KR20110111682A - Structure for anti cross contamination of ventilation equipment for window - Google Patents

Abstract

The present invention is installed in the elevation partition window to reduce the occurrence of cross contamination during the movement of the internal and outdoor air in the process of discharging the air of the indoor space to the outdoor space and inflowing the air of the outdoor space into the indoor space It relates to a cross-contamination preventing structure of a ventilation system for a window.
According to an embodiment of the present invention Cross-contamination prevention structure of the ventilation device for windows and doors, the heat exchange module is installed in the divided windows and the elevation to perform heat exchange between the outside and the inside; And an exhaust module that receives external air from the heat exchange module and discharges the air to the indoor space.

Description

Structure for anti cross contamination of ventilation equipment for window

The present invention relates to a cross-contamination prevention structure of a ventilation device for windows and doors, and is particularly installed in an elevation partition window to discharge air from an indoor space to an outdoor space, and to move internal and external air in a process of introducing air from an outdoor space into an indoor space. A cross-contamination prevention structure of a ventilation system for windows and doors to reduce the occurrence of cross contamination during the process.

In general, the content of carbon dioxide (CO ₂ ) contained in the air of the indoor space is gradually increased over time by the breathing of life. In addition, since the increased content of carbon dioxide interferes with the breathing of life, the air in the indoor space should be replaced with fresh air in the outdoor space from time to time.

In general, the air in the indoor space is forcibly discharged to the outdoor space by a ventilation device such as a blower, and the air in the outdoor space naturally flows into the indoor space through the opening of a window. However, if the air in the indoor space is replaced in the above manner, the total heat exchange is not performed between the air in the indoor space and the air in the outdoor space, so unnecessary expenses are required for heating or cooling the indoor space, or Due to the rapid temperature change, a problem arises that a person existing therein feels uncomfortable. Here, the total heat exchange is a concept including both sensible heat exchange, meaning temperature exchange, and latent heat exchange, meaning humidity exchange.

A window type ventilation device for solving such a problem is disclosed in Korean Laid-Open Patent Publication No. 10-2007-89001 (hereinafter referred to as Prior Art 1). Window type ventilation device disclosed in the prior document 1 is embedded in the longitudinal member (mullion, mullion) of the window frame, and includes a cross flow fan and a heat exchanger. The crossflow fan introduces air from the outdoor space into the indoor space through the upper part of the mullion, and discharges air from the indoor space into the outdoor space through the lower part of the mullion. The heat exchanger accommodates a heat exchange medium such as ethylene glycol and glycerin glycol therein and extends along the extension direction of the mullion. Heat exchange between the incoming air and the discharged air is achieved by the up and down reciprocating flow of the heat exchange medium.

In addition, Korean Patent Laid-Open Publication No. 10-2004-75686 (hereinafter referred to as Prior Art 2) also discloses a window provided with a ventilation device to solve the above-mentioned problem. The window provided with the ventilator disclosed in the prior document 2 includes a case embedded in a transverse member (transom) of the window frame. Inside the case, a first fan for discharging the air of the indoor space to the outdoor space, a second fan for introducing the air of the outdoor space to the indoor space, a mixture between the air introduced from the outdoor space and the air discharged to the outdoor space In order to prevent barriers, a heat exchanger is provided for heat exchange between the air introduced into the outdoor space and the air discharged into the outdoor space. As the heat exchanger, a fin type or a type in which a plurality of plate bodies are stacked is used.

On the other hand, both filters in the process of using a filter for purifying the internal air introduced into the case (case) in the ventilation device for the window and the outside air filter accommodated in the case to clean the outside air introduced into the case Cross contamination is generated during the movement of internal and external air through the bar. In the related art, there is no disclosure of a separate structure for preventing the cross contamination. Development was urgent.

The present invention has been made in view of the problems and necessity of the prior art described above, an object of the present invention is to purify the internal air introduced into the case, the filter for purifying the outside air received in the case and introduced into the case To provide a cross-contamination prevention structure of the ventilation device for the window and door to reduce the occurrence of cross-contamination during the movement of the internal and external air through the both filters in the process of using the outdoor air filter.

An object of the present invention as described above, the heat exchange module is installed in the window and performs heat exchange between the outside and the bet; And an exhaust module for receiving external air from the heat exchange module and discharging the air into the indoor space.

Preferably, in the present invention, the heat exchange module is installed on the window frame left or right transom of the window.

Further, in the present invention, the heat exchange module includes a heat exchange unit and a cover member detachably coupled to the heat exchange unit.

In addition, the heat exchange unit in the present invention, the housing case; A betting fan provided on one side of the case to introduce the bet discharged to the outdoor space into the case and to discharge the bet inside the case to the window frame of the window; An outside fan provided on the other side of the case to introduce the outside air introduced into the window frame into the case and to discharge the outside air inside the case to the outside of the case; It is provided in the center of the case includes a heat exchange element unit for performing heat exchange between the outside and the inside.

In addition, in the present invention, one side of the case is provided with an outside air inlet duct through which outside air is introduced.

In addition, in the present invention, the other side of the case is provided with a bet exhaust duct through which bets are discharged.

In addition, in the present invention, the end of the case, the outside air discharge duct is provided in a direction orthogonal to the inside air discharge duct to discharge the outside air.

In addition, in the present invention, one side of the inner surface of the case is provided with a bet inlet hole for allowing the bet to flow into the case.

In addition, the heat exchange element unit in the present invention, the first heat exchange element for performing the heat exchange between the internal and external period first; And a second heat exchange element for performing heat exchange between the internal portion and the external period passed through the first heat exchange element secondly.

In the present invention, the first and second heat exchange elements have a rhombus shape.

Further, in the present invention, the first and second heat exchange elements are all composed of sensible heat exchange elements, all of heat exchange elements, or a combination of sensible heat exchange elements and total heat exchange elements.

In addition, in the present invention, the heat exchange element portion, the hexagonal pillar shape and performs the internal and external heat exchange.

In addition, the present invention further includes an outside air filter provided inside the case to purify the outside air before the outside air passes through the heat exchange element unit.

In addition, the present invention further includes a filter for betting is provided inside the case to purify the bet before the bet passes through the heat exchange element portion.

In addition, in the present invention, the exhaust module is installed opposite the heat exchange module in the transverse window left and right transom of the window.

In addition, the exhaust module in the present invention, a pair of ducts for receiving the outside air inlet duct and the inside air exhaust duct; It includes; a hood provided at the end of the duct.

Moreover, in this invention, the hood is installed in a direction that is 90 ° perpendicular to the duct.

According to the cross-contamination prevention structure of the ventilation apparatus for windows and doors of the present invention as described above, an air filter for purifying the internal air introduced into the case, and an external air filter accommodated in the case to purify the outside air introduced into the case It is possible to reduce the occurrence of cross-contamination during the movement of the internal and external air through the both filters in the use process of.

1 is a front view showing an elevation partition window is installed cross-contamination prevention structure of the ventilation apparatus for windows and doors according to the present invention,
2 and 3 are a plan view showing a cross-contamination prevention structure of the window ventilation apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described cross-contamination prevention structure of the ventilation apparatus for the window according to an embodiment of the present invention.

The terms or words used below should not be construed as being limited to ordinary or dictionary meanings, and the inventors can properly define the concept of terms in order to explain their invention in the best way. It should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention.

1 is a front view showing an elevation split window is installed cross-contamination prevention structure of a window ventilation apparatus according to the present invention, Figures 2 and 3 are cross-contamination prevention structure of a window ventilation apparatus according to an embodiment of the present invention. It is a top view which shows.

Referring to FIG. 1, an elevation split window in which a ventilation device for a window according to the present invention is installed is provided with left and right transoms 110 on both sides with a central transom 140 between the centers. A mullion 150 is provided in a direction perpendicular to the center and left and right transoms 140 and 110.

2, the cross-contamination prevention structure of the ventilation apparatus for windows and doors according to the present invention includes a heat exchange module 200 and an exhaust module 300.

The heat exchange module 200 is installed in the window shown in FIG. 1 to perform heat exchange between the air (outside air) of the outdoor space and the air (betting) of the indoor space, wherein the heat exchange module 200 is divided into the elevation Installed on the window frame left or right transom 110 of the window and includes a heat exchange unit 210, the cover member (not shown) of the '' 'cross-section detachably coupled to the heat exchange unit.

At this time, it is preferable that the cover member has a sound absorbing function and a shock absorbing function.

The heat exchange unit 210 is provided with a betting fan 230 on one side of the housing case 220 having an hexahedral shape with an open top surface, so that the bet is made through the bet inlet hole 222 which will be described later. Into the inside, and the inside of the case 220 is discharged to the outdoor space through the bet discharge duct 254 to be described later.

In addition, the outside air fan 232 is provided on the other side of the case 220 to introduce the outside air into the case 220 through the outside air inlet duct 250 to be described later, the outside air inside the case 220 It is discharged to the outside of the case 220 through the outside air discharge duct 252 to be described later.

In addition, a heat exchange element is provided at the center of the case 220 to perform heat exchange (temperature or temperature and humidity) between the outside air and the inside introduced into the case.

At this time, the heat exchange element unit, the first heat exchange element 240 for performing the internal heat exchange and the first period heat exchange, and the second heat exchange element performing the internal and external heat exchange second pass through the first heat exchange element 242.

In addition, in the present invention, it is shown that the plurality of heat exchange element portion is provided in a rhombic shape, but is not necessarily limited thereto. That is, as shown in FIG. 3, the single heat transfer or sensible heat exchange element 240-1 may have a hexagonal column shape to sufficiently ensure the heat exchange time, and perform internal and external heat exchange. It is also possible to have a plurality of three or more.

In addition, the heat exchange element parts shown in FIG. 2 may be all composed of sensible heat exchange elements, all of heat exchange elements, or may be made of a combination of sensible heat exchange elements and a total heat exchange element.

On the other hand, one side of the case 220, the outside air inlet duct 250 is provided with the outside air flows into the case, the other side of the case 220, the outside air introduced into the case is discharged to the outside of the case 220 The outside air discharge duct 252 is provided, and adjacent to the outside air inlet duct 250, one side of the case 220, the air of the indoor space introduced into the case, that is, the bet is outside the case 220 A bet discharge duct 254 is discharged.

In addition, one side of the inner surface of the case 220 is formed with a bent inlet hole 222 having a substantially triangular shape to allow the bet to flow into the case. As such, when the bet inlet hole 222 faces downward from the case 220, foreign substances such as dust floating in the indoor space may be prevented from entering the case 220 through the bet inlet hole 222. Can be.

In addition, an outer air filter 260 is provided at one inner side of the case 220 so as to purify the outside air before the outside air passes through the heat exchange element. Accordingly, the outside air filter 260 is installed to be purified immediately after the outside air flows into the case 220. In this case, the outside filter 260 is installed between the outside air inlet duct 250 and the first heat exchange element 240.

In addition, the bet filter 262 is provided on the other side of the inside of the case 220 is configured to purify the bet introduced into the case 220. Accordingly, the bet filter 262 is installed to be purified immediately after the bet flows into the case 220. In this case, the bet filter 262 is provided between the bet inlet hole 222 and the second heat exchange element 242.

The exhaust module 300 receives the outside air from the heat exchange module 200 and discharges the air into the indoor space. The exhaust module 200 includes the heat exchange module 200 in the transverse window 110 at the left and right sides of the window partition of the elevation partition. It is installed opposite).

That is, a pair of hollows are formed in the left and right transoms 110, and the pair of ducts 310 is disposed at a position corresponding to the outside air inlet duct 250 and the air outlet duct 254. 312 are respectively inserted, and the pair of ducts receive the air inlet duct 250 and the air outlet duct 254, respectively, and the openings of the ducts 310 and 312 have downward openings. One hood 320 is installed. The hood 320 provided as described above prevents rain or snow from flowing into the ducts 310 and 312. In this case, the hood 320 is installed in a direction perpendicular to 90 ° with respect to the ducts 310 and 312.

Referring to FIG. 2 of the present invention having the above-described configuration, when the fan 230 and the fan 232 for operation are operated, the outside air is introduced into the case 220 from the outdoor space through the outside air inlet duct 250. After being introduced, it is introduced into the first heat exchange element 240 through the external air filter 260, and the bet is introduced into the case 220 through the bet inlet hole 222 and then is passed through the bet filter 262 through the second. Flow into the heat exchange element 242. Thereafter, the inside and the outside air exchanges heat or sensible heat without mixing in the first heat exchange element 240, and then flows into the second heat exchange element 242, and exchanges heat or sensible heat without mixing in the second heat exchange element 242. . Thereafter, the bet and the outside air pass through the bet fan 230 and the outside fan 232 without mixing, respectively, the bet is through the bet exhaust duct 254, and the outside is the case 220 through the air discharge duct 252 It is discharged to the outside.

In this process, since the hood 320 is installed in a direction that is 90 ° orthogonal to the ducts 310 and 312, the filter 262 for the bet purifying the internal air introduced into the case 220 and Generation of cross-contamination during the movement of internal and external air through the both filters 260 and 262 during the use of the external air filter 260 accommodated in the case 220 to purify the outside air introduced into the case In FIG. 2 and FIG. 3, the flow of outside air is indicated by a solid blue arrow, and the flow of bet is indicated by a solid red arrow.

In addition, the bet inlet hole 222-1 and the bet filter 262-1 in FIG. 3 correspond to the installation position of the fan 232 for the outside air, the bet inlet hole 222 and bet shown in FIG. The filter 262 is provided to face each other.

As described above with reference to the cross-contamination prevention structure of the ventilation apparatus for windows and doors according to the present invention, the present invention is not limited by the embodiments and drawings disclosed in the present specification and various modifications by those skilled in the art within the technical scope of the invention Of course, modifications can be made.

110: left and right transom 140: center transom
150: mullion 200: heat exchange module
210: heat exchange unit 220: case
230: Fan for betting 232: Fan for outside air
240: first heat exchange element 242: second heat exchange element
250: outside air inlet duct 252: outside air discharge duct
254: air exhaust duct 260: air filter
262: bet filter 300: exhaust module
310,312: Duct 320: Hood

Claims (17)

A heat exchange module installed in the window and performing heat exchange between the outside and the inside; And
Cross-contamination prevention structure of the ventilation device for the window comprises a; exhaust module for receiving the outside air from the heat exchange module to discharge to the indoor space.
The method of claim 1,
The heat exchange module,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that installed on the window frame left or right transom of the window.
The method of claim 2,
The heat exchange module,
Cross-contamination prevention structure of the ventilation apparatus for a window and door comprising a heat exchange unit and a cover member detachably coupled to the heat exchange unit.
The method of claim 3, wherein
The heat exchange unit,
A storage case;
A betting fan provided on one side of the case to introduce the bet discharged to the outdoor space into the case and to discharge the bet inside the case to the window frame of the window;
An outside fan provided on the other side of the case to introduce the outside air introduced into the window frame into the case and to discharge the outside air inside the case to the outside of the case;
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that provided in the center of the case comprises a heat exchange element for performing heat exchange between the outside and the inside.
The method of claim 4, wherein
On one side of the case,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that provided with an outside air inlet duct through which outside air is introduced.
6. The method of claim 5,
On the other side of the case,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that the bet exhaust duct is discharged.
The method of claim 6,
At the end of the case,
Cross-contamination prevention structure of the ventilation device for windows and doors characterized in that the air discharge duct is provided in a direction orthogonal to the air discharge duct to discharge the outside air.
The method of claim 7, wherein
On one side of the inner surface of the case,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that the bet inlet is provided to allow the bet to be introduced into the case.
The method of claim 4, wherein
The heat exchange element unit,
A first heat exchange element for performing internal and external heat exchange primarily;
And a second heat exchange element configured to perform heat exchange between the internal and external periods through the first heat exchange element secondly. 2.
The method of claim 9,
The first and second heat exchange elements,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized by having a rhombic shape.
The method of claim 10,
The first and second heat exchange elements,
The cross-contamination prevention structure of the ventilation system for windows and doors which consists of all the sensible heat exchange elements, all the all heat exchange elements, or a combination of the sensible heat exchange elements and a total heat exchange element.
The method of claim 4, wherein
The heat exchange element unit,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that the internal and external heat exchange in the form of a hexagonal column.
The method of claim 4, wherein
And an outside air filter provided inside the case to purify the outside air before the outside air passes through the heat exchange element unit.
The method of claim 4, wherein
And a betting filter provided inside the case to purify the bet before the bet passes through the heat exchange element portion.
The method of claim 1,
The exhaust module,
Cross-contamination prevention structure of the ventilation device for windows and doors, characterized in that is installed opposite to the heat exchange module in the window frame frame transverse left and right of the window.
The method according to claim 5 or 6,
The exhaust module,
A pair of ducts for receiving the outside air inlet duct and the inside air exhaust duct;
Hood provided at the end of the duct; Cross-contamination prevention structure of the ventilation device for a window and door comprising a.
17. The method of claim 16,
The hood is installed in a direction perpendicular to the 90 ° with respect to the duct cross-contamination prevention structure of the ventilation device for a window.

Images