KR20110118342A - Ventilation equipment for window - Google Patents

Abstract

The present invention relates to a ventilation apparatus for windows and doors, comprising: a heat exchange module embedded in a transom of a window frame of an elevation divided window; An intake module embedded in a mullion positioned at a side of the transom; And an exhaust module embedded in the mullion and mounted on the upper side of the intake module, wherein the heat exchange module supplies the outside air introduced from the outside to the exhaust module, Received and discharged to the outside, the heat exchange between the outside and the inside air, characterized in that the heat exchange in a state that the mixing of the outside and the inside is not made.
In accordance with the above features, the heat exchange module, the exhaust module, and the intake module are arranged in the transom and mullion, respectively, in the up, down, left, and right sides so that the ventilation device for the windows and doors is effectively installed in a smaller space, thereby making it compact. In addition, since the window-type ventilation device is completely embedded in the mullion does not appear to the outside, an advantageous effect of giving an aesthetically beautiful and luxurious image.

Description

VENTILATION EQUIPMENT FOR WINDOW} Transoms and Mullions

The present invention relates to a ventilator, and more particularly, is installed embedded in the window frame to discharge the indoor air to the outside and inlet the outdoor air into the room, between the air discharged to the outdoor and the air introduced into the room A ventilator for windows and doors that enables heat exchange.

In general, the content of carbon dioxide contained in the air of the room is gradually increased over time by the breathing of life. And, because the increased content of carbon dioxide interferes with life breathing, indoor air must be replaced with fresh air from time to time. To this end, residential buildings and office buildings are provided with a separate ventilation system for ventilating by opening and closing the windows, or for ventilating indoor polluted air. there was.

However, ventilation by the method of opening / closing windows has a problem such that outside noise and pollutants are introduced together with the outside air. There was a problem of additionally installing a duct for installing a ventilation system on the ceiling, etc., and in the case of a window type ventilation system, there was a problem of forming a separate installation space in the windows of an existing building.

In addition, if the indoor air is forced to be discharged to the outside and the outdoor air is introduced into the room, if the heat exchange between the indoor air and the outdoor air is not made, the unnecessary cost for heating or cooling the room and the indoor Due to the rapid temperature change of the user, there may be a problem that may cause discomfort to a person present therein.

The present invention is to solve the problem of the conventional ventilation means and at the same time to enable heat exchange between the air discharged from the indoors and the air introduced from the indoors to the indoors, in particular ventilation for windows and doors do not require a separate installation space It is an object to provide a device.

The present invention provides a heat exchange module embedded in a transom of a window frame of an elevation divided window; An intake module embedded in a mullion positioned at a side of the transom; And an exhaust module embedded in the mullion and mounted on the upper side of the intake module, wherein the heat exchange module supplies the outside air introduced from the outside to the exhaust module, and draws the bet sucked by the intake module. Received and discharged to the outside, the heat exchange between the outside and the inside air, provides a ventilation device for the windows and doors characterized in that the heat exchange in a state that the mixing of the outside and the inside is not made.

In addition, the present invention comprises a heat exchange module embedded in a transom of the window frame of the elevation divided windows; An intake module embedded in a mullion positioned at a side of the transom; And an exhaust module embedded in the mullion and positioned below the intake module, wherein the heat exchange module supplies the outside air introduced from the outside to the exhaust module, and draws the bet sucked by the intake module. Received and discharged to the outside, the heat exchange between the outside and the inside air, provides a ventilation device for the windows and doors characterized in that the heat exchange in a state that the mixing of the outside and the inside is not made.

The heat exchange module includes a heat exchange element for heat exchange between the bet and the outside air, wherein the outside air is purified by passing through an outside air filter after entering the heat exchange module and before entering the heat exchange element, and the bet is transferred to the heat exchange module. After being introduced, it is purified while passing through the bet filter before being introduced into the heat exchange element.

The exhaust module has a plurality of outside air outlets arranged along the longitudinal direction of the exhaust module for the discharge of outside air, and the mullion is connected to the outside air outlet of the exhaust module to supply the outside air discharged from the outside air outlet to the room An opening is formed.

The intake module has a plurality of intake inlets arranged along the longitudinal direction of the intake module, for inhalation of the bet, the mullion is formed in communication with the intake inlet of the intake module, the bet intake of the intake module An opening is formed to allow supply to the.

According to the present invention, ventilation may be performed while heat exchange is performed between the air discharged from the indoors and the air introduced from the outdoor to the indoors, and each of the heat exchange module, the intake module, and the exhaust module may be detachably attached to the mullion of the window frame. In this way, the maintenance of each module is easy and the cost of maintenance can be reduced.

In addition, the exhaust module and the intake module are disposed in the mullion up and down, respectively, and the heat exchange module is arranged in the transom, so that the ventilation device for the windows and doors is effectively installed in a smaller space to have a compact configuration.

In addition, the window-type ventilation device is completely embedded in the transom and mullion is not exposed to the outside, so there is an advantageous effect of providing aesthetically beautiful and luxurious image.

1 is a partial perspective view showing an elevation partition window with a ventilation device for windows and doors according to the present invention.
Figure 2 is an exploded perspective view of the ventilation device for the window and doors buried in FIG.
3 is a perspective view illustrating a heat exchange unit of the window ventilation apparatus of FIG. 2, illustrating a bottom surface of the heat exchange unit separately.
4 is a perspective view illustrating a fan cover of the heat exchange unit illustrated in FIG. 3.
FIG. 5 is a partial cross-sectional view of the heat exchange unit of the window ventilation apparatus of FIG.
6 and 7 are partial cross-sectional views showing a modification of the heat exchange unit shown in FIG.
Figure 8 is a partial perspective view of the exhaust module of the ventilation device for windows and doors of the present invention.
9 is a partial cutaway view of the exhaust module shown in FIG. 8.

Hereinafter, preferred embodiments of the window ventilation apparatus according to the present invention will be described in detail with reference to the drawings. 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.

First, a frame (frame) is formed in the window frame at regular intervals in the transverse direction and the longitudinal direction, wherein the transverse member of the window frame is referred to as a transom below, and the longitudinal member of the window frame is Is called a mullion.

Referring to FIG. 1, a plurality of transoms 110 and 130 are positioned in the elevation divided windows, and a plurality of mullions 160 and 170 are located in the longitudinal direction therebetween. In addition, the ventilation device for the window according to the present invention is configured to be completely embedded in the transom and mullions so that it is not visible from the outside.

In FIG. 1, the construction of the window ventilation apparatus according to the present invention, which is embedded in a transom or mullion, is indicated by a dotted line. These configurations include a heat exchange module 200 embedded in a mullion, and an intake module 300 and an exhaust module 400 embedded in the transom in a state perpendicular to the mullion.

Hereinafter, the configuration of the ventilation device for the window according to an embodiment of the present invention will be described.

Figure 2 is an exploded perspective view of the ventilation device for windows and windows, Figure 3 is a perspective view showing a heat exchange unit of the ventilation device for windows and windows shown in Figure 2, showing the heat exchange unit and the lower surface of the heat exchange unit separately. In view of this, the heat exchange module 200 of the ventilation device for windows and doors includes a heat exchange unit 210 and a cover 250. However, in the present invention, since the ventilation device is completely embedded in the transom, the cover 250 may not be provided. The heat exchange unit 210 includes a case 212 and a lower cover 215 serving as a lower cover of the case, as shown in FIG. 3, and the case 212 includes an outside air filter 222 and a bet filter. 224, heat exchange elements 226, 228, a bet 236, an outside fan 238, a fan cover 230, and the like are accommodated.

An outside air inlet duct 214 is formed at a side of the case 212 so that outdoor air (outside air) may be introduced into the case 212, and the outside air introduced into the case 212 may be outside the case 212. The outside air discharge duct 220 is formed to be discharged, the bet inlet hole 216 is formed so that the indoor air (betting) is introduced into the case 212, the introduced bet is outside the case 212 The bet discharge duct 218 is formed to be discharged to. In addition, a door (not shown) that is openable or detachable is formed to facilitate replacement of the external air filter 222, the internal air filter 224, and the total heat exchange element disposed in the case 212.

Meanwhile, as shown in FIG. 2, when the heat exchange unit 210 is mounted on the transom, the outside air inlet duct 214 and the air outlet duct 218 are inserted into the mullion and the air inlet hole 216. Is in the direction in which the intake module is located, the outside air discharge duct 220 is in the direction in which the exhaust module 400 is located.

The outside filter 222 is for purifying the outside air introduced into the case 212. Accordingly, the outside air filter 222 is installed to be purified immediately after the outside air is introduced into the case 212 or just before the outside air is discharged to the outside of the case 212. However, when the outside air introduced into the case 212 passes through the heat exchange elements 226 and 228 as it is, the heat exchange elements 226 and 228 may be blocked, so that the outside air filter 222 has the outside air in the case 212. It is preferable to be installed to purify immediately after entering the interior. In this case, the air filter 222 is installed between the air inlet duct 214 and the first heat exchange element 226 as shown in FIG.

The bet filter 224 is for purifying the bet introduced into the case 212. Since the heat exchange elements 226 and 228 may be blocked when the bet introduced into the case 212 passes through the heat exchange elements 226 and 228, the bet filter 224 is installed. The bet filter 224 is installed to purify immediately after the bet is introduced into the case 212. That is, the bet filter 224 is installed between the bet inlet hole 216 and the first heat exchange element 226.

The heat exchange element exchanges heat between the inside and the outside air introduced into the case 212, and includes a first heat exchange element 226 and a second heat exchange element 228. At this time, the first heat exchange element 226 and the second heat exchange element 228 are installed so that outside air and bet are not mixed in the case 212. When two heat exchange elements are included in the case 212, the first and second heat exchange elements 226 and 228 may both be made of sensible heat exchange elements, or may be made of all heat exchange elements, or sensible heat exchange elements and heat exchange elements. It can be made of a combination of. In addition, to ensure sufficient heat exchange time, at least one of the two is preferably formed in a hexagonal column shape (226 of FIG. 5). However, the shape is not limited thereto, and as shown in FIG. 6, both heat exchange elements 226 and 228 may be formed in a square pillar shape. In addition, the number of heat exchange elements is not limited to two, and may be provided as one electrothermal exchange element as shown in FIG. 7, or in some cases, three or more.

The bet fan 236 is provided to introduce the bet into the case through the bet inlet hole (216 of FIG. 5) and to discharge the bet to the outside of the case 212 through the bet discharge duct 218. ) Is provided to introduce the outside air into the case 212 through the outside air inlet duct 214 and to discharge the outside of the case 212 through the outside air discharge duct 220. The fan cover 230 is installed to cover the betting fan 236 and the outside fan 238. The fan cover 230 is provided with a separation wall 232, as shown in FIG. 4, such that the outside air and the inside passing through the second heat exchange element 228 are not mixed with each other.

The lower cover 215 of the heat exchange module is a member covering the lower surface of the case 212, and a duct 215a is formed on the outer surface of the lower cover to protrude outward to form a flow passage of the bet. One end of the duct 215a is formed with an inlet 215b that communicates with the intake module 300 that sucks the internal air, and the other end of the duct communicates with the internal air inlet hole 216 of the case. After the indoor air flows into the intake module 300, the bet is introduced into the duct 215a through the inlet 215b of the duct 215a, and the bet inlet hole 216 of the case at the other end of the duct. It flows into the case through.

5 to 7 is a view of the various embodiments of the partial cross-sectional view seen from the top after cutting the heat exchange unit of the ventilation apparatus for the window according to the present invention laterally.

In view of this, the lower surface of the case 212, it is preferable that the guide wing 227 for guiding the outside air or bet flowing inside the case 212 is installed. The guide wing 227 is installed between the air filter 222 and the first heat exchange element 226, and between the first heat exchange element 226 and the second heat exchange element 228 to guide the flow of outside air and bet. do. The guide wing 227 is formed at a predetermined height and has a curved shape with a predetermined curvature, and is provided in a convex arc shape in the direction in which the side surface of the case 212 is located.

When the fan 236 and the fan 238 are operated, the outside air is introduced into the case 212 from the outside through the outside air inlet duct 214, and then passes through the outside air filter 222 to the first heat exchange element. 226 is introduced into the case 212 after the bet passes through the duct 215a of the case lower cover 215 and passes through the bet inlet hole 216. The bet introduced into the case flows into the first heat exchange element 226 through the bet filter 224. Thereafter, the inside and the outside air are introduced into the second heat exchange element 228 after exchanging heat transfer or sensible heat without mixing in the first heat exchange element, and the fan cover after exchanging heat transfer or sensible heat without mixing in the second heat exchange element 228. 230 is introduced into the interior. Thereafter, the bet and the outside air goes through the betting fan 236 and the outside fan 238 without mixing. Thereafter, the bet is discharged to the outside through the bet discharge duct 218, the outside air is discharged to the interior through the outside air discharge duct 220 to ventilate the indoor air. 3, 5 to 7, the flow of the outside air is indicated by a solid arrow, the flow of the bet is indicated by a dashed arrow.

The exhaust module 400 of the window ventilation apparatus according to the present invention is for discharging the outside air received from the heat exchange unit 210 to the room, as shown in Figures 8 to 9 the upper member 410 and the It includes a lower member 430 coupled to the upper member. The upper member 410 and the lower member 430 are combined to form a passage of the outside air. In addition, the lower member 430 is formed with a plurality of guiders (434 of FIG. 9) arranged along the longitudinal direction and extending in a direction perpendicular to the longitudinal direction, and the outside air outlet 432 between the guiders 434. ) Is formed, and the outdoor air that has moved in the longitudinal direction along the passage 402 of the outdoor air is introduced into the room through the outdoor air outlet 432 after the direction is changed by the guider 434. Although not specifically illustrated in the drawing, the mullion has an opening communicating with the outside air outlet 432 so that outside air discharged from the outside air outlet may be discharged into the room through the opening of the mullion.

In addition, a button for inputting a ventilation operation command by adjusting the operation, stop, and air volume of the outside air fan 238 and the inside fan 236 of the window ventilation apparatus is provided at a proper position of the transom to mullion. do.

Window ventilation apparatus according to the present invention, as shown in Figures 2 to 3, includes an intake module 300 embedded in the mullion. The intake module 300 is to receive the internal air from the room to deliver to the heat exchange unit 210, the basic configuration includes an upper member and a lower member, the lower member is formed with an air intake for inhaling the indoor air It is the same as the structure of the exhaust module 400 demonstrated above. The mullion containing the suction module is formed with an opening communicating with the internal air suction port of the suction module, so that the indoor air is supplied to the internal air suction port of the suction module. In order to avoid overlapping descriptions, detailed description of the intake module will be omitted.

In the present invention, the exhaust module and the intake module are disposed in the mullions, respectively, and the heat exchange module is disposed in the transom so that the ventilation device for the windows and doors is effectively installed in a smaller space to have a compact configuration. In addition, the window-ventilated ventilation apparatus of the present invention is completely embedded in the transom and mullion does not appear to the outside, resulting in an advantageous effect of providing aesthetically beautiful and luxurious image.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is described below by the person skilled in the art and the technical spirit of the present invention. Of course, it can be variously modified and modified within the scope of equivalent claims.

110: transom 150, 160: mullion
200: heat exchange module 210: heat exchange unit
212 case 214: outside air inlet duct
215: lower cover 215a: duct
216: bet inlet hole 218: bet discharge duct
220: air discharge duct 222: air filter
224: bet filter 226: the first heat exchange element
227: guide wing 228: second heat exchange element
230: fan cover 232: partition wall
236: betting fan 238: fan for the outside
300: intake module 400: exhaust module
410: upper member 430: lower member

Claims (8)

A heat exchange module embedded in a transom of the window frame of the divided window;
An intake module embedded in a mullion positioned at a side of the transom; And
And an exhaust module embedded in the mullion and mounted on an upper side of the intake module.
The heat exchange module supplies the outside air introduced from the outside to the exhaust module, receives the inside sucked by the intake module and discharges the outside to the outside, and performs heat exchange between outside and inside, but does not mix the outside and inside. Ventilation device for windows and doors, characterized in that the heat exchange. A heat exchange module embedded in a transom of the window frame of the divided window;
An intake module embedded in a mullion positioned at a side of the transom; And
And an exhaust module embedded in the mullion and disposed below the intake module.
The heat exchange module supplies the outside air introduced from the outside to the exhaust module, receives the inside sucked by the intake module and discharges the outside to the outside, and performs heat exchange between outside and inside, but does not mix the outside and inside. Ventilation device for windows and doors, characterized in that the heat exchange. The method according to claim 1 or 2,
The heat exchange module includes a heat exchange element for heat exchange between the inside and the outside air,
The outside air is introduced into the heat exchange module and before the flow into the heat exchange element before the flow through the filter for the outside air, characterized in that the ventilation device for windows and doors. The method of claim 3,
The bet is introduced into the heat exchange module and before the flow into the heat exchange element before the flow through the filter for betting characterized in that the ventilation device for the windows and doors. The method according to claim 1 or 2,
The exhaust module is a ventilation device for a window, characterized in that for discharging the outside air, a plurality of outdoor air outlets arranged along the longitudinal direction of the exhaust module. The method of claim 5,
The mullion has an opening for communicating with the outside air outlet of the exhaust module is formed for opening the outside air discharged from the outside air outlet to the room is formed. The method according to claim 1 or 2,
The intake module is a ventilation device for a window and door, characterized in that it comprises a plurality of intake suction ports arranged along the longitudinal direction of the intake module for the intake of the bet. The method of claim 7, wherein
The mullion is formed in communication with the bet inlet of the intake module, ventilator for a window, characterized in that the opening is formed to be supplied to the bet inlet of the suction module.

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