively.

Description

VENTILATING OPENING CHAMBER FOR PREVENTING DEW CONDENSATION}

The present invention relates to a ventilating chamber for preventing condensation, and more specifically, to a hood cap installed on the front side of the main body housing of the chamber and a structure for forming a locking layer on the partition plate installed therein, whereby the inside of the chamber is formed. The present invention relates to a ventilation port chamber for preventing condensation from being prevented by a locking layer caused by a temperature difference between indoor and outdoor air passing through.

In general, the ventilating chamber is installed in an apartment or a general house, and serves to guide indoor polluted air to be discharged to the outside and to guide fresh air from outside.

Condensation occurs as a result of temperature differences when indoor and outdoor air passes through the air vent chamber as described above, and in order to prevent such condensation, an improvement measure for the air vent chamber is required.

Meanwhile, KR 10-1558141 B1 2015.10.01. Looking at the "integrated ventilator chamber with improved workability" in Figure 1, the front of the chamber 200, the hood caps 300 formed with the vent hole 320 is installed, respectively, at the rear of the hood cap 300 The filter 400 is located in the air inlet 230 of the chamber 200 is installed, both sides of the cover 100 installed on the rear of the chamber 200, the air supply unit 110 and the air recovery unit 120 Each is installed as a duct to the total heat exchanger.

When the intake fan of the heat exchanger is operated, the outside air passes through the filter 400 while being introduced into the inside through the vent hole 320 of the hood cap 300, wherein fine dust in the air is filtered by the filter 400. While passing through the filter, the air is passed through the air supply unit 110 and then moved to the total heat exchanger along the duct is discharged into the room.

At the same time, when the exhaust fan of the total heat exchanger is operated, the indoor air passes out through the air vent 120 of the filter 400 and the vent hole 320 of the hood cap 300 in order to escape to the outside.

As described above, condensation occurs due to a temperature difference in the process of passing the indoor and outdoor air through the chamber 200. Such condensation is mainly generated in the hood cap 300 to fall to the ground outside the building.

Therefore, the water droplets generated by condensation are converted into contaminants while remaining in the hood cap 300 to act as a pollution source of air passing through the vent hole 320.

Republic of Korea Patent No. 10-1558141 (2015.10.01. Registration)

The present invention has been made to solve the above problems of the prior art, the object of which is to realize the structure of forming a locking cap on the hood cap installed on the front of the main body housing of the chamber and the partition plate provided therein In order to prevent condensation caused by temperature difference between indoor and outdoor air passing through the chamber, the locking layer is used.

The present invention is provided in each of the recessed body housing (6) buried in the outer wall (4) of the building and installed on both sides of the front of the body housing (6) while passing through the indoor and outdoor air through the lower air vent ( 12 is formed on the hood cap 10 and the rear of the hood cap 10, the filter 14 for filtering fine dust while passing through the air, and is installed in the middle portion of the main body housing 6 A partition plate 16 formed by dividing the air supply space 18 and the air discharge space 20, a cover plate 22 coupled to the rear surface of the main body housing 6, both sides of the cover plate 22 In the ventilation chamber chamber for preventing the condensation of the air supply pipe 24 and the air discharge pipe 26, which are disposed on both sides of the partition plate 16 while being coupled to the
The hood cap 10 is installed in both sides of the main body housing 6 for the air supply and the air discharge, but is formed in a hat shape to form a vent hole 12 penetrated below the outer peripheral surface, the vent hole ( 12 is disposed in the downward direction of the chamber 2, the locking layer 28 is formed on the inner side and the outer side of the hood cap 10, respectively, the locking layer 28 is the base layer 30 The adhesive layer 32 applied to the surface of the adhesive layer 32, and the pile layer 34 formed by planting a pile using nylon or polyrayon in the adhesive layer 32, the vent hole 12 of the hood cap 10 Condensation phenomenon caused by the temperature difference when the indoor air or outdoor air passes through the through, and the perforated plate portion 8 is located between the rear of the hood cap 10 and the filter 14, the main body housing (6) Is formed in, the perforated plate portion 8 is passed through the air even if the worm does not flow into the interior Block, and to form a Flocking layer 28 to the insulating function, both sides of the partition plate 16 is characterized in that for preventing the condensation.

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The present invention has a structure in which a locking layer 28 is formed on the hood cap 10 provided on the front side of the main body housing 6 of the chamber 2 and the partition plate 16 provided therein. 2) The dew condensation caused by the temperature difference between indoor and outdoor air passing through the inside is prevented by the locking layer 28.

1 is a cross-sectional view of a conventional ventilating chamber.
2 is a cross-sectional view of a chamber in which an embodiment of the present invention is installed on a wall.
3 is a perspective view of a chamber that is an embodiment of the present invention.
4 is a partial perspective view of a chamber that is an embodiment of the present invention.
5 is a cross-sectional view of a hood cap constituting an embodiment of the present invention.
6 is a front sectional view of a chamber constituting an embodiment of the present invention.

The chamber (chamber) 2 of the present invention is installed and used in an apartment or a general house, and guides the polluted air in the room to be discharged to the outside and guides the fresh air from the outside into the room. Will be

The chamber 2 is an improvement of an integrated ventilation port chamber having improved workability, which is filed and registered by the same applicant, and registered in Korean Patent Registration No. 10-1558141, which will be described below with reference to FIGS. 2 to 6.

First, the chamber 2 is provided with a recessed body housing 6 embedded in the outer wall 4 of the building, and the perforated plate portion for blocking the inflow of worms while air passes through both sides of the body housing 6. (8) are each formed, the hood cap 10 is located on the outer front surface of each of the perforated plate portion 8 is welded to the front surface of the main body housing 6 is installed.

At this time, the hood cap 10 is installed in both sides for the air supply and the air discharge from both sides of the body housing (6), each hood cap 10 is formed in a hat-shaped through-hole perforated below the outer peripheral surface (12) is formed, and the vent hole (12) is arranged in the downward direction of the chamber (2).

In addition, a filter 14 for filtering fine dust while passing air is installed on the inner rear surface of the perforated plate part 8, and the partition plate 16 is vertically installed at the inner center of the main body housing 6. It is formed by dividing the air supply space 18 and the air discharge space (20).

A cover plate 22 covering the entire open space is installed on the rear surface of the main body housing 6, and air supply pipes 24 and air discharge pipes 26 are respectively installed on both sides of the cover plate 22. The air supply pipe 24 and the air discharge pipe 26 are respectively located at both sides of the partition plate 16.

At this time, the air supply pipe 24 and the air discharge pipe 26 is connected to the duct not shown in the illustrated heat exchanger installed in the room.

On the other hand, the inner side and the outer side of the hood cap 10 and both side surfaces of the partition plate 16 is formed with a locking layer 28 to prevent condensation by acting as a heat insulating function, the locking layer 28 is a hood It is formed in the surface of the base layer 30 which forms the cap 10 and the partition plate 16, respectively.

The locking layer 28 is made by using a generally used locking machine, the locking layer 28 in the locking machine first to apply an adhesive to the base layer 30 to form an adhesive layer 32, The adhesive layer 32 completes the locking operation by forming a pile layer 34 by planting a pile in a locking machine, and then moving the hood cap 10 and the partition plate 16 to a drying furnace (not shown). It completes by drying for 30 minutes at the temperature of 80 degreeC.

The locking operation is not limited to being able to be carried out in various environments, and the pile is usually used but not limited to nylon or polyrayon.

Subsequently, the flocking layer 28 formed on the hood cap 10 and the partition plate 16 prevents condensation by acting as a heat insulating function, and at the same time, water droplets partially generated by the condensation phenomenon are removed from the flocking layer 28. Will be absorbed.

Therefore, the water droplets formed by condensation are not present in the hood cap 10 and the partition plate 16.

Referring to the operation of the present invention configured as described above are as follows.

First, when the intake fan of the heat exchanger (not shown) is operated, the outdoor air is introduced into the air through the vent hole 12 of the hood cap 10, and then passes through the perforated plate part 8 to pass through the filter 14. The perforated plate part 8 blocks the inflow of insects, and the filter 14 filters the fine dust and foreign matter contained in the air.

After that, the outdoor air enters the air supply space 18 of the main body housing 6, and then moves to the electrothermal exchanger (not shown) along the duct through the air supply pipe 24 and then discharged into the room.

Unlike the above, when the exhaust fan of the total heat exchanger is operated, contaminated air in the room flows along the duct after being introduced into the interior of the total heat exchanger, and the indoor air is thereafter discharged through the air discharge pipe 26. Passing through the filter 14 while entering the), and then the indoor air passes through the perforated plate portion 8 to exit through the vent hole 12 of the hood cap 10 to the outside.

In the process of passing the indoor and outdoor air through the chamber 2 as described above, a part of the outdoor air hits the circumference of the hood inlet hood 10 for the air inlet in a low temperature state, and some air through the vent 12 It will enter inside.

At this time, since the inside of the hood cap 10 is located in the indoor direction, the temperature is increased due to heat transfer of warm air, and the temperature of the hood cap 10 is located in the outdoor direction. Since the lower, the condensation phenomenon occurs in the hood cap 10 due to the temperature difference between the inside and the outside.

In the above state, the temperature change is reduced due to the heat insulating function of the locking layer 28 in the hood cap 10. Therefore, condensation does not occur in the hood cap 10, but some water drops may occur. This water droplet is absorbed into the locking layer 28.

In addition, the indoor air entering the air discharge space 20 of the main body housing 6 through the air discharge pipe 26 passes through the filter 14, the perforated plate part 8, and the vent hole 12 in sequence to the outside. Condensation may occur due to a temperature difference in the hood cap 10 for air discharge, but condensation may be prevented by the locking layer 28 as described above.

On the other hand, outside the low temperature air passes through the air supply space 18 formed by the partition plate 16 inside the main body housing 6, the indoor warm air passes through the air discharge space 20 at the same time In this case, one side of the partition plate 16 has a low temperature due to low temperature air, and the other side of the partition plate 16 has a high temperature due to warm air.

Therefore, condensation occurs in the partition plate 16 due to the temperature difference between the air supply space 18 and the air discharge space 20. At this time, the partition plate 16 due to the insulating function of the locking layer 28. ), The temperature change is small, so that condensation does not occur in the partition plate 16, but very few water droplets may be generated, and the water droplets are absorbed by the locking layer 28.

Although the preferred embodiments of the present invention as described above in detail by the accompanying drawings, the present invention is not limited to the embodiments described herein, those skilled in the art having ordinary skill in the art Various modifications and variations can be made without departing from the scope.

2: Chamber 4: Wall
6: Body housing 8: Other plate
10: hood cap 12: vent
14: Filter 16: partition plate
18: air supply space 20: air exhaust space
22: cover plate 24: air supply pipe
26: air exhaust pipe 28: locking floor
30: base layer 32: adhesive layer
34: file layer

Claims (5)

A recessed body housing (6) buried in the outer wall (4) of the building and installed;
Hood caps 10 which are respectively installed on both sides of the front of the body housing 6 to form a vent hole 12 in the lower outer peripheral surface while passing the indoor, outdoor air, and
A filter 14 installed at the rear of the hood cap 10 and filtering fine dust while passing air;
It is installed in the middle portion of the main body housing 6 partition wall plate 16 formed by dividing the air supply space 18 and the air discharge space 20,
A cover plate 22 coupled to the rear surface of the main body housing 6;
In the ventilator chamber for preventing condensation of the air supply pipe 24 and the air discharge pipe 26, which are disposed penetrating to both sides of the cover plate 22 and arranged on both sides of the partition plate 16,
The hood cap 10 is installed in both sides of the main body housing 6 for the air supply and the air discharge, but is formed in a hat shape to form a vent hole 12 penetrated below the outer peripheral surface, the vent hole ( 12) is disposed in the downward direction of the chamber 2,
The locking layer 28 is formed on the inner surface and the outer surface of the hood cap 10, respectively,
The locking layer 28 is composed of an adhesive layer 32 applied to the surface of the base layer 30 and a pile layer 34 formed by planting a pile using nylon or polyrayon on the adhesive layer 32, When the indoor air or outdoor air passes through the vent hole 12 of the hood cap 10 to prevent condensation caused by the temperature difference,
The perforated plate part 8 is formed between the rear surface of the hood cap 10 and the filter 14, and is formed in the main housing 6, and the perforated plate part 8 prevents insects from entering the interior while passing air. Block it,
Ventilation opening chamber for preventing condensation, characterized in that to form a locking layer 28 to the heat insulating function on both sides of the partition plate 16 to prevent condensation.


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