KR200349932Y1 - Portable Air Filtration System Using the Zeolite Filter - Google Patents

Abstract

The present invention relates to a removable hood for an air purifier, and includes a filter system consisting of a pretreatment filter and a porous zeolite filter and a filtration unit composed of a blower, a chemical sensor and an alarm device for detecting contaminants in filtered air, and a blow fan speed monitoring. Velocity Monitoring System, control over speed and blow fan malfunctions, control unit with air purge selector, local intake arm and manual damper, local air intake with round hood shade, air intake and electric damper It consists of indoor air suction part and mobile cart part to completely remove gaseous contaminants (harmful gas and odor, etc.) generated at local parts of laboratory and laboratory, and to clean indoor air containing gaseous contaminants. It is characterized by.

Description

Portable Air Filtration System Using the Zeolite Filter}

The present invention relates to a removable hood for an air purifier that removes gaseous contaminants (harmful gases and odors, etc.) generated when handling hazardous materials in laboratories and laboratories. Filter system 110 composed of a pretreatment filter and a porous zeolite filter by a blower 120 formed inside the movable hood by constructing a local suction arm provided with three joints 330 to allow air to be sucked in. It is filtered while passing through, and the filtered air is exhausted into the room through the air outlet 510. In addition, the air inlet 410 is formed on the front side of the movable hood, and the electric damper device 420 is provided therein, so that contaminated indoor air is sucked in and passed through the filter system 110 by the blower 120 inside the movable hood. The filtered and purified clean air is exhausted into the room through the air outlet 510 to purify the indoor air.

There is no example of using a removable hood equipped with a filter in the laboratory and the laboratory as the present invention, and a height-adjustable canopy hood or a local suction on the ceiling without a separate filtration device to remove harmful air generated at a local site. It installs lava and connects exhaust duct to force out harmful air. This method has the disadvantage that the local suction device is fixedly installed and cannot be moved. Since the gaseous pollutants are discharged to the atmosphere without filtration, air pollution problems are caused, and the exhaust line is very long. Since power consumption and noise are relatively high, and indoor air is forced to the outside, air conditioning and heating are lost.

In addition, in some laboratories and laboratories, air purifiers are used to purify the internal air, but most of the current air purifiers use hepa filter (HEPA Filte-particle filter) to measure particulate contaminants of 0.3 micrometer or more. Since it is intended to filter bays, it cannot be used to filter gaseous (gas) contaminants caused by chemicals mainly handled in laboratories and laboratories such as organic solvents, acids and carcinogens.

The present invention is to solve the problems of the conventional exhaust type local suction device and the problem of the purification of air containing gaseous contaminants, and completely eliminate the gaseous contaminants generated through the porous zeolite filter By removing and allowing clean air to be recycled to the room, it protects the user from gaseous pollutants and prevents the pollutants from being released to the air. In addition, by applying a porous zeolite filter that is recycled through the reprocessing process to prevent secondary environmental pollution caused by the disposal of the filter.

In order to achieve the above object, the present invention provides an air purifier and a removable hood for filtering gaseous contaminants, and a porous zeolite filter system 110 and a blowing fan 120 having high efficiency to completely remove gaseous contaminants. Local suction with three joints 330, a manual damper device 320, and a circular hood shade 310 to smoothly suck harmful air generated at the localized site An indoor air intake unit consisting of a local suction unit 300 formed of lava, and an electric damper device 420 for forming an air intake port 410 for sucking indoor air for use as an air purifier, and for opening and closing an indoor air intake port. 400 is provided to select and use the local suction function and air purification function. In addition, the removable cart 600 is formed at the bottom to move freely to use.

The present invention also provides a Velocity Monitoring System 220 that monitors the speed of the blower fan 120 in real time for the safety of a removable hood for an air purifier, and provides an alarm when the blower fan is not operating at an appropriate speed. A speed abnormal alarm device (221, 222), a chemical sensor 210 for detecting the saturation of the filter in real time, and a safety device consisting of the alarm device (211).

1 is a perspective view of a removable hood for an air purifier

2 is an exploded perspective view of a removable hood for an air purifier

3 is a filtration principle of the filter system of the removable hood with air purifier

4 is a filtration efficiency measurement device of a porous zeolite filter

Hereinafter, the air purifier combined removable hood according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a removable air purifier combined hood according to the present invention, Figure 2 is an exploded perspective view of a removable air purifier combined hood according to the present invention, Figure 3 is a filter filtration principle of the removable air purifier combined hood according to the present invention 4 is a measuring device diagram for measuring the filtration efficiency of the porous zeolite filter of the removable hood for an air purifier according to the present invention.

As shown in FIG. 1 and FIG. 2, the present invention provides a filter system 110 including a pretreatment filter and a porous zeolite filter, and a filtering unit 100 having a blower device 120, and pollutants of filtered air in real time. Control unit 200 provided with a chemical sensor 210 to detect, Velocity Monitoring System 220 of the blowing fan, speed abnormality and blowing fan operation abnormality alarm devices (221, 222), air purifying function selection device 230 ), A local suction part 300 having three joints 330 so as to move freely with a working radius of 1.5 m and having a manual damper device 320 and a circular hood shade 310 installed as a local suction arm 300. ), And an indoor air intake unit 400 formed of an electric damper device 420 for forming an air inlet 410 to suck indoor air and opening and closing the indoor air intake, and air for discharging the filtered air to the room. exhaust Sphere 510 is formed with a discharge portion 500.

The gaseous contaminants generated at the local part are sucked up through the circular hood shade 310 of the local suction part 300 and filtered through the suction arm having the manual damper 320 and the three joints 330. It is sucked by the blowing fan 120 of the part 100 and completely filtered while passing through the filter system 110 consisting of a pretreatment filter and a porous zeolite filter, and is discharged into the room through the air outlet 510. In addition, when the electric damper 420 is operated by the air purifying function selection device 230 of the control unit 200, contaminated indoor air is sucked through the air inlet 410 formed on the front of the hood, and the electric damper device 420 is removed. Through the filter system 110 of the filtering unit 100 is completely filtered through the air outlet 510 is also discharged to the room.

The filter system 110 composed of the pretreatment filter and the porous zeolite filter of the filtration unit 100 is cartridge-type for easy replacement, and the pretreatment filter is to prevent the porous zeolite filter from being clogged by dust and foreign matter. The filter system allows two-stage four filtration to filter gaseous contaminants. Referring to the filtration principle diagram of FIG. 3, the pretreatment filter of the filter system filters dust and foreign matter, and the porous zeolite filter filters particles and molecules of several to several tens of micrometers or more by activated pores inside the filter. The cations such as K ⁺¹ , Ca ⁺² , Na ⁺¹ , Fe ⁺² , Mg ^+2, etc. chemically adsorb and filter gaseous contaminants by substitution and replacement reactions, and then use HCl, HNO ₃ , HPO ₃ , Supports binding inducer of Cu and Ag, and filters gaseous contaminants with high activation energy by chemical bonding.

The filtration unit 100 is easy to install and replace the cartridge type filter system 110, the blowing fan 120 is formed in the rear end of the filter system 110 to prevent contamination air that does not pass through the filter system Was not introduced. In order to detect contaminants in the filtered air through the filter system, a chemical sensor 210 is installed between the blower fan 120 and the air outlet 510, and an alarm device 211 is provided in the control unit to filter the filtered air. If a pollutant is detected in the system, an alarm is triggered. A fan sensor 120 is installed in the blower fan to detect the rotational speed of the fan in real time, and a real-time speed monitoring system displaying the speed in real time by processing the signal from the hall sensor in 10 levels. Velocity Monitoring System (220) was formed, and a speed abnormality alarm device 221 was provided to generate an alarm when the speed was out of an appropriate speed, and an alarm was generated when there was an abnormality due to a fan error or a power error. The blowing fan operation abnormality warning device 222 was provided in the control part 200. In addition, the control unit 200 is provided with an air purifying function selection device 230 for opening and closing of the electric damper device 420 operated by a motor.

The cart part 600 is connected to a removable hood and is designed to be separated as necessary. The cart part 600 includes a wheel 610 for a wheel fixing device attached to the cart to enable easy movement and to fix the wheel.

Table 1 is a data of measuring the filtration efficiency of the porous zeolite filter 110 applied to the present invention, the experiment was performed for ammonia gas, acetone, acetic acid, methyl alcohol, benzene, chloroform. The filtration efficiency measurement of the porous zeolite filter is generated in the noxious gas generator 700 by the diffusion blower fan 702 formed at the bottom of the experimental material 701 as shown in the device diagram of FIG. After passing through the flow meter 710 and the control valve 711, and collected in the sample collecting container before the filter filtration, this harmful gas is again filtered while passing through the 600 ml porous zeolite filter 720, the control valve 730 and the flow meter After the 731 passes through the filtration is collected in the sample collecting container 740, it is discharged again through the control valve 750 and the pump 760. In the entire process of measurement, the fluid flow of the flowmeters 710 and 731 provided at the front and rear ends of the filter was maintained at the amount of 2 liters per minute using the control valves 711, 730 and 750 at each stage. Filtration efficiency measurements were carried out by collecting the air in the pre-filtration sample collector 721 and the post-filtration sample collector 740 in a 5 liter tether bag with a collector and using a gas chromatograph device. The concentration of the hazardous substance was measured in ppm. In the experimental results, it was confirmed that the filtration efficiency of the porous zeolite filter was at least 99.99% before the filter saturation.

Test sample: Ammonia gas Experimental sample: Acetone Elapsed time Concentration before filtration Concentration after filtration Elapsed time Concentration before filtration Concentration after filtration 2 hours 10,000 ppm 0 ppm 2 hours 200 ppm 0 ppm 4 hours 10,000 ppm 0 ppm 4 hours 200 ppm 0 ppm 6 hours 10,000 ppm 0 ppm 6 hours 200 ppm 0 ppm 8 hours 10,000 ppm 0 ppm 8 hours 200 ppm 0 ppm 10 hours 10,000 ppm 0 ppm 10 hours 200 ppm 0 ppm 20 hours 10,000 ppm 1 ppm 14 hours 190 ppm 0 ppm 30 hours 10,000 ppm 2 ppm 16 hours 190 ppm 0 ppm 32 hours 10,000 ppm 500 ppm 18 hours 190 ppm 50 ppm Experimental Sample: Acetic Acid Experimental sample: Methyl alcohol Elapsed time Concentration before filtration Concentration after filtration Elapsed time Concentration before filtration Concentration after filtration 2 hours 200 ppm 0 ppm 2 hours 300 ppm 0 ppm 4 hours 200 ppm 0 ppm 4 hours 300 ppm 0 ppm 6 hours 200 ppm 0 ppm 6 hours 300 ppm 0 ppm 8 hours 200 ppm 0 ppm 8 hours 300 ppm 0 ppm 10 hours 180 ppm 0 ppm 10 hours 300 ppm 0 ppm 16 hours 180 ppm 0 ppm 16 hours 290 ppm 1 ppm 18 hours 180 ppm 3 ppm 18 hours 285 ppm 3 ppm 20 hours 180 ppm 33 ppm 20 hours 285 ppm 55 ppm Experimental sample: Benzene Experimental sample: Chloroform Elapsed time Concentration before filtration Concentration after filtration Elapsed time Concentration before filtration Concentration after filtration 2 hours 500 ppm 0 ppm 2 hours 100 ppm 0 ppm 4 hours 500 ppm 0 ppm 4 hours 100 ppm 0 ppm 6 hours 500 ppm 0 ppm 6 hours 100 ppm 0 ppm 8 hours 500 ppm 0 ppm 8 hours 100 ppm 0 ppm 10 hours 500 ppm 0 ppm 10 hours 100 ppm 0 ppm 14 hours 500 ppm 0 ppm 16 hours 100 ppm 0 ppm 16 hours 500 ppm 5 ppm 18 hours 100 ppm 0 ppm 18 hours 500 ppm 50 ppm 20 hours 100 ppm 30 ppm

The present invention completely removes gaseous contaminants and gaseous contaminants contained in indoor air when handling hazardous substances in laboratories and laboratories by the porous zeolite filter system 110 to safely protect users and workers. Air purifiers provide clean, clean indoor air.

As a side effect, first, air pollution is not generated at all because toxic substances are filtered through the duct without being exhausted like a local exhaust system. Second, facility costs are reduced because exhaust duct lines are not used. Third, there is no loss of heating and cooling energy because indoor air is not discharged to the outside. Fourth, since it moves freely and can be used, it is possible to immediately handle hazardous substances generated at any position. Fifth, since only the harmful air generated in the local area can be processed to prevent noise problems and power waste by using a large capacity fan. Sixth, can be used as a combined indoor air purifier. Seventh, since the porous zeolite filter used in the present invention is recycled by reprocessing after saturation of the filter, it is eco-friendly because secondary environmental pollution does not occur due to filter disposal.

Claims (4)

Air purifier combined removable hood using porous zeolite filter system 110 to remove gaseous contaminants and gaseous contaminants in indoor air generated at local sites in laboratories and laboratories The method of claim 1, characterized in that the local suction unit 300 is formed by having three joints 330 and a manual damper 320 and a circular hood shade 310 in order to suck the harmful air at the local site. Air purifier with removable hood According to claim 1, the air inlet 410 is installed on the front to intake the indoor air and the electric damper device 420 is provided with an indoor air intake unit 400, characterized in that the air purifier combined removable hood The air purifier combined mobile type of claim 1, wherein a chemical sensor 210, an alarm device 211, a speed monitoring system 220, a speed abnormality and a blow fan abnormality alarm device 221, 222 are provided for safety in use. Hood