RU2540874C2 - Ventilation device of hybrid type for windows - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: this invention relates to a ventilation device of a hybrid type for windows. It includes the following: a heat exchange unit installed on a window frame; and a part for hybrid ventilation, which is provided in the heat exchange unit to implement a natural ventilation mode and an enthalpy heat exchange mode; with that, it includes the following: a bypass channel; a damper that opens and closes the bypass channel or the heat exchange unit; an actuating device and a control unit; the heat exchange unit includes the following: a receiving box; an air fan for closed rooms; an ambient air fan; and a heat exchange device located in a central section of the box; an inlet channel for ambient air is provided on one side of the box; an outlet channel for air of closed rooms is provided on the other side of the box and an ambient air outlet channel for outlet of ambient air is provided on one end of the box to be perpendicular to the outlet channel for air of closed rooms; additionally, the device includes an air filter of closed rooms, which is provided in the box for cleaning of air of closed rooms before air of closed rooms passes through the heat exchange device.

EFFECT: invention allows creating a ventilation device of a hybrid type for windows, which can operate selectively in one of the modes: a natural ventilation mode and an enthalpy heat exchange mode.

6 cl, 7 dwg

Description

The present invention relates to a ventilation device and, in particular, to a hybrid type of ventilation device for windows, which has a heat exchange unit for discharging indoor air into the external space and introducing external air into the indoor space.

Recently, awareness of the importance of the environment in enclosed spaces and air quality has increased due to the increased time spent indoors and the tendency of buildings to be close to each other. In residential buildings such as apartments and offices, when tall buildings are close to each other, there is a difficulty in opening windows due to worries about spoiled outside air. Therefore, deterioration in indoor air quality is unavoidable unless a separate ventilation means is implemented.

An air purifier for indoor air purification containing various pollutants such as exhaust gas and fine dust was developed and sold as one of the traditional ventilation means. However, the air purifier functions to purify the contaminated indoor air introduced through a window or the like, and then the cleaned air simply circulates in the room, while blocking the flow of fresh outdoor air. Thus, there is doubt about the effectiveness of the air purifier.

To solve this problem, Korean Patent Laid-open No. 10-2008-89001 (hereinafter referred to as the "first link") proposed a window-type ventilation device. The window-type ventilation device disclosed in the first link is located in the center of the window and door frame, and also includes a cross-flow fan and a heat exchanger. A cross-flow fan operates to introduce outside air through the upper portion of the centerpiece into the space of enclosed spaces, and also to discharge the air of enclosed spaces through the lower portion of the centerpiece into the space outside. The heat exchanger contains a heat exchange medium, such as ethylene glycol and glycerol glycol, and extends along the expansion direction of the core. The heat exchange between the introduced air and the exhaust air is carried out by reciprocating up and down heat transfer medium.

In addition, in order to solve the aforementioned problem, a window equipped with a ventilation device is proposed in Korean Patent Laid-open No. 10-2004-75686 (hereinafter referred to as the "second link"). A window equipped with a ventilation device and described in the second link includes a box, which is located in the transom of the window frame. The box includes a first fan that releases indoor air into the outside; a second fan that introduces outside air into the space of enclosed spaces; a partition that prevents mixing with each other of the external air introduced from the external space and the air of the enclosed space released into the external space; and a heat exchanger that carries out heat exchange between the outdoor air and the air of enclosed spaces. The heat exchanger includes a plate-type heat exchanger and a plate-type heat exchanger in which a plurality of plates are arranged one above the other.

Typically, a window-type ventilation device operates only in enthalpy heat transfer mode. Therefore, there is a need to develop a new window type of ventilation device, which can be changed to natural ventilation.

The objective of the present invention is to create a hybrid type of ventilation device for windows, which can selectively operate in one of the modes: natural ventilation mode and enthalpy heat transfer mode.

To achieve this objective, the present invention proposes a hybrid type of ventilation device for windows, including a heat exchange unit that is mounted on a window frame in order to exchange heat between the outdoor air and indoor air, and a part for hybrid ventilation, which is made in a heat exchange unit in order to selectively perform the natural ventilation mode and the enthalpy heat transfer mode.

Preferably, the heat exchange unit includes a receiving box; a fan for indoor air, which is located on one side of the box, in order to enter the air of enclosed spaces discharged into the outer space into the box, and also to let out air of enclosed spaces from the box to the window frame; a fan for external air, which is located on the other side of the box in order to let in the outside air from the window frame into the box, and also to let out outside air from the box into the outside behind the box; and a heat exchange device, which is made in the Central section of the box in order to carry out heat exchange between the air of enclosed spaces and the outside air.

Preferably, an inlet channel for external air is provided on one side of the box through which external air is introduced.

Preferably, on the other side of the box, an exhaust duct is provided for indoor air through which the air of the indoor is discharged.

Preferably, the outdoor air outlet for discharging outdoor air is provided at one end of the box so as to be perpendicular to the air outlet of enclosed spaces.

Preferably, the air inlet of the enclosed spaces through which the air of the enclosed spaces is introduced into the box is formed on the inner surface of the box.

Preferably, the heat exchanger includes a first heat exchanger that initially exchanges heat between the indoor air and the outside air, and a second heat exchanger that additionally exchanges heat between the indoor air and the outside air passing through the first heat exchanger.

Preferably, the first and second heat exchangers are all heat exchangers of apparent heat, or enthalpy heat exchangers, or a combination of a heat exchanger and an enthalpy heat exchanger.

Preferably, the hybrid type ventilation device further includes an outside air filter that is provided in a box so as to purify the outside air before the outside air passes through the heat exchanger.

Preferably, the hybrid type ventilation device further includes an indoor air filter which is provided in a box so as to purify indoor air before indoor air passes through the heat exchanger.

Preferably, the hybrid ventilation part includes a bypass channel that is formed on the left and right ends of the heat exchange unit, a damper that opens and closes the bypass channel, and drive means for actuating the damper.

Preferably, the drive means is a solenoid or drive.

Preferably, the hybrid type ventilation device further includes a control unit that controls the drive means.

Preferably, the control unit is electrically connected to the outdoor fan of the heat exchange unit.

In accordance with the hybrid type ventilation device for windows of the present invention, it is possible to select one of the modes: natural ventilation mode or enthalpy heat transfer mode, thereby modifying the functions of the ventilation device.

The above and other objects, features and advantages of the present invention will become apparent from the following description of preferred embodiments of the present invention, given together with the accompanying drawings, in which:

Figa is a schematic top view showing the natural ventilation mode of a hybrid type ventilation device for windows according to the present invention.

Fig. 1b is a schematic plan view showing an enthalpy heat transfer mode of a hybrid type ventilation apparatus for windows according to the present invention.

FIG. 2 is a perspective view of a heat exchange unit of a hybrid type ventilation device for windows of FIG. 1, in which the bottom surface of the heat exchange unit is removed.

FIG. 3 is a perspective view of a fan cover of the heat exchange unit of FIG. 2.

FIG. 4 is a partial sectional view, viewed from the upper side, after the heat exchange unit of FIG. 2 is cut out from the side.

5 and 6 are partial sectional views showing modified examples of the heat exchange unit of FIG. 4.

7 is a mimetic drawing showing the action of a damper of a hybrid type ventilation device for windows according to the present invention.

Detailed description of the main elements

210: heat transfer unit, 212: box

220: exhaust duct for outdoor air, 222: filter for outdoor air

224: indoor air filter, 226: first heat exchanger

228: second heat exchanger, 230: fan cover

236: indoor fan, 238 outdoor fan

300: control unit, 310: engine

320: damper; 330: bypass.

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The terms and words used in the description, as described below, are not limited to a typical definition or definition from a dictionary, and they can be interpreted as inherent meanings and definitions consistent with technical ideas.

Fig. 1a is a schematic top view showing a natural ventilation mode of a hybrid type ventilation apparatus for windows according to the present invention; Fig. 1b is a schematic top view showing a enthalpy heat exchange mode of a hybrid type ventilation apparatus for windows according to the present invention, and FIG. 2 is a perspective view of a heat exchange unit of a hybrid type ventilation device for windows of FIG. 1 a, in which the lower surface of the heat exchange th block is removed.

Next, FIG. 3 is a perspective view of a fan cover of the heat exchange unit of FIG. 2, FIG. 4 is a partial cross-sectional view, viewed from the upper side, after the heat exchange unit of FIG. 2 is cut out from the side, wherein FIG. 5 and 6 are partial sectional views showing modified examples of the heat exchange unit of FIG. 4.

In addition, FIG. 7 is a mimetic drawing showing the action of a damper of a hybrid type ventilation apparatus for windows according to the present invention.

As can be seen in FIG. 2, the heat exchange unit 210 includes a box 212, an outdoor air filter 222, an indoor air filter 224, a heat exchanger 226, 228, an indoor air fan 236 and a fan cover 230 that are respectively housed in box 212.

On the side surfaces of the box 212, an external air inlet channel 214 is provided for introducing external air into the box 212, an external air outlet channel 220 for discharging the external air input outside the box 212, and an indoor air outlet channel 218 for discharging indoor air to the outside boxes 212.

In addition, on the bottom surface of the box 212 there is an inlet 216 for indoor air (see FIGS. 4-6) for introducing the air of the closed rooms into the box 212 and a door (not shown) that opens / closes or is removable so that to easily replace the filter 222 for outdoor air, the filter 224 for indoor air and the heat exchanger 226.

Meanwhile, as can be seen in FIG. 1a, the heat exchange unit 210 has a part for hybrid ventilation.

In other words, the shutter 320 (FIG. 7), which receives a driving force from the drive means 310 and opens / closes the bypass channel 330 and will be described later, is made inside the inlet and outlet channels 214 and 220 for outdoor air. The drive means is located at an appropriate location in the heat exchange unit 210 so as to be adjacent to the shutter 320. In this case, the drive means may be a solenoid or a drive.

In addition, a bypass channel 330 is provided at the left and right ends of the heat exchange unit 210. In this case, the bypass channel 330 functions to bypass the outside air introduced through the inlet channel for the outside air 214 to the outside of the heat exchange unit 210, or to bypass the indoor air introduced into a box 212 outward from the heat exchange unit 210.

In addition, a separate switch (not shown) for selecting the natural ventilation mode or the enthalpy heat transfer mode is made at the appropriate location of the heat exchange unit 210. The switch is electrically connected to the control unit 300 (Fig. 7), so that the control unit 300 controls the drive means 310 in according to the operation of the switch. The control unit 300 is electrically connected to an outdoor fan 238.

Meanwhile, the outside air filter 222 is configured to clean the outside air introduced into the box 212. Therefore, the outdoor air filter 222 is positioned so as to purify the external air immediately after the external air is admitted to the box 212, or immediately before the external air is discharged out of the box 212.

However, if the outside air introduced into the box 212 passes directly through the heat exchanger 226, 228, then the heat exchanger 226, 228 may become clogged. Thus, it is preferable that the outdoor air filter 222 is positioned so as to purify the outdoor air immediately after the outdoor air is introduced into the box 212. In this case, as shown in FIG. 2, the outdoor air filter 222 located between the inlet channel 214 for outdoor air and the first heat exchanger 226.

The indoor air filter 224 is configured to clean the indoor air introduced into the box 212. If the indoor air introduced into the box 212 passes directly through the heat exchanger 226,228, then the heat exchanger 226, 228 may become clogged. Thus, it is necessary to implement a filter 224 for indoor air. The indoor air filter 224 is positioned so as to purify the indoor air immediately after the indoor air is introduced into the box 212. That is, the indoor air filter 224 is located between the indoor air inlet 216 and the first heat exchanger 226 .

The heat exchange device is designed for heat exchange or heat and moisture exchange between the air of enclosed spaces and the outside air introduced into the box 212. As shown in FIG. 2, the heat exchange device includes a first and second heat exchange device 226 and 228. In this case, the first and the second heat exchanger 226 and 228 are arranged so that indoor air and outside air do not mix in the box 212. In the case where two heat exchangers are in the box 212, the first and second heat exchanger oystvo 226 and 228 may be all the sensible heat heat exchange devices, or enthalpy heat exchange devices, or may be a combination of heat exchange devices and the enthalpy exchange device.

Preferably, in order to provide sufficient time for heat transfer, one of the 226 heat exchangers is made in a hexagonal rack. However, the present invention is not limited to this embodiment of the present invention. As shown in FIG. 5, all of the two heat exchangers can be made in square racks. In addition, the present invention is not limited to two heat exchangers. As shown in FIG. 6, the number of enthalpy heat exchangers may be equal to one or, if necessary, three or more.

An indoor air fan 236 is configured to introduce indoor air into the indoor air inlet 216 and then to exhaust the indoor air through the indoor air outlet 218 from the box 212. The outdoor air fan 238 is configured to introduce outside air through the inlet duct 214 for outside air into the box 212 and then release the outside air through the outlet duct 220 for outside air out of the box 212. Cover 230 of the fan otaet to close the air fan 236 and the indoor fan 238 for outside air. As shown in figure 3, the partition 232 is made on the cover 230 of the fan, in order to prevent mixing with each other of outdoor air and indoor air passing through the second heat exchange device 228.

Meanwhile, as shown in FIGS. 4-6, it is preferable that the guide leaf 227 is located on the lower surface of the box 212. The guide leaf 227 is located between the outdoor air filter 222 and the first heat exchanger 226 and between the first and second heat exchangers 226 and 228 so as to direct the flow of outdoor air and indoor air. In addition, the guide leaf 227, having the desired height, is made in the form of a rounded arch, which protrudes towards the side surface of the box 212.

In the heat exchange unit 210, as described above, when the indoor fan 226 and the outdoor fan 228 are operating, the outdoor air is introduced through the outdoor air inlet 214 into the box 212 and then introduced through the outdoor air filter 222 into the first heat exchanger 226, wherein indoor air is introduced through the indoor air inlet 216 into the box 212 and then introduced through the indoor air filter 224 into the first heat exchanger 226.

And then, after heat transfer of apparent heat or enthalpy heat transfer between the indoor air and the outdoor air in the first heat exchanger 226 without mixing between them, the indoor air and the outdoor air are introduced into the second heat exchanger 228. After heat transfer of the apparent heat or the enthalpy heat exchange between the indoor air and the outdoor air occurred in the second heat exchanger 226 without mixing between them, the indoor air and the outdoor air in 230 odyatsya fan cover. After that, the indoor air and the outside air pass through the fan 236 for indoor air and the fan 238 for outdoor air, while the indoor air is discharged through the exhaust duct 218 for indoor air to the outside of the box 212, and the outdoor air is exhausted through the exhaust duct 220 for outside air out of the box 212. In FIGS. 2 and 4-6, the outdoor air flow is indicated by a solid line arrow, the indoor air flow is indicated by an arrow of a dashed line.

Meanwhile, the present invention may further include a lid 9 (not shown) having a cross-sectional shape “” that closes the heat exchange unit 210. In this case, after the door (not shown) made on the bottom surface of the box 212 opens , filter 222 for outdoor air, filter 224 for indoor air and an enthalpy heat exchanger can be replaced.

The heat exchange unit 210 and the lid are located in the appropriate place in the centerpiece or transom of the window or door

When the natural ventilation mode is selected, as circumstances require, as shown in FIG. 1 a, the control unit 300 actuates the drive means 310 according to the operation of the switch, while the shutter 320 connected to the drive means 310 closes everything, the outdoor air inlet 214 and the exhaust channel 220 for outdoor air, and at the same time, the fan 238 for outdoor air is turned off. Since the entry of outdoor or indoor air into the heat exchange unit 210 is blocked, the natural ventilation mode operates through the bypass channel 330

Furthermore, when the enthalpy heat transfer mode is selected, as circumstances require, as shown in FIG. 1b, the control unit 300 drives the drive means 310 according to the operation of the switch, while the shutter 320 connected to the drive means 310 opens everything, the outdoor air inlet 214 and the outdoor air outlet 220, and at the same time a fan 238 for outside air is turned on, while the bypass channel 330 is blocked. Therefore, as described above, heat transfer of apparent heat or enthalpy heat transfer between the indoor air and the outdoor air is carried out in the first heat exchanger 226 without mixing between them, the indoor air and the outdoor air are introduced into the second heat exchanger 228. After heat transfer of the apparent heat or the enthalpy heat exchange between the indoor air and the outdoor air is carried out in the second heat exchanger 226 without mixing between them, the indoor air and the outdoor th air introduced into the fan cover 230. After that, the indoor air and the outside air pass through the indoor fan 236 and the outdoor fan 238, while the indoor air is discharged through the exhaust duct 218 for indoor air to the outside of the box 212, and the outdoor air is discharged through the exhaust duct 220 for outside air out of the box 212.

In accordance with the hybrid type ventilation device for windows of the present invention, it is possible to select one of the modes — natural ventilation mode and enthalpy heat transfer mode — thereby modifying the functions of the ventilation device.

Since the present invention has been described with respect to a specific embodiment of the invention, those skilled in the art will understand that various changes and modifications can be made without departing from the spirit and scope of the invention as defined in the following claims.

Claims (6)

1. A ventilation device of a hybrid type for windows, comprising:
a heat exchange unit mounted on the window frame with the possibility of heat exchange between the outdoor air and the air of enclosed spaces; and
a part for hybrid ventilation, which is made in a heat exchange unit for selectively implementing a natural ventilation mode and an enthalpy heat transfer mode, while the part for hybrid ventilation contains:
a bypass channel, which is made on the left and right ends of the heat exchange unit;
a damper that opens and closes the bypass channel or heat exchange unit;
drive means for actuating the shutter, and a control unit that controls the drive means, wherein
the drive means is a solenoid or actuator, wherein
the heat exchange unit contains:
receiving box;
a fan for indoor air located on one side of the box for introducing indoor air into the box, and also for letting it out of the box to the window frame;
a fan for external air located on the other side of the box for introducing outside air from the window into the box, as well as its release from the box into the outer space of the box; and
a heat exchanger located on the central section of the box for exchanging heat between indoor air and outdoor air, wherein
an inlet channel for outdoor air through which outside air is introduced is provided on one side of the box, an outlet channel for indoor air through which air of closed rooms is discharged is made on the other side of the box, and an outlet channel for outdoor air for discharging outside air is made on one the end of the box, in order to be perpendicular to the exhaust channel for indoor air, while the hybrid type ventilation device further comprises a filter for closed air omescheny which is adapted in the box for cleaning indoor air before the indoor air passes through the heat exchanger. 2. The hybrid type ventilation device according to claim 1, wherein the inlet for indoor air through which the indoor air is introduced into the box is formed on the inside of the box. 3. The ventilation device of the hybrid type according to claim 1, in which the heat exchange device comprises:
a first heat exchange device that initially carries out heat exchange between indoor air and outdoor air; and
a second heat exchange device, which additionally carries out heat exchange between the air of the enclosed spaces and the outside air passing through the first heat exchange device. 4. The hybrid type ventilation device according to claim 3, wherein the first and second heat exchange devices are all heat exchangers of apparent heat, or enthalpy heat exchangers, or a combination of a heat exchanger and an enthalpy heat exchanger. 5. The hybrid type ventilation device according to claim 1, further comprising a filter for outdoor air that is provided in a box for purifying the outdoor air before the outside air passes through the heat exchange device. 6. The hybrid type ventilation device according to claim 1, wherein the control unit is electrically connected to a fan for external air of the heat exchange unit.

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