KR20040027811A - Anion generating device utilizing perforated panel and indoor air purifying system using the same - Google Patents

Abstract

PURPOSE: An anion generating device utilizing a perforated panel and an indoor air purifying system using the same are provided to save energy by more than 30% by minimizing the quantity of outdoor air intake and reducing cooling and heating loads and enhance the quality of indoor air by supplying a super clean air indoors. CONSTITUTION: The anion generating device(19) comprises: a one stage filtering unit(vinyl chloride net filter(3)), a first perforated panel(5), a fusion cut type nozzle(6), a film type nozzle(7), a second perforated panel(9), a four stage filtering unit(10), a water filtering unit(11), a water tank(12) and a pump(2). The mixture air of an indoor contaminated air and an outdoor air passes through the anion generating device(19) by a circulating blower to be made into a super clean air(18).

Description

Anion generator using porous plate and indoor air purification system using same

The present invention relates to an anion generator using a porous plate and an indoor air purification system using the same.

In more detail, by supplying contaminants generated in the outside air or indoors into the apparatus by a circulating blower, dust of 10 microns or more is removed while passing through a one-stage filtration process, and contaminated air of 5 macros or less is pressurized by 2KG / Cm2g water pressure or more. The water pump collides with the primary perforated plate and the contaminated air through the tapered nozzle, and ultra-small droplets of 0.0001 microns to 0.5 microns collect and drop harmful substances contained in the contaminated air. Dropped hazardous substances are sterilized by a filtering device in the water tank and recycled or drained.

The water tank filtration system is composed of copper mesh and charcoal, and sterilization lamps can be additionally installed depending on the air pollution.

The air passed through the second stage is split by the droplets sprayed from the water film-type nozzle on the secondary porous plate, and the atomized droplets create clean air during the three-stage filtration process. Neutralization of cations through the four-step filtration process, the copper net, and ultra-clean air containing more than 30-400,000 anions during the passage of charcoal to improve indoor air quality.

The conventional technology, which is usually installed and operated, mainly uses a simple method of spraying water to polluted air in a wet air conditioner, and the collection efficiency is shown to be 50 to 60% or less, and an eliminator is used to prevent scattering. The installation focuses on air filtration and humidification rather than anion supply.

The present invention is to provide a negative ion generating device using a porous plate and an indoor air purification system using the improved further to solve the above problems.

Another object of the present invention is to introduce the outside air into the room, and to exhaust the outside of the indoor polluted air 10% of the indoor air and the indoor pollutants passed through the four-step filtration process anion and ultra-clean air and naturally generated humidification function In order to improve the air quality of the room.

Another object of the present invention is to save energy of 30%. In general air-conditioning system, air intake is usually determined according to the amount of carbon dioxide generated indoors, but in general, more than 30% of air intake is required. Cooling and heating calories are determined according to the amount of outside air.

By introducing this device, the carbon dioxide removal effect is 70% or more, so the outside air volume can be reduced to 10% or less. In addition, by applying to the animal air-conditioning system, by removing more than 95% of the ammonia odor generated in the room, by minimizing the amount of outside air, energy saving effect is great. The existing method adopts the external and external method.

Another object of the present invention, by connecting a plurality of the device in series to be installed according to the application to be applied to a variety of applications.

Applicability It provides general and clean room air conditioning, semiconductor manufacturing process, animal breeding room air conditioning system, and fragrance air conditioning system.

1 is an anion generator using a porous plate according to the present invention

2 is a room air purification system using the same according to the present invention.

3 is a room air purification system by installing a plurality of negative ion generating apparatus according to the present invention

4 is a device in which a plurality of heat exchangers are installed in the anion generator according to the present invention.

Of symbols for the main parts of the drawings

1. Circulating blower 2. Pump 3. Polluted air

4. PVC filter 5. Primary porous plate 6. Carpet type nozzle

7. Water film type nozzle 9. Secondary porous plate 10. Four stage filtration system

11. Water tank 12. Water filtration system. 13. Heat exchanger

14.Air supply blower 15. Indoor air 16. Outdoor air

17. Indoor 18. Ultra-clean air 19. Device (Anion device using porous plate)

The above objects and features of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

The above and other objects and features of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

Accompanying drawings Figure 1 shows a specific embodiment of the negative ion generating device using a porous plate according to the present invention, Figure 1 is an exemplary view showing the device state of the present invention, Figure 2 is an illustration showing an indoor air purification device using the present invention It is also.

Anion generator using the porous plate according to the present invention is a one-step filtration device (vinyl chloride network filter (3)) and the primary porous plate (5), fusion nozzle (6), water film type nozzle as illustrated in FIG. (7), the second porous plate 9, the four-stage filtration device 10, the water filtration device 11, the water tank 12, the pump (2) and the like was formed large.

Indoor air purification system using the same according to the present invention as illustrated in FIG. 2 by mixing the indoor air (17) polluted air 15 and the outside air 16, the negative ion generator using a porous plate by the circulation blower ( 19) The ultra-clean air 18 was formed at a temperature required by the room 17 through the heat exchanger 13, and was formed into a structure that is supplied to the room 17 by the air supply blower 14.

As illustrated in FIG. 3 according to the present invention, a plurality of circulation blowers 1 and 19 are installed (n + 1), a heat exchanger 13, an air supply blower 14, and the like.

As illustrated in FIG. 4 according to the present invention, the circulation blower 1 and the device 19, the heat exchanger 13, and a plurality of installations (n + 1) and the air supply blower 14 were configured.

Hereinafter will be described the operational relationship of the present invention.

The description of the operation according to the invention allows the water pressure to be 2Kg / Cm2g by operating the pump 2.

The air supply blower 14 is operated to mix the contaminated indoor air 15 and the outdoor air 16 to be introduced into the apparatus 19. The introduced polluted air (3) is passed through a one-step filtration process, dust of 10 microns or more is filtered out, and water droplets sprayed from the carpet nozzle (6) collide with the primary porous plate (5). It collides with 3) and filters more than 80% of contaminants. In addition, the air passed through the two-step process is sprayed from the water film-type nozzle (7) is impinged on the secondary porous plate (9) is subjected to the re-filtration process again divided into fine water droplets to create a clean air (18). The clean air 18 is ultra-clean air 18 while undergoing a four-step filtration (10) process. At this time, the ultra-clean air 18 containing 30 to 400,000 negative ions of negative ions is air that satisfies the conditions of the room 17 while passing through the heat exchanger 13 is supplied to the room 17 by the air supply blower 14. Therefore, to improve the air quality of the indoor (17).

As described above, by applying the negative ion generating device using the perforated plate and the indoor air purification system using the same to the air conditioning apparatus, the amount of outside air is minimized and the cooling and heating loads are reduced. By supplying, it is effective to improve the quality of the room.

Claims (4)

First stage filtration device (vinyl chloride filter (3)) and primary porous plate (5), fusion nozzle (6), water film nozzle (7), secondary porous plate (9), four stage filtration device (10 ), Anion generating device characterized in that the device consisting of a water filtration device (11), a water tank (12), a pump (2). The air mixed with the indoor polluted air 15 and the outdoor air 16 passes through the negative ion generating device 19 using the porous plate by the circulation blower 1 and is made of ultra-clean air 18. The invitation air (18) is passed through a heat exchanger (13) is made to the temperature required by the room (17), the indoor air purification system characterized in that it is supplied to the room (17) by the air supply blower (14). Indoor air purifying system characterized by installing a plurality of circulation blowers 1 and an apparatus (anion generating device using a porous plate) 19 (n + 1), a heat exchanger 13, an air supply blower 14, and the like. First stage filtration device (vinyl chloride filter (3)) and primary porous plate (5), fusion nozzle (6), water film nozzle (7), secondary porous plate (9), four stage filtration device (10 ), An indoor air purifying system characterized by a water filtration device (11), a water tank (12), a pump (2), a heat exchanger (13) alone or a heat exchanger (13) consisting of a plurality of (n + 1).