KR102562516B1 - Smart elctric saving type composite deodorization apparatus capable of variable driving according to odo concentration and control system thereof - Google Patents

Abstract

The present invention is a fan that allows polluted external air containing odor components to flow into an odor reaction tank from an odor generating source, comprising: a deodorizing fan whose driving speed is controlled according to the odor concentration detected by a sensor module; a circulation pump intermittently operated to control the circulation of catalytic oxidation water in the odor reaction tank according to the odor concentration detected by the sensor module; an odor reaction tank that receives the external air and removes odor; a sensor module that detects the concentration of odor contained in the external air flowing into the odor reaction tank by driving the deodorizing fan; a catalyst injection nozzle for injecting a liquid catalyst into the external air accommodated in the odor reaction tank to make contact; a catalyst storage tank for storing a catalyst supplied to the catalyst injection nozzle to remove odor; a catalyst oxidation water storage tank in which the catalyst from the catalyst storage is supplied to an odor reaction tank and catalytic oxidation water is circulated and stored from the odor reaction tank; A sodium hypochlorite aqueous solution reaction tank supplied to the catalyst storage tank; a chemical storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; and a water storage tank supplied to the sodium hypochlorite aqueous solution reaction tank. Disclosed is a smart power-saving complex deodorizer capable of variable driving according to the odor concentration configured to include. In addition, the present invention is a fan that allows polluted external air containing odor components to flow into an odor reaction tank from an odor generating source, comprising: a deodorizing fan whose driving speed is controlled according to the odor concentration detected by a sensor module; a circulation pump intermittently operated to control the circulation of catalytic oxidation water in the odor reaction tank according to the odor concentration detected by the sensor module; an odor reaction tank that receives the external air and removes odor; a sensor module that detects the concentration of odor contained in the external air flowing into the odor reaction tank by driving the deodorization fan; a catalyst injection nozzle for injecting a liquid catalyst into the external air accommodated in the odor reaction tank to make contact; a catalyst storage tank for storing a catalyst supplied to the catalyst injection nozzle to remove odor; a catalyst oxidation water storage tank in which the catalyst from the catalyst storage is supplied to an odor reaction tank and catalytic oxidation water is circulated and stored from the odor reaction tank; A sodium hypochlorite aqueous solution reaction tank supplied to the catalyst storage tank; a chemical storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; And a water storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; a control system for controlling a smart power-saving complex deodorizer capable of variable driving according to the odor concentration configured to include, the concentration of ammonia contained in the external air flowing into the odor reaction tank A first sensor for detecting; a second sensor for detecting the concentration of hydrogen sulfide contained in the outside air flowing into the odor reaction tank; a third sensor for detecting concentrations of ammonia and hydrogen sulfide in external air discharged to the outside after the odor reaction is completed in the odor reaction tank; A control module for driving and controlling the system by analyzing the ammonia concentration and hydrogen sulfide concentration detected by the first sensor, the second sensor, and the third sensor; Disclose the deodorizer control system.

Description

Smart power-saving complex deodorizer and its control system capable of variable operation according to odor concentration

The present invention relates to a smart power-saving complex deodorizer capable of variable driving according to odor concentration and a control system thereof.

More specifically, the present invention enables an efficient odor removal operation by controlling the driving speed of a deodorizing fan according to the odor concentration and intermittent operation of a circulation pump.

Environmental pollutants such as fine dust and VOC, which are directly related to public health and daily life, are social issues.

In particular, deodorization technology is continuously researched due to the increase in facilities for treating odors such as waste and wastewater, and various deodorization methods are applied to the field depending on the source of odor and the concentration of odor.

Odor substances are diverse, such as hydrogen sulfide, ammonia, methanethiol, and amines. Looking at existing deodorization technologies, there are methods such as adsorption method, chemical cleaning method, microbial treatment method, incineration and oxidation method.

The problem of these deodorization technologies is that they require a lot of initial installation and operating costs, and there are many difficulties in maintenance such as replacement of consumable materials and parts, and performance degradation during long-term use, so new technology development and improvement are urgently required.

In the case of basic environmental facilities that emit a lot of odor pollution, the number of new and expanded facilities is on the rise, and it is expected that the demand for deodorization methods that are easy to maintain and can reduce costs will greatly increase.

In addition, since the conventional deodorization system needs to collect a large amount of spatial odor gas in the target area for deodorization, most industrial sites have no choice but to use a large-capacity deodorization fan. There is an overabundance problem.

Moreover, since the deodorization facility performs a constant speed operation regardless of the concentration of the odorous gas, there is a problem of causing energy loss as well as increasing operating costs and causing facility maintenance loss due to high-speed rotation.

Patent Registration No. 10-1615515 is a previous application filed by the present applicant, which achieves maintenance easiness and cost reduction through a catalytic oxidation composite deodorizer, as well as power cost through optimization of the operating process due to the nature of deodorization facilities that require continuous operation in real time. It reduces the maintenance burden.

Patent Registration No. 10-0395427 is an improved deodorizer that removes odors in the air contaminated by harmful gases such as sanitary treatment plants, sewage treatment plants, and sewage treatment plants. At the top of the deodorizer, a UV lamp that emits ultraviolet rays and ozone and Tio2 (150), a kind of catalyst that causes a photo-oxidation reaction by contacting with the ultraviolet rays and ozone emitted from the UV lamp, are laid, and at the same time, a catalyst material that absorbs odors, bio Cells and Fe2o3 zeolites that neutralize and adsorb are installed, and fog nozzles that block and condense remaining harmful gases in the air by spraying water in a mist form are installed in multiple layers at regular intervals to improve deodorization efficiency and at the same time to reduce harmful gases. By removing the gas, it is possible to prevent secondary pollution of the atmosphere.

Patent Registration No. 10-1667235 relates to a deodorization unit having an ozone activation reaction zone, which is installed in industrial factories, sewage treatment plants, manure treatment plants, food waste treatment plants, septic tanks, commercial buildings, etc. to remove or filter odors from polluted air. In order to perform, an ozone lamp is installed in place of the existing UV lamp inside the main box in which a plurality of filters (pre-filter, photocatalyst filter, carbon filter, etc.) are built, but the ozone (O3) reaction time is installed at the rear of the ozone lamp By installing a retention box having an air flow transfer path that is maximized to improve deodorization performance, the deodorization efficiency is greatly improved by increasing the ozone (O3) reaction time.

Patent Registration No. 10-1432200 relates to a medium/low concentration complex odor treatment system using catalytic oxidation water, a PCB factory that manufactures semiconductors such as LCDs and LEDs or electronic circuit boards, and a tire manufacturing factory that vulcanizes rubber. , Complex odors of medium and low concentrations composed of basic, acidic, and neutral components generated from plastics production plants, paint processing plants, food waste treatment plants, sewage sludge dewatering cakes, sludge drying facilities, livestock wastewater and sludge treatment facilities, etc. In single or double scrubbers, or biofilm towers or biosystems that have been previously installed to treat wastewater, workplaces that have to deal with residual odors that are not treated and discharged into the atmosphere due to limitations in the treatment efficiency of existing facilities, or at the time of installation and Businesses that need to supplement existing odor facilities due to other legal regulations, or businesses that are troubled with the installation site problem of supplementary facilities that can deal with odors from the expanded factory, or additional supplementary facilities cannot be installed for other reasons. Therefore, it can be applied to workplaces that emit residual odors without being able to treat residual odors, so that the catalytic oxidation water containing OH radicals produced by contact between a ceramic catalyst sintered with ferrite-based metal oxide and an aqueous solution containing chlorine is reduced compared to existing deodorization facilities. In the final discharge chimney, it is sprayed downward in the form of mist through a two-fluid nozzle, and through gas-liquid contact with untreated odor components discharged upward, chemical reactions of all complex odors of medium and low concentrations of acidic, basic, and neutral components are achieved. to be removed through

1. Patent Registration No. 10-1615515 (Registered on April 20, 2016, Name: Catalytic Oxidation Composite Deodorizer) 2. Patent Registration No. 10-0395427 (Registered on August 8, 2003, Name: Deodorizer) 3. Patent registration No. 10-1667235 (registered on October 12, 2016, name: deodorization unit with ozone activation reaction zone) 4. Patent Registration No. 10-1432200 (Registered on August 13, 2014, Name: Medium and low concentration complex odor treatment system using catalytic oxidation water)

The present invention was made to improve the above conventional problems, and an object of the present invention is to control the deodorization fan and the catalytic oxidation water circulation pump according to the odor concentration contained in the external air flowing from the odor source to the odor reaction tank. To provide a smart power-saving complex deodorizer capable of variable driving according to the odor concentration and its control system.

Another object of the present invention is to detect the concentration of odor remaining in the air discharged from the odor reaction tank, and to control the deodorization fan and the catalytic oxidation water circulation pump according to the detection result, a smart energy-saving type capable of variable driving according to the concentration of odor. It is to provide a complex deodorizer and its control system.

Another object of the present invention is to filter foreign substances and odors contained in the external air through a filter configured in an odor reaction tank, and then perform an odor reaction. It is to provide the control system.

The technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned can be clearly understood by those skilled in the art from the description below. There will be.

Smart power-saving complex deodorizer capable of variable driving according to the odor concentration of the present invention for achieving the above object

a fan that sucks polluted external air containing odor components from an odor generating source into an odor reaction tank, the deodorizing fan whose driving speed is controlled according to the odor concentration detected by the sensor module;

a circulation pump intermittently operated to control the circulation of catalytic oxidation water in the odor reaction tank according to the odor concentration detected by the sensor module;

an odor reaction tank that receives the external air and removes odor;

a sensor module that detects the concentration of odor contained in the external air flowing into the odor reaction tank by driving the deodorizing fan;

a catalyst injection nozzle for injecting a liquid catalyst into the external air accommodated in the odor reaction tank to make contact;

a catalyst storage tank for storing a catalyst supplied to the catalyst injection nozzle to remove odor;

a catalyst oxidation water storage tank in which the catalyst from the catalyst storage is supplied to an odor reaction tank and catalytic oxidation water is circulated and stored from the odor reaction tank;

A sodium hypochlorite aqueous solution reaction tank supplied to the catalyst storage tank;

a chemical storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; and

a water storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; It is characterized by consisting of including.

In the present invention, the odor concentration of the deodorizing fan is classified into low, medium, and high concentrations to control the driving speed, and the circulation pump is classified into low, medium, and high concentrations of odor concentration, and the intermittent operation time is controlled. .

In the present invention, the sensor module is characterized in that it is periodically or intermittently supplied with air that is easy to handle and odorless gas that does not contain ammonia or hydrogen sulfide and is zero-point corrected.

In the present invention, the odor reaction tank is characterized in that a filter is configured at the inner lower part to remove foreign substances included in the external air introduced by driving the deodorizing fan.

A smart power-saving complex deodorizer control system capable of variable driving according to the odor concentration of the present invention for achieving the above object is

a fan that sucks polluted external air containing odor components from an odor generating source into an odor reaction tank, the deodorizing fan whose driving speed is controlled according to the odor concentration detected by the sensor module;

a circulation pump intermittently operated to control catalyst supply to the odor reaction tank according to the odor concentration detected by the sensor module;

an odor reaction tank that receives the external air and removes odor;

a sensor module that detects the concentration of odor contained in the external air flowing into the odor reaction tank by driving the deodorizing fan;

a catalyst injection nozzle for injecting a liquid catalyst into the external air accommodated in the odor reaction tank to make contact;

a catalyst storage tank for storing a catalyst supplied to the catalyst injection nozzle to remove odor;

a catalyst oxidation water storage tank in which the catalyst from the catalyst storage is supplied to an odor reaction tank and catalytic oxidation water is circulated and stored from the odor reaction tank;

A sodium hypochlorite aqueous solution reaction tank supplied to the catalyst storage tank;

a chemical storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; and

a water storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; As a control system that controls a smart power-saving complex deodorizer capable of variable driving according to the odor concentration configured to include,

a first sensor for detecting the concentration of ammonia contained in the external air flowing into the odor reaction tank;

a second sensor for detecting the concentration of hydrogen sulfide contained in the outside air flowing into the odor reaction tank;

a third sensor for detecting concentrations of ammonia and hydrogen sulfide in external air discharged to the outside after the odor reaction is completed in the odor reaction tank;

It is characterized in that it is configured to include; a control module for driving and controlling the system by analyzing the ammonia concentration and the hydrogen sulfide concentration detected by the first sensor, the second sensor, and the third sensor.

In the present invention, it is characterized in that a fourth sensor for detecting the amount of external air introduced into the odor reaction tank by driving the deodorization fan is additionally configured.

In the present invention, the control module

When the odor concentration is detected by the first sensor and the second sensor while the external air continuously flows into the odor reaction tank by driving the deodorizing fan, the first sensor and the second sensor analyze it to control the driving speed of the deodorizing fan. Even though the odor concentration detected by the sensor is low, if it is analyzed that the odor concentration of the external air discharged from the odor reaction tank is not normally removed, the operation of the deodorization fan is temporarily stopped, and the first valve to the fourth valve After stopping the operation of the system check,

When the odor concentration is detected by the first sensor and the second sensor while the external air continuously flows into the odor reaction tank by driving the deodorizing fan, the first sensor and the second sensor analyze it to control the driving speed of the deodorizing fan. Even though the odor concentration detected by the sensor is medium or high, if the odor concentration of the outside air discharged from the odor reaction tank is not normally removed and is analyzed to be low or medium, the deodorizing fan is temporarily driven at a low speed. The first to fourth valves are driven and controlled so that the amount of outside air flowing into the odor reaction tank is reduced and the odor of the outside air introduced into the odor reaction tank is removed.

According to the smart power-saving combined deodorizer and its control system capable of variable driving according to the odor concentration of the present invention, the deodorization fan and the catalyst according to the odor concentration contained in the external air flowing from the odor source to the odor reaction tank by driving the deodorization fan Efficient operation of the system is possible by controlling the oxidized water circulation pump.

That is, 80% of odor-causing substances at sewage treatment plants and relay pumping stations are ammonia (NH3) that smells like manure and hydrogen sulfide (H2S) that smells like rotten eggs. By driving, real-time concentration observation and variable driving are efficiently performed, and the average energy cost reduction rate through the inverter control function can reach 30% to 40%.

In addition, it is possible to start within 100% of the rated current with Soft Start starting, peak power is reduced through soft variable speed operation of the motor, and the life of the deodorizing device can be extended.

In addition, by detecting the concentration of odor remaining in the air discharged from the odor reaction tank and controlling the deodorization fan and mild pump according to the detection result, not only the odor removal efficiency is improved, but also the elements that make up the system, such as the odor sensor and the odor reaction tank. You can also check if they are working normally.

In addition, by filtering foreign substances and odors contained in the external air through a filter configured in the odor reaction tank, the odor reaction is performed, thereby reducing the burden of elements constituting the system and improving durability.

Other effects will become apparent to those skilled in the art from the description below.

1 is a configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a first embodiment of the present invention.
2 is a block diagram of a control system of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a first embodiment of the present invention.
Figure 3 is a table showing the driving speed of the deodorizing fan according to the odor concentration.
4 is a table showing the intermittent operation of the circulation pump according to the odor concentration.
5 is a flowchart illustrating the operation of a smart power-saving complex deodorizer driven variably according to the odor concentration according to the first embodiment of the present invention.
6 is an operation flow chart of a smart power-saving complex deodorizer that is variablely driven according to odor concentration and external air intake according to another embodiment.
7 is a control system configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a second embodiment of the present invention.
8 is a configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a third embodiment of the present invention.
9 is a partial configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a fourth embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention.

Terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention.

Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

[First Embodiment]

1 is a configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a first embodiment of the present invention. 2 is a block diagram of a control system of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a first embodiment of the present invention. 3 is a table showing the driving level of the deodorizing fan according to the odor concentration. 4 is a table showing driving levels of circulation pumps according to odor concentrations. 5 is an operation flowchart of a smart power-saving complex deodorizer that is variablely driven according to the odor concentration according to the first embodiment of the present invention. 6 is an operation flowchart of a smart power-saving complex deodorizer that is variablely driven according to the concentration of odor and the amount of intake of external air according to another embodiment.

As shown in FIG. 1, the smart power-saving composite deodorizer capable of variable driving according to the odor concentration according to the first embodiment of the present invention introduces contaminated external air containing odor components into the odor reaction tank 30 from the odor source. A deodorizing fan 10 (a suction fan that sucks odors from an odor generating source into an odor reaction tank, hereinafter, it will be used in combination with a deodorizing fan) and an intermittent operation to control the circulation of catalytic oxidation water in the odor reaction tank 30 The circulation pump 90, the odor reaction tank 30 reacting to deodorize the odor contained in the external air introduced by the driving of the deodorization fan 10, and the liquid catalyst in the external air accommodated in the odor reaction tank 30 A catalyst injection nozzle 40 that removes odor by being sprayed and contacted therewith, a catalyst storage tank 50 that stores catalyst supplied to the catalyst injection nozzle 40 to remove odor, and the catalyst storage tank 50 ) to the odor reaction tank 30, and catalyst oxidation water storage tank 200 for storing catalytic oxidation water circulated after odor reaction in the odor reaction tank 30, sodium hypochlorite aqueous solution reaction tank 60, and chemical storage tank (70) and a water storage tank (80).

A first valve 35 for opening or blocking a flow path with the catalytic oxidation water storage tank 200 is configured in the passage of the odor reaction tank 30 for circulation of catalytic oxidation water, and the outlet of the sodium hypochlorite aqueous solution reaction tank 60 A second valve 65 is configured to supply or block the catalyst to the catalyst storage tank 50, and the outlets of the chemical storage tank 70 and the water storage tank 80 are connected to the sodium hypochlorite aqueous solution reaction tank 60. A third valve 75 and a fourth valve 85 for supplying or cutting off chemicals or water are respectively configured.

The odor reaction tank 30 brings contaminated external air into contact with a liquid catalyst so that desulfurization can be performed. An inlet (not shown) is formed so as to be introduced and accommodated, and an exhaust port (not shown) is formed to discharge the desulfurized external air.

In addition, the odor reaction tank 30 is configured such that the catalyst oxidation water storage tank 200 is installed at the lower portion thereof so that the desulfurization catalyst used to desulfurize polluted external air in the odor reaction tank 30 can be recycled and recovered.

As shown in FIG. 2, the smart power-saving complex deodorizer control system capable of variable driving according to the odor concentration according to the first embodiment of the present invention includes a deodorizing fan 10, a circulation pump 90, and the deodorizing fan. A first sensor 21 detects the concentration of ammonia contained in the outside air flowing in from the odor generating source through 10, and the concentration of hydrogen sulfide contained in the external air flowing in from the odor generating source through the deodorizing fan 10 A system such as a deodorizing fan and a circulation pump is configured to remove odor components by analyzing the concentration of ammonia and hydrogen sulfide detected by the second sensor 22 and the first sensor 21 and the second sensor 22. It is configured to include a control module 100 for controlling the elements to be.

In addition, the first valve 35 for supplying the catalyst to the odor reaction tank 30 and circulating or blocking the catalytic oxidation water to the catalyst oxidation water storage tank 200 under the control of the control module 100 after the odor reaction; The second valve 65 for supplying or blocking the catalyst from the sodium hypochlorite aqueous solution reaction tank 60 to the catalyst storage tank 50 under the control of the control module 100, and the chemical from the chemical storage tank 70 to the third valve 75 for supplying or blocking the sodium hypochlorite aqueous solution to the sodium hypochlorite aqueous solution reaction tank 60 under the control of the control module 100, and from the water storage tank 80 to the sodium hypochlorite aqueous solution reaction tank 60 It is configured to include a fourth valve 85 for supplying or blocking water according to the control of the control module 100.

In the present invention configured as described above, when the concentration of odor contained in the external air introduced through the deodorizing fan 10 is low, the drive is controlled at low speed, at medium speed when the concentration is medium, and at high speed when the concentration is high. That is, when the odor concentration is high, a large amount of external air is received in the odor reaction tank 30 to remove the odor.

In the present invention, considering that the amount of external air introduced into the odor reaction tank 30 varies according to the driving speed of the deodorizing fan 10, the control module 100 appropriately controls the circulation pump 90 while controlling the circulation of catalytic oxidation water. The operation to be performed is performed as a basic operation.

In the odor concentration level for controlling the driving of the deodorizing fan 10, the low concentration may be set to 0.05 ppm or less, the medium concentration to 0.05 to 0.1 ppm, and the high concentration to 0.1 ppm or more. According to these concentrations, FIG. 3 and As shown in FIG. 5, the driving speed of the deodorizing fan 10 is controlled. However, in the odor concentration level, the classification of low concentration, medium concentration, and high concentration is not necessarily limited to the concentration value.

In the present invention, as shown in FIG. 4 , the intermittent operation time of the circulation pump 90 may be set according to low, medium, and high concentrations of odor. In the case of low and medium concentrations, the operating time may be set to be regulated, and in the case of high concentration, it may be set to be fully operated without regulating the operating time.

That is, in the case of low concentration, it may be set to repeat on for 10 seconds and off for 10 seconds, and in the case of medium concentration, on for 30 seconds and off for 10 seconds. In addition, in the case of high concentration, it can be set to full operation. However, in the intermittent operation time, in the case of low and medium concentrations, the operation time is not necessarily limited to the above values.

As shown in FIG. 6, the deodorizing fan 10 maintains low speed when the amount of external air is low in concentration and high speed in the case of a large amount of external air in medium concentration, and operates at medium speed when the amount of external air is small in high concentration. can control the driving speed. However, these types of control are only examples, and therefore are not necessarily limited to these conditions.

Meanwhile, although FIGS. 5 and 6 show only the control operation flow of the deodorizing fan, this control operation flow can be similarly applied to the circulation pump control operation.

[Second Embodiment]

7 is a block diagram of a control system of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a second embodiment of the present invention.

As shown in FIG. 7, the smart power-saving complex deodorizer control system capable of variable driving according to the odor concentration according to the second embodiment of the present invention is included in the external air introduced from the odor generating source through the deodorizing fan 10. A first sensor 21 for detecting the concentration of ammonia, a second sensor 22 for detecting the concentration of hydrogen sulfide contained in the external air introduced from the odor generating source through the deodorizing fan 10, and the odor reaction tank ( 30), the third sensor 23 detects the concentrations of ammonia and hydrogen sulfide remaining in the air discharged to the outside after the odor reaction is completed, and the deodorizing fan 10 removes odor from the odor source and flows into the odor reaction tank 30. By analyzing the ammonia concentration and hydrogen sulfide concentration detected by the fourth sensor 24 that detects the amount of outside air, and the first sensor 21, the second sensor 22, and the third sensor 23, odor components are determined. It is configured to include a control module 100 that controls elements constituting the system such as a deodorizing fan and a circulation pump to remove.

The third sensor 23 detects the concentration of ammonia and hydrogen sulfide that may remain in the external air discharged to the outside after the odor reaction is completed in the odor reaction tank 30, and determines whether the odor is properly removed based on the detection signal. After analysis in the control module 100, the driving of the deodorizing fan 10 and the circulation pump 90 can be varied in various ways.

That is, when the odor concentration is detected by the first sensor 21 and the second sensor 22 as external air continuously flows into the odor reaction tank 30 by driving the deodorization fan 10 from the odor source, it is detected by the control module 100. ) in the state where the deodorizing fan 10 and the circulation pump 90 are controlled, even if the odor concentration detected by the first sensor 21 and the second sensor 22 is low, the odor reaction tank 30 ) If the control module 100 analyzes that the odor concentration of the external air discharged from the outside air is not normally removed, the operation of the deodorizing fan 10 may be temporarily stopped.

Alternatively, in this state, it is possible to take appropriate measures by checking whether elements constituting the device, such as the odor reaction tank 30, are normally operating. Such device inspection may be performed in a state in which the operation of the circulation pump and the valve is stopped so that chemicals, water, catalysts, etc. are not circulated.

In addition, when the odor concentration is detected by the first sensor 21 and the second sensor 22 as external air is continuously introduced into the odor reaction tank 30 by the driving of the deodorizing fan 10, the control module 100 detects the odor concentration. In the state where the deodorizing fan 10 and the circulation pump 90 are controlled by analysis in the odor reaction tank, even if the odor concentration detected by the first sensor 21 and the second sensor 22 is medium or high concentration, When the odor concentration of the external air discharged from (30) is not normally removed and the control module 100 analyzes that the odor concentration is low or medium, the deodorizing fan 10 is temporarily driven at a low speed and the circulation pump ( 90) may also be controlled accordingly so that the odor of the external air introduced into the odor reaction tank 30 can be removed while controlling the amount of external air and the amount of circulating catalyst.

Alternatively, in this state, it is possible to check whether elements constituting the device such as the odor reaction tank 30 are normally operating, and take appropriate measures. Inspection of these devices can also be performed in a state in which the operation of the circulation pump and the valve is stopped so that chemicals, water, catalysts, etc. are not circulated.

As another embodiment, when it is analyzed that the odor is not properly removed from the odor reaction tank 30 as described above, more catalyst is supplied to the odor reaction tank through the control of the circulation pump 90 under the control of the control module 100 30) may be implemented.

As described above, in the second embodiment, the odor concentration detected by the first sensor 21 and the second sensor 22 is analyzed by the control module 100, and the deodorization fan 10 and the circulation pump 90 ), the odor concentration remaining in the external air discharged from the odor reaction tank 30 is also detected by the third sensor 23, and based on the analysis result, the deodorization fan 10 and the circulation pump By appropriately combining the embodiments for controlling 90, the malodor removal operation can be performed more effectively.

As another embodiment, the deodorization fan 10 and the circulation pump 90 are not necessarily controlled according to the low concentration, medium concentration, and high concentration classified as above, but for a certain period of time detected by the fourth sensor 24. It may also be configured to be controlled in relation to the amount of external air introduced into the odor reaction tank 30 . This embodiment will be useful when the operation of the first sensor 21 and the second sensor 22 is abnormal.

In addition, it can be usefully applied after detecting the residual odor concentration of the external air introduced into the odor reaction tank 30 for a certain period of time. That is, unless the operation of the first sensor 21 and the second sensor 22 is guaranteed to be normal because the amount of external air introduced into the odor reaction tank 30 is small or heavy, it cannot be determined that the odor concentration is relatively low. , Considering that it cannot be concluded that the odor concentration is relatively high even if the amount of external air introduced is large, the deodorization fan 10 and the circulation pump 90 are obtained by combining the amount of external air introduced into the odor reaction tank 30 and the odor concentration. can control. The configuration for ensuring normal operation of the first sensor 21, the second sensor 22, and the third sensor 23 is implemented in the third embodiment.

[Third Embodiment]

8 is a configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a second embodiment of the present invention.

The smart power-saving complex deodorizer control system capable of variable driving according to the odor concentration according to the second embodiment of the present invention has a first sensor for detecting the concentration of ammonia contained in the external air introduced through the deodorization fan (10). (21), a second sensor (22) for detecting the concentration of hydrogen sulfide contained in the external air introduced through the deodorizing fan (10), and the air discharged to the outside after the reaction is completed in the odor reaction tank (30). A third sensor 23 for detecting the concentration of ammonia and hydrogen sulfide, a sensor correction module 300 for correcting the first sensor 21, the second sensor 22, and the third sensor 23, and the deodorization The fourth sensor 24 detects the amount of external air introduced into the odor reaction tank 30 by the fan 10, and the ammonia concentration and hydrogen sulfide detected by the first sensor 21 to the third sensor 23 Controlling the deodorizing fan 10 and the circulation pump 90 to analyze the concentration to remove odor components, and controlling the sensor correction module 200 to correct the first sensor 21 to the third sensor 23 The control module 100, the first valve 35 for controlling the flow path between the odor reaction tank 30 and the catalytic oxidation water storage tank 200, and the sodium hypochlorite aqueous solution reaction tank 60 convert the catalyst into the control module 100. The second valve 65 for supplying or shutting off the catalyst storage tank 50 according to control, and the sodium hypochlorite aqueous solution reaction tank 60 according to the control of the control module 100 to supply chemicals from the chemical storage tank 70 A third valve 75 for supplying or blocking water to the water storage tank 80 and a fourth valve for supplying or blocking water from the water storage tank 80 to the sodium hypochlorite aqueous solution reaction tank 60 under the control of the control module 100. It consists of (85).

8, the circulation pump is omitted.

The sensor correction module 300 is driven and controlled by the control module 100 to prevent deterioration of the sensitivity of the first sensor 21 and the second sensor 22 as well as to correct the zero point of the sensing data. let it be

To this end, the sensor calibration module 300 periodically or intermittently supplies odorless gas to the first sensor 21 and the second sensor 22 so that the sensors are zero point calibrated. Here, the odorless gas is air that is easy to handle, air that does not contain ammonia or hydrogen sulfide, or nitrogen that can correct the second sensor 22, for example, and the second sensor 22. It will be possible to apply various gases such as the same single gas.

Meanwhile, the sensor correction module 300 is connected to the supply pipe through a supply pipe formed with a flow path so that external air introduced by driving the deodorizing fan 10 is supplied to the odor reaction tank 30 and a three-way valve. It may be configured to include an odorless gas supply pipe and a three-way valve. The three-way valve is configured at a point where the supply pipe and the odorless gas supply pipe meet, and is driven and controlled by the control module 100 to transmit the gas or the odorless gas to the first sensor 21 and the second sensor 22. serves to selectively supply

[Fourth Embodiment]

9 is a configuration diagram of a smart power-saving complex deodorizer capable of variable driving according to an odor concentration according to a fourth embodiment of the present invention.

In the fourth embodiment, the filter 35 mounted on the inner lower part of the odor reaction tank 30 filters foreign substances in the outside air containing the odor, and the odor filtered out by the filter 35 is removed from the odor reaction tank 30. ) and has a configuration so that odors are deodorized while reacting in

The filter 35 may be composed of a non-woven fabric filter to remove large particulate matter and smoke from the external air flowing into the odor reaction tank 30 by the driving of the deodorizing fan 10, and foreign substances or volatile organic compounds ( It can also be configured with an activated carbon filter to adsorb and remove VOCs, volatile organic compounds), odors and gases that are malodorous.

In the present embodiment, the control module 100 may control the system by setting the odor removal performance of the filter 35 to one capable of reducing odor by one level. That is, when the odor concentration is high, the odor concentration changes to a medium concentration through the filter 35, and the odor reaction tank 30 controls the elements constituting the system in the control module 100 to perform an operation corresponding to the medium concentration. to control the action.

In this case, in consideration of the filtering performance of the filter 35, when the odor concentration is high, the control module 100 sets the operation of the first to fourth valves controlled to match the medium concentration in a state of being driven. will control That is, assuming that the operation level of the first to fourth valves controlled when the concentration of odor contained in the external air flowing into the odor reaction tank 30 is high, the first valve in consideration of the performance of the filter 35 to control the operating level of the fourth valve to a medium level.

In addition, when the odor concentration is medium, the operation of the first to fourth valves, which are controlled to match the odor concentration, may be controlled to match the low concentration.

In addition, when the odor concentration is low, the operation of the first to fourth valves controlled to match the low concentration may be controlled to be stopped.

However, this valve control operation is possible under the assumption that the filter 35 maintains initially set performance.

By configuring the filter 35 in this way, the odor contained in the outside air introduced into the odor reaction tank 30 can be efficiently removed.

In addition, when this configuration is linked with the third sensor 23 that detects the concentration of odor remaining in the external air discharged from the odor reaction tank 30, that is, the external air discharged to the outside after the odor reaction in the odor reaction tank 30, The driving speed of the deodorizing fan 10 can be more efficiently controlled.

An example of a driving speed control operation of the deodorizing fan 10 based on this configuration will be described below.

As an example, a state in which the system is driven while the driving speed of the deodorizing fan 10 is set to a high speed so that a large amount of outside air is introduced because the odor concentration detected by the first sensor 21 and the second sensor 22 is high. Listen.

After being filtered by the filter 35 and reacting in the odor reaction tank 30, the residual odor concentration contained in the discharged external air is detected by the third sensor 23 and analyzed by the control module 100, resulting in heavy concentration , as long as the states of the first to fourth valves are determined to be normal, after analyzing that the filtering operation of the filter 35 is not normal, take appropriate measures such as temporarily placing emphasis on the operation of the deodorizing fan 10 can make it

In addition, since the odor concentration detected by the first sensor 21 and the second sensor 22 is medium, the driving speed of the deodorizing fan 10 is set to medium speed to drive the system while making the incoming outside air heavy. Take state as an example.

After being filtered by the filter 35 and reacting in the odor reaction tank 30, the residual odor concentration contained in the discharged external air is detected by the third sensor 23 and analyzed by the control module 100, and the result is low concentration. If so, as long as the states of the first to fourth valves are determined to be normal, after analyzing that the filtering operation of the filter 35 is not normal, take appropriate measures, such as temporarily putting emphasis on the operation of the deodorizing fan 10 can do.

The operation example described above is the odor reaction tank 30, the catalyst injection nozzle 40, the catalyst reaction tank 50, the sodium hypochlorite aqueous solution reaction tank 60, the chemical storage tank 70, the water storage tank 80, the first to the first It can be variously implemented in relation to whether the 4 valves 35, 65, 75, and 85 are normally operated.

As described above, the detailed description of the present invention has been described with respect to the preferred embodiments of the present invention, but this is the best embodiment of the present invention exemplarily described, but does not limit the present invention. In addition, it is of course possible for anyone having ordinary knowledge in the technical field to which the present invention belongs to various modifications and imitations without departing from the scope of the technical idea of the present invention.

Therefore, the scope of the present invention is not limited to the above-described embodiments, but may be implemented in various forms of embodiments within the scope of the appended claims. And without departing from the subject matter of the present invention claimed in the claims, anyone with ordinary knowledge in the art to which the invention pertains is considered to be within the scope of the claims of the present invention to various extents that can be modified.

10: deodorizing fan 20: sensor module
21, 22, 23, 24: sensor 30: odor reaction tank
35, 65, 75. 85: valve 40: catalytic oxidation water spray nozzle
50: catalytic reaction tank 60: sodium hypochlorite aqueous solution reaction tank
70: drug storage tank 80: water storage tank
90: circulation pump 100: control module
200: catalytic oxidation water storage tank

Claims (7)

a deodorizing fan whose driving speed is controlled according to the odor concentration detected by the sensor module;
a circulation pump intermittently operated to control the circulation of catalytic oxidation water in the odor reaction tank according to the odor concentration detected by the sensor module;
an odor reaction tank that receives the external air and removes odor;
a sensor module that detects the concentration of odor contained in the external air flowing into the odor reaction tank by driving the deodorization fan;
a catalyst injection nozzle for injecting a liquid catalyst into the external air accommodated in the odor reaction tank to make contact;
a catalyst storage tank for storing a catalyst supplied to the catalyst injection nozzle to remove odor;
a catalyst oxidation water storage tank in which the catalyst from the catalyst storage is supplied to an odor reaction tank and catalytic oxidation water is circulated and stored from the odor reaction tank;
A sodium hypochlorite aqueous solution reaction tank supplied to the catalyst storage tank;
a chemical storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; and
a water storage tank supplied to the sodium hypochlorite aqueous solution reaction tank; As a control system that controls a smart power-saving complex deodorizer capable of variable driving according to the odor concentration configured to include,
a first sensor for detecting the concentration of ammonia contained in the external air flowing into the odor reaction tank;
a second sensor for detecting the concentration of hydrogen sulfide contained in the outside air flowing into the odor reaction tank;
a third sensor for detecting concentrations of ammonia and hydrogen sulfide in external air discharged to the outside after the odor reaction is completed in the odor reaction tank;
It is characterized in that it is configured to include a; control module for driving and controlling the system by analyzing the ammonia concentration and hydrogen sulfide concentration detected by the first sensor, the second sensor, and the third sensor,
The control module
When the odor concentration is detected by the first sensor and the second sensor while the external air continuously flows into the odor reaction tank by driving the deodorizing fan, the first sensor and the second sensor analyze it to control the driving speed of the deodorizing fan. Even though the odor concentration detected by the sensor is low, if it is analyzed that the odor concentration of the external air discharged from the odor reaction tank is not normally removed, the operation of the deodorization fan is temporarily stopped, and the first valve to the fourth valve After stopping the operation of the system check,
When external air continuously flows into the odor reaction tank by driving the deodorizing fan and the odor concentration is detected by the first sensor and the second sensor, it is analyzed and the driving speed of the deodorizing fan is controlled. Even though the odor concentration detected by the sensor is medium or high, if the odor concentration of the outside air discharged from the odor reaction tank is not normally removed and is analyzed to be low or medium, the deodorizing fan is temporarily driven at a low speed. Smart power-saving complex deodorizer control capable of variable operation according to the odor concentration, characterized in that the operation and control of the first to fourth valves so that the odor of the external air introduced into the odor reaction tank can be removed while reducing the amount of external air system.
The method of claim 1,
A smart power-saving complex deodorizer control system capable of variable driving according to odor concentration, characterized in that a fourth sensor for detecting the amount of external air flowing into the odor reaction tank by driving the deodorization fan is additionally configured.
The method of claim 1,
In the deodorizing fan, the odor concentration is classified into low concentration, medium concentration, and high concentration, and the driving speed is controlled.
The circulation pump is a smart power-saving complex deodorizer control system capable of variable driving according to the odor concentration, characterized in that the odor concentration is divided into low concentration, medium concentration, and high concentration, and the intermittent operation time is controlled.
The method of claim 1,
The sensor module is periodically or intermittently easy-to-handle air that is supplied with odorless gas that does not contain ammonia or hydrogen sulfide and is zero-corrected.
The method of claim 1,
The odor reaction tank is a smart power-saving complex deodorizer control system capable of variable driving according to the odor concentration, characterized in that the filter is configured at the inner lower part to remove foreign substances contained in the external air introduced by the driving of the deodorizing fan. delete delete

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