KR-102964176-B1 - AC tower for hazardous gas treatment

Abstract

An AC tower for treating harmful gases according to embodiments of the present invention comprises a frame portion forming an exterior, a treatment portion disposed in the frame portion to receive fluid and treat harmful substances and odors, and an outlet portion to discharge the fluid treated in the treatment portion to the outside. The treatment portion may include a treatment main body portion forming an exterior, a treatment inlet portion provided at one end of the treatment main body portion to receive fluid, a treatment execution portion disposed inside the treatment main body portion to remove harmful substances and odors from the fluid, a treatment filter portion disposed between the treatment inlet portion and the treatment execution portion to filter foreign substances, and a treatment outlet that communicates with the outlet portion and guides the gas treated in the treatment execution portion to the outlet portion. By doing so, foreign substances, harmful substances, and odors can be effectively removed.

Inventors

• 조태훈

Dates

Publication Date

20260512

Application Date

20251010

Claims (5)

1. Skeletal part forming the exterior; A treatment section disposed in the above-mentioned skeletal section into which fluid flows and which treats harmful substances and odors; and It includes an outlet through which the fluid processed in the above processing unit is discharged to the outside; and The above processing unit Processing body part forming the exterior; A processing inlet section provided at one end of the above-mentioned processing main body, into which fluid flows; A treatment performing unit disposed inside the above-mentioned treatment main body for removing harmful substances and odors from a fluid; A processing filter unit disposed between the processing inlet unit and the processing execution unit to filter foreign substances; and It includes a processing outlet that communicates with the above-mentioned outlet and guides the gas processed in the above-mentioned processing unit to the above-mentioned outlet; The above processing unit It further includes a processing injection unit positioned to face the processing execution unit in the processing main body and configured to spray a liquid; The above processing injection unit A spraying body disposed inside the above-mentioned processing body, through which liquid flows; A spraying unit spaced apart from each other in the above-mentioned spraying main body and spraying liquid into the interior of the above-mentioned processing main body; A spray control unit disposed facing the spray execution unit in the above-mentioned spray body, and controlling the direction of the liquid sprayed from the spray execution unit; A spray drying unit disposed in the above-mentioned spray main body and providing a drying air toward the above-mentioned processing unit; and It includes a spray heating unit positioned on both sides of the above-mentioned spray drying unit to enable heat generation; The above injection control unit A control connection part connected to the above-mentioned injection body; A control opening portion disposed to face the injection control portion at the end of the control connection portion and configured to have an adjustable opening area; and An AC tower for treating harmful gases, characterized by including an adjustment angle portion that extends outward from the adjustment connection portion to the adjustment opening portion and is configured to allow for angle adjustment.
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3. In paragraph 1, The above processing filter unit A filter body portion that is fixed to the above-mentioned processing body portion and forms an exterior; A filter performing unit disposed inside the above filter body to remove foreign substances; A filter closing part disposed at the front and rear of the filter body part to close the interior of the filter body part; A filter air unit positioned above the filter body and spraying air toward the filter performing unit; A filter spraying unit spaced apart from the filter air unit on the upper side of the filter body unit and spraying water to the filter performing unit; A filter storage unit disposed below the filter body and storing water sprayed by the filter spray unit; A filter measuring unit disposed inside the filter storage unit and measuring the components of the water stored in the filter storage unit; and It includes a filter checking unit disposed in the filter closing unit to check the degree of cleaning of the filter performing unit; The above filter verification unit A verification irradiation unit positioned at the front of the filter closure unit and irradiating light toward the filter execution unit; A verification incidence unit disposed at the rear of the filter closure unit and into which light irradiated from the verification investigation unit is incident; and AC tower for treating harmful gases, characterized by including: a confirmation shooting unit disposed in the filter closing part and capturing an image of the filter performing part.
4. In paragraph 3, The above processing unit A performing body part that is fixed inside the above-mentioned processing body part and forms an exterior; A performance space portion disposed inside the above-mentioned performance main body, having a space formed on the inside and into which fluid flows; A first performance adsorption unit disposed in the above-mentioned performance space to remove harmful substances and odors; A plurality of performance extension parts spaced apart from each other in the above-mentioned performance main body and communicating with the above-mentioned performance space part; A second performance adsorption unit disposed on one side of the above-mentioned performance extension unit and assisting the first performance adsorption unit; A third performance adsorption unit positioned at the center of the above-mentioned performance expansion unit and assisting the first performance adsorption unit; and It includes a fourth performance adsorption unit positioned on the other side of the above-mentioned performance extension unit and assisting the first performance adsorption unit; The above-mentioned execution extension part An extended main body part forming the exterior; An expansion communication part disposed on one side of the above-mentioned expansion main body part and communicating with the above-mentioned execution space part; An expanded section disposed on the other side of the expanded main body and communicating with the expanded communication section, and divided into a plurality of sections such that at least one of the second performance adsorption section, the third performance adsorption section, and the fourth performance adsorption section is disposed therein; An expansion inlet section disposed in each of the plurality of expansion sections and through which fluid flows into the expansion section; An expansion outlet disposed in each of the plurality of expansion compartments, through which fluid flows out from the expansion compartment; An expansion opening/closing member disposed at each of the expansion inlet and expansion outlet and configured to enable the expansion inlet and expansion outlet to be opened and closed; and AC tower for treating harmful gases, characterized by including an expansion fan disposed in the expansion joint and providing power for fluid flow.
5. In paragraph 4, The above processing unit It further includes a processing door section spaced apart from each other in the processing main body and configured to enable the processing main body to be opened. The above processing door section A door body portion that forms an exterior and is disposed in the processing body portion; A door pivoting part connected to the above door main body and the above processing main body, and configured to be rotatable; An outer sealing portion arranged along the perimeter of the above door body portion; An outer recess formed by being indented on the inner side of the outer sealing portion; An inner sealing part disposed in the above processing main body and engaging with the outer sealing part; An inner protrusion formed protruding from the inner sealing portion and inserted into the outer recess; and An AC tower for treating harmful gases, characterized by including: a door support member disposed spaced apart from the door main body in the processing main body and configured to support the door main body when the door main body is opened.

Description

AC tower for hazardous gas treatment The present invention relates to an AC tower for treating harmful gases. The present invention relates to a hazardous gas treatment device, and more specifically, to an AC (Air Cleaning) tower for treating hazardous gases to purify and discharge harmful gases and odors generated in industrial sites, laboratories, research institutes, public facilities, etc., to the outside. Generally, various forms of harmful gases and odors are generated during stages such as chemical reactions, combustion, and drying in manufacturing and experimental processes. If these harmful gases are released directly into the atmosphere, they not only cause environmental pollution but can also lead to health problems, such as respiratory diseases, headaches, and dizziness, if the human body is exposed to them for an extended period. Therefore, industrial sites are equipped with hazardous gas treatment devices that draw contaminated air into the system, remove harmful substances through processes such as adsorption, washing, and filtration, and then discharge purified air to the outside. Conventional hazardous gas treatment devices generally feature a structure that uses a blower fan to draw contaminated air into the device and removes hazardous substances by passing it through a medium such as activated carbon or a cleaning solution. However, these conventional devices suffer from uneven purification efficiency due to their simple internal flow paths, which result in inconsistent fluid flow and stagnation in certain areas. Additionally, the nozzles spraying the cleaning solution are fixed, making it difficult to adjust the spray angle or direction; consequently, there is a limitation in that sufficient cleaning cannot be achieved in specific sections. Furthermore, since there is no means to check the contamination level of the filter in real time, it is difficult to determine the appropriate replacement time, and efficiency degradation due to excessive use occurs frequently. Furthermore, conventional devices had the problem of odors leaking to the outside due to insufficient sealing when the door was opened for internal cleaning or inspection, and lacked structures to absorb or mitigate vibrations or noise even if they occurred depending on the installation environment. In addition, there was a problem where corrosion or contamination occurred easily because there was a lack of a system to effectively discharge or waterproof moisture, such as condensate or cleaning water, if it remained at the bottom of the device. As such, conventional hazardous gas treatment devices have various problems, including non-uniform purification efficiency, inability to adjust the spray angle, difficulty in checking filter status, odor leakage due to poor sealing, and limitations in vibration and moisture discharge. Therefore, there is a need for a hazardous gas treatment device with a new structure that can control the flow in the inlet, treatment, and outlet sections in stages, precisely adjust the filter and spray structure, facilitate maintenance, and operate stably according to the installation environment. The present invention is proposed to solve the above problems and aims to achieve the effects of improving harmful gas removal efficiency, enhancing maintenance convenience, and preventing odor leakage to the external environment and vibration problems by providing an AC tower for harmful gas treatment configured to efficiently control the entire process from fluid inflow to outflow. FIG. 1 is a schematic diagram of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 2 is a top view of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 3 is a side view of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 4 is a drawing showing the processing unit of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 5 is a drawing showing a treatment filter section of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 6 is a drawing showing the treatment injection section of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 7 is a drawing showing the processing door section of an AC tower for treating harmful gases according to one embodiment of the present invention. FIG. 8 is a drawing showing the blower section and the arrangement section of an AC tower for treating harmful gases according to one embodiment of the present invention. Hereinafter, embodiments are described in detail with reference to the attached drawings. However, since various modifications may be made to the embodiments, the scope of the patent application is not limited or restricted by these embodiments. It should be understood that all modifications, equivalents, and substitu