KR20070121074A - A ventilation contrivance - Google Patents

Abstract

A ventilation system improved in the heat exchange efficiency is provided to increase energy efficiency by recovering waste heat and to improve purity of indoor air by automatically blocking entering of outdoor air and circulating sterilized or purified indoor air. A ventilation system improved in the heat exchange efficiency includes dampers(11,61) mounted to an outdoor air inlet(1) and an indoor air outlet(6) for opening or closing them, a barrier wall(7) for blocking the outdoor air inlet and the indoor air outlet from each other and formed with a ventilation hole(71) where a bypass damper(8) for opening or closing the ventilation hole(71) is mounted.

Description

Ventilation system with improved heat exchange efficiency {A ventilation contrivance}

1 is a schematic view of a schematic building installed with an improved heat exchange efficiency according to an embodiment of the present invention

Figure 2 is a schematic perspective view of an improved ventilation efficiency of the heat separation efficiency is separated cover and the side plate according to an embodiment of the present invention

Figure 3 is a plan view showing one embodiment of the bypass damper

Figure 4 is a cross-sectional view showing an embodiment of the sterilization unit

Explanation of symbols on the main parts of the drawings

1. Outdoor air intake 2. Heat exchanger 3. Sterilization unit

4. Outdoor air supply 5. Indoor air intake 6. Outdoor air exhaust

7. Damper 11, 61 damper 8. Bypass damper

The present invention relates to a ventilator having an improved heat exchange efficiency, and more specifically, to a ventilator which is discarded from the inside to the outside during the operation of the total heat exchanger of the ventilator installed with the total heat exchanger having an exchange efficiency of more than 70%. It is possible to recover 100% of waste heat, which prevents energy waste, improves thermal efficiency, and automatically blocks the intake of outside air to remove indoor air sterilization, remove indoor odors and fine dust, and maintain clean air in the room. The present invention relates to a ventilator with improved heat exchange efficiency.

In general, the Western-style building structure has a high degree of airtightness and thus does not provide ventilation and exhaust at all, so the Western building structure has developed a ventilation structure, but the domestic building structure is focused only on achieving low building costs and housing supply. As a result, the necessary and important ventilation structure is insufficient, and even though there is a ventilation structure, there is a problem that the heat loss is large because the ventilation is performed by discharging indoor air as it is. In a report published in the September 2000 issue of the Journal of the World Health Organization, the number of deaths from air pollution will reach up to 6 million, with 2.8 million deaths from indoor air pollution. In addition, indoor air pollution has been pointed out as one of the leading causes of infant death. The US Environmental Protection Agency report and the American Allergy Society report show that a significant proportion of all diseases are caused by contaminated indoor air, highlighting the need to develop environmental treatment technologies that can effectively remove contaminants. . The air supplied to the room through the ventilation device contains a contaminant including alt virus or bacteria, but there is a problem that it is not easy to remove the contaminant. In addition, the World Health Organization and the US Centers for Disease Control have warned that there is a high likelihood of a worldwide virus epidemic, and the signs of this disaster are already seen in avian influenza and SARS. However, there is a problem that a ventilation device for removing such a virus has not been proposed to date. In addition, the use of activated carbon deodorization filter made of activated carbon for the deodorization of the air flowing into the room, but there was a problem that the deodorizing performance and durability is not good and can not sterilize microorganisms such as harmful viruses or bacteria contained in the air. In order to solve this problem, the present applicant has proposed a sterilizing ventilation device named 'ventilation device' as Republic of Korea Patent Application No. 2005-107596, but the ventilation device of the patent is discarded from indoor to outdoor when the heat exchanger is operated. Since waste heat can be recovered only by the total heat exchange including latent heat and sensible heat through the heat exchange membrane of the total heat exchanger, there is a problem that there is no way to recover the energy that is thrown away outdoors. In order to save energy and difficulty, there is an urgent need for saving energy as well as ventilation.

An object of the present invention is to solve such a problem, to improve the thermal efficiency by preventing the waste of energy by recovering 100% of the waste heat discarded from the indoor to the outdoor during heat exchange ventilation in the heat exchanger during operation of the heat exchanger in the ventilation system In addition, by automatically blocking the intake of external air, the sterilized or purified air self-circulates, thereby eliminating indoor air sterilization and removing various odors and removing fine dust to improve the cleanliness of clean indoor air. It is to provide a ventilator with improved heat exchange efficiency that can be improved.

This object of the present invention is installed in the middle of the outdoor air intake and the outdoor air intake air sucked from the outdoor air intake, and the latent heat (heat of moisture to be heated or cooled as the outdoor air or indoor air passes through) A heat exchanger for exchanging heat quantity) and sensible heat (heat quantity of gas in the air), an ultraviolet lamp installed between the outdoor air intake vent and the heat exchanger and arranged in a zigzag array, and filled in a space around the ultraviolet lamp and laminated In the ventilator comprising a sterilization unit provided with nanochips and net-shaped nanotubes, an indoor air suction port for indoor air suction, and an indoor air exhaust port for discharging indoor air sucked into the indoor air suction port, the outdoor air Intake and indoor air exhausts are provided with a damper that can be opened and closed between the outdoor air intake and the indoor air exhaust. So as to transverse that blocking walls is formed with a vent hole of the vent blocking wall is achieved by the heat exchange efficiency is improved ventilation device according to the invention to be opened and closed by the bypass damper.

Ventilation device with improved heat exchange efficiency according to an embodiment of the present invention will be more clearly understood by the embodiments described in detail below with reference to the accompanying drawings.

Ventilation device (A) is improved heat efficiency according to an embodiment of the present invention, as shown in Figure 1, is typically installed on the ceiling of the building, the ventilation device (A) is a ventilation opening of the living room or room through the duct Until the connection is installed.

Ventilation device (A) is improved heat exchange efficiency according to an embodiment of the present invention, as shown in Figure 2, the outdoor air intake (1) and the outdoor air intake (1) and the outdoor air is sucked on one side An electric heat exchanger (2) installed in the middle of passing the sucked air and exchanging latent heat (heat of moisture) and sensible heat (heat of gas in the air) to be heated or cooled while passing the outdoor air or indoor air; A sterilization unit installed between the outdoor air intake 1 and the heat exchanger 2 and filled with zigzag ultraviolet lamps and spaces around the ultraviolet lamps, and having laminate-coated nanochips and reticulated nanotubes ( 3), the outdoor air air supply unit 4 through which the outdoor air is supplied into the room, the indoor air intake port 5 through which the indoor air is sucked, and the indoor air through which the indoor air sucked through the indoor air intake port 5 is discharged. The exhaust port 6, and the seal The air intake port 1 and the indoor air exhaust port 6 are provided with openable dampers 11 and 61, and a blocking wall 7 intersecting to block between the outdoor air intake port 1 and the indoor air exhaust port 6. A vent hole 71 is formed on the vent hole 71, and the vent hole 71 of the blocking wall 7 is opened and closed by the bypass damper 8.

The air supply fan 41 is attached to the outdoor air air supply unit 4 to suck outdoor air or indoor air that is circulated forcibly. Arrows in FIG. 2 show the flow of air.

The heat exchanger (2) is installed at the intermediate point where the passage of the outdoor air into the room and the passage of the indoor air to the outside is formed of pulp paper which is commonly used. Such a heat exchanger does not mix indoor and outdoor air, but because it has moisture permeability, a total heat exchange is performed including latent heat and sensible heat through a heat exchange membrane, and the configuration of such a heat exchanger will be known.

As shown in Fig. 4, the sterilization part 3 is installed in the outdoor air supply part 4 immediately before the outdoor air passes through the heat exchanger 2 and is supplied to the room. The sterilization unit 3 is an air inlet 31 through which the outdoor air passing through the heat exchanger 2 is introduced, and the air sucked through the air inlet 31 is sterilized and purified through UV irradiation and a photocatalytic reaction. In addition to the ultraviolet lamp 32 and the ultraviolet lamp 32 arranged in a zig-zag on the air flow and the nanochip 33 is filled and installed at predetermined intervals separately, the section in which the ultraviolet lamp 32 and the nanochip 33 is installed An air outlet 34 through which sterilized and purified air passed through is discharged. The ultraviolet lamp 32 is embedded in a quartz tube, and the ultraviolet lamp 32 is selectively selectable to emit radiation intensities such as near ultraviolet light, mid ultraviolet light, and far ultraviolet light.

The nanochip 33 is installed so as to maximize the sterilization efficiency of the air by the ultraviolet radiation of the ultraviolet lamp 32. In particular, when the nanochip 33 is irradiated with ultraviolet light from the ultraviolet lamp 32, the harmful substance in the air is decomposed by the photocatalytic reaction and odors can be removed so that one of the nano silver and the photocatalyst, TiO2 or ZnO, is used. It is laminated and coated with TiO 2 in this example. The photocatalytic reaction generated through the nanochips 33 generates electrons and holes on the surface while absorbing ultraviolet rays when light such as ultraviolet rays is irradiated with ultrafine titanium dioxide having an anatase crystal structure, and these electrons and holes are most harmful. It means a reaction that breaks down a substance. When the titanium dioxide of the nanochip 33 receives ultraviolet rays such as sunlight or fluorescent lamps, it is ionized to form electrons with -electrons and holes with + electrons, as in the principle of solar cells. It is used in the present invention by using the property of having a strong oxidizing power to form a hydroxide.

In addition, similar to the nanochip 33, the surface of the nanotube 34 containing the nanochip 33 is laminated with one of nanosilver and photocatalyst, TiO2 or ZnO, and in this embodiment, TiO2. Coated with.

As described above, in the sterilization part 3 of the present invention, the outdoor air sucked by the nanochip 33, the nanotubes 34, and the ultraviolet lamp 32 is sterilized by the ultraviolet lamp 32 and the ultraviolet light is used as a light source. Hydroxide is formed by the photocatalytic reaction between the nanochip 33 and the nanotubes 34 so that the sterilizing function can be exerted by the strong oxidizing power.

The damper (11) (61) for opening and closing the outdoor air intake (1) and the indoor air exhaust (6) and the blocking wall (7) intersecting between the outdoor air intake (1) and the indoor air exhaust (6) Since the bypass damper 8 for opening and closing the vent 71 is the same, only the configuration of the bypass damper 8 will be described below, and the bypass damper 8 will also be known.

As shown in FIG. 3, the bypass damper 8 includes a worm gear 82 installed at the shaft end of the drive motor 81, and a worm wheel 83 meshed with the worm gear 82. Connecting rod 84 is hinged on the central axis of the 83, the blocking plate 85 is coupled to the end of the connecting rod 84, the blocking plate 85 is moved along the guide rail 86 to block It is the structure which opens and closes the vent 71 of the wall 7.

Effects of the ventilation device A having improved heat exchange efficiency according to the present invention having such a configuration will be described below.

When the ventilator (A) according to the present invention is operated to ventilate the air in the summer, fresh hot air (32 ° C.) is introduced into the ventilator (A) in the normal case in which the sterilization cleaning function is turned off. The hot air enters the air inlet 31 of the sterilization unit 3 and passes through a group of ultraviolet lamps 32 arranged in a zigzag and sterilized, and the nanochip 33 and the nanotubes 34 installed between the ultraviolet lamps 32. ) Is irradiated with ultraviolet rays (hv: 253.nm) and nanoparticles stimulated by light energy are ionized into electrons and holes beyond the energy band (Eg), and ionized electrons are water molecules with polarity in the air. It generates a large amount of hydroxyl radicals (OH-), and these hydroxyl radicals are hydroxy radicals having an oxidizing power of 2.80, which is excellent for disinfecting and disinfecting harmful chemicals. now It will be supplied to the room in a depleted state. When the outdoor air supplied with sterilization and harmful substances removed in this way is cooled to about 25 ° C. while being heat exchanged in the total heat exchanger (2) while passing through the total heat exchanger (2), and the fresh air thus cooled is supplied to the room. The heat exchanger (2) is deprived of warmth, so that about 7 ℃ is supplied in a cooled state to save energy to cool and sterilized and fresh air is supplied to the room. In addition, the air that stayed in the room passes through the heat exchanger (2) installed in the middle of the passage that is discharged and discharged through the indoor air inlet (5) while maintaining the room temperature at 20 ℃, the cold air is the preheater (2) If the indoor air is cooled through the ventilator, and the cooled indoor air is discharged through the indoor air exhaust (6), the indoor air is discharged in a cooled state, the waste heat that is discarded to the outside as the cooled air is discharged This occurs, so that much energy is lost.

However, when the sterilization and cleaning function is selected in the ventilator of the present invention, the air flowing into the room is already sterilized by the sterilization unit 3 and the harmful chemicals are decomposed. Or pathogens will not be included.

That is, in the case of selecting the sterilization cleaning function, the ventilation device (A) according to the present invention under the sterilization ceiling function, the indoor air vent 6 is closed by the damper 61 is operated and also of the outdoor air intake 1 The damper 11 is operated and closed, and the bypass damper 8 which blocks the air vent 71 of the blocking wall 7 is operated to open the air vent 71, and the air supply fan is provided on the outdoor air air supply unit 4. Since 41 is attached and is forcibly operated to suck outdoor air, the indoor air is continuously circulated in the room without being exchanged with the outdoor air. That is, since the indoor air exhaust port 6 is closed by the damper 61, the indoor air discharged through the indoor air intake port 5 is introduced into the outdoor air intake port 1 through the vent 71 to be sterilized. 3) The indoor air introduced in this way is sterilized by the sterilization unit 3 while the sterilization unit 3 is operated and enters the air inlet 31 of the sterilization unit 3 and passes through a group of ultraviolet lamps 32 arranged in a zigzag. The nanochips 33 and the nanotubes 34 installed between the lamps 32 are irradiated with ultraviolet rays (hv: 253.nm), and the nanoparticles stimulated by the light energy jump over the energy band (Eg) to electrons and holes. Ionized and ionized electrons stimulate water molecules with polarity in the air to produce large amounts of hydroxyl radicals (OH-), which are hydroxyl radicals with an oxidizing power of 2.80. Excellent decomposition effect of chemicals Since the indoor air to be circulated is to be supplied to the room to be circulated in the sterilization and hazardous materials removed. As described above, the actual air circulated in the state where sterilization and harmful substances have been removed is passed through the heat exchanger (2) and heat exchanged in the heat exchanger (2) and maintained at about 20 ° C. Since it is maintained and supplied to the room again, energy is saved and sterilized and fresh air continues to be circulated.

As described above, the ventilation device having improved heat exchange efficiency according to the present invention is installed in the middle of the outdoor air intake port through which the outdoor air is sucked and the air sucked from the outdoor air intake port is passed through the outdoor air or the indoor air. An electric heat exchanger that exchanges latent heat and sensible heat to be heated or cooled, and is installed between the outdoor air intake and the heat exchanger, and is arranged in a zigzag ultraviolet lamp and a space around the ultraviolet lamp and laminated with a nanochip and a net type. Of sterilization unit equipped with nanotubes, an outdoor air air supply unit for supplying outdoor air to the room, an indoor air intake port through which indoor air is sucked, and an indoor air exhaust port through which indoor air sucked through the indoor air intake port is discharged The outdoor air intake and the indoor air exhaust are provided with a damper that can be opened and closed, the outdoor air intake An air vent is formed on the blocking wall intersecting the sphere and the indoor air exhaust port, and the air vent of the blocking wall is opened and closed by a bypass damper. Recovers 100% of waste heat, prevents energy waste, improves thermal efficiency, automatically blocks external air intake, and automatically circulates sterilized or purified air, eliminating indoor air sterilization and various indoor odors. It is possible to improve the cleanliness of the clean indoor air by removing the effect to promote the health of indoor residents.

Claims (1)

Outdoor air intake (1) in which the outdoor air is sucked on one side, and the air sucked in the outdoor air intake (1) is installed in the middle of passing through the latent heat to heat or cool as the outdoor air or indoor air passes through A heat exchanger (2) for exchanging the amount of heat) and the sensible heat (the amount of gas in the air), between the outdoor air intake port (1) and the heat exchanger (2), and arranged in a zigzag arrangement of the ultraviolet lamp and the ultraviolet lamp. Sterilization unit (3), which is filled in the surrounding space and laminated nanochips and net-shaped nanotubes, outdoor air supply unit (4) where the outdoor air is supplied to the room, and indoor air that is sucked indoor air In the ventilator comprising a suction port (5) and the indoor air exhaust port (6) through which the indoor air sucked into the indoor air suction port (5) is discharged, The outdoor air intake vent 1 and the indoor air exhaust vent 6 are provided with openable dampers 11 and 61, and a barrier wall intersecting the wall between the outdoor air intake vent 1 and the indoor air exhaust vent 6. An air vent 71 is formed on (7), and the air vent 71 of the blocking wall 7 is opened and closed by a bypass damper 8, and an air supply fan 41 is attached on the outdoor air air supply unit 4. Heat exchange efficiency improved ventilation device characterized in that the forced suction of outdoor air or circulated indoor air

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