CN215352899U - High-energy ion deodorization waste gas treatment equipment - Google Patents

Abstract

The utility model provides high-energy ion deodorization waste gas treatment equipment, which comprises a multi-stage oxidation device for oxidizing waste gas molecules, a suction device for controlling waste gas to flow and a gas absorption device connected to one end of the suction device, wherein the suction device is used for controlling the flow of the waste gas; the utility model improves the capability of oxidizing and decomposing pollutants and removing peculiar smell, can efficiently purify waste gas, and can recover oxidizing substances generated after the waste gas is treated, thereby avoiding the pollution of the waste gas or the oxidizing substances to the outside air.

Description

High-energy ion deodorization waste gas treatment equipment

Technical Field

The utility model relates to the field of waste gas treatment equipment, in particular to high-energy ion deodorization waste gas treatment equipment.

Background

Before domestic sewage, production sewage discharge, need earlier handle all kinds of sewage through occasions such as sewage treatment station, and occasions such as sewage treatment station can produce a large amount of foul exhaust gas that distribute after long-time processing sewage, if these exhaust gas is not timely processing, can influence staff's healthy.

The existing waste gas treatment equipment is generally only provided with an exhaust device and a single waste gas treatment device, the effect and the efficiency of waste gas treatment are lower, and substances generated in the waste gas treatment process cannot be recovered, so that the outside air is easily polluted.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-energy ion deodorization waste gas treatment device which can efficiently purify waste gas, recover oxidizing substances generated after waste gas treatment and prevent the waste gas or the oxidizing substances from polluting outside air.

In order to solve the technical problem, the utility model provides a high-energy ion deodorization waste gas treatment device which comprises a multi-stage oxidation device for oxidizing waste gas molecules, a suction device for controlling waste gas flow and a gas absorption device connected to one end of the suction device.

Further, multistage oxidation unit includes two at least oxidation modules, and when multistage oxidation unit includes two oxidation modules, two oxidation modules are consecutive high energy ion wind module and photocatalytic oxidation module respectively.

Furthermore, the gas absorption device comprises a power water source and a high-pressure flow passage connected to one side of the power water source.

Furthermore, the suction device comprises a glass fiber reinforced plastic fan for sucking gas under negative pressure, and one end of the glass fiber reinforced plastic fan is connected with the multistage oxidation device.

Furthermore, the device also comprises a detection module for detecting the operation data of the sewage treatment station and a control module for controlling the multistage oxidation device and the suction device.

Further, the detection module comprises a gas detector for detecting harmful gas data.

Furthermore, the detection module also comprises an information sending element used for sending information data of the operation condition of the sewage treatment station.

Furthermore, the sewage treatment plant also comprises an information terminal for receiving information data of the operation condition of the sewage treatment plant, and the information terminal can send the information data for adjusting the multistage oxidation device and the suction device.

Further, the control module comprises an information receiving element for receiving the information data sent by the information terminal and the information sending element.

When waste gas treatment is carried out in places such as a sewage treatment station, the suction device is started to suck the waste gas into the multistage oxidation device, then the sucked waste gas is treated by the multistage oxidation device, meanwhile, the waste gas treatment effect is obviously improved as the waste gas passes through the multistage waste gas treatment processing procedure in the multistage oxidation device, and the waste gas treatment efficiency in the sewage treatment station is greatly improved by matching with the uninterrupted suction of the suction device in the sewage treatment station; meanwhile, as one end of the suction device is also connected with the gas absorption device, the oxidizing substances generated in the process of treating the waste gas by the multistage oxidation device can be uniformly recovered by the gas absorption device, and the condition that the part of substances pollute the outside air is avoided.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Reference numerals: 1. a high energy ion wind module; 2. a photocatalytic oxidation module; 3. a glass fiber reinforced plastic fan; 4. a gas absorption device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be constructed and operated in a particular orientation and thus are not to be considered limiting.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

As shown in fig. 1, the present invention provides a high energy ion deodorizing exhaust gas treating apparatus comprising a multi-stage oxidizing means for oxidizing exhaust gas molecules, a pumping means for controlling the flow of exhaust gas, and a gas absorbing means 4 connected to one end of the pumping means.

When waste gas treatment is carried out in places such as a sewage treatment station, firstly, the suction device is started to suck the waste gas into the multistage oxidation device, then the sucked waste gas is treated by the multistage oxidation device, meanwhile, the waste gas is subjected to multistage waste gas treatment processing procedures in the multistage oxidation device, so that the treatment effect of the waste gas is obviously improved, and the suction device is matched with the continuous suction in the sewage treatment station, so that the waste gas treatment efficiency in the sewage treatment station is greatly improved; meanwhile, as one end of the suction device is also connected with the gas absorption device, the oxidizing substances generated in the process of treating the waste gas by the multistage oxidation device can be uniformly recovered by the gas absorption device, and the condition that the part of substances pollute the outside air is avoided.

Preferably, the multi-stage oxidation device comprises at least two oxidation modules, and when the multi-stage oxidation device comprises two oxidation modules, the two oxidation modules are respectively a high-energy ion wind module 1 and a photocatalytic oxidation module 2 which are connected in sequence.

Specifically, the high-energy ion wind module adopts a high-energy ion wind technology, namely filtered fresh air passes through an ion generating device and is activated into high-energy ion clusters (containing a large number of active positive and negative ions, photoelectrons, hydroxyl radicals and other strong oxidizing active groups), and the ion clusters are sent to the position of waste gas through a fan; the ion clusters with extremely high oxidizability wrap pollutants, bacteria, molds, viruses and the like of odor and odor molecules (ammonia, hydrogen sulfide, mercaptan and the like) in the waste gas, and then are rapidly oxidized, decomposed or inactivated, so that the effects of purification, disinfection and sterilization are achieved.

The photocatalytic oxidation module adopts a photocatalytic oxidation technology, namely, ultraviolet light irradiates the aluminum-based photocatalytic filter screen, high-energy UV light beams are utilized to crack molecular bonds of bacteria in waste gas, nucleic acid of the bacteria is destroyed, and then ozone is used for oxidation reaction, so that the aims of deodorizing and killing the bacteria are achieved.

In this scheme, high energy ion wind module, photocatalytic oxidation module and suction device connect gradually, and carry out exhaust-gas treatment in high energy ion wind module and the photocatalytic oxidation module through suction device drive waste gas in proper order, make the high energy ion wind module initiative mixed waste gas that is located the front end, cooperation middle section photocatalytic oxidation technique synergism, further improve this equipment to the oxidative decomposition thing of waste gas and the ability of getting rid of the peculiar smell, make the oxidizing power of this equipment improve, possess the bactericidal ability simultaneously, reach high-efficient effect of purifying under the synergism of high energy ion wind module and photocatalytic oxidation module.

Preferably, the gas absorption device 4 comprises a power water source and a high-pressure flow passage connected to one side of the power water source.

Specifically, after the waste gas is treated by the multistage oxidation device to generate the oxidizing substances, the gas absorption device is started, so that the power water source provides the water body, the water body flows rapidly in the high-pressure flow channel, and at the moment, the venturi effect is utilized, so that the water body rapidly flows in the high-pressure flow channel, the oxidizing substances generated by the waste gas in the multistage oxidation device are absorbed at a high speed, and the oxidizing substances are dissolved in the water, so that the effect of absorbing water-soluble peculiar smell molecules is achieved.

In the scheme, the power water source is tap water or circulating water, when the tap water is used as the power water source, the tap water enters the high-pressure flow channel to absorb the oxidizing substances, then the tap water flows out of the gas absorption device and takes away the oxidizing substances so as to facilitate subsequent recovery or discharge; when the circulating water is used as a power water source, the circulating water continuously and circularly flows in the high-pressure flow channel and continuously absorbs the oxidizing substances, and after the gas absorption device is used for a period of time, the circulating water is periodically and automatically discharged and supplemented, so that the circulating water can continuously absorb the oxidizing substances.

In addition, when the gas absorption device is actually used, a hydrochloric acid tank, a sodium hypochlorite storage tank, an intelligent disinfectant adding device capable of automatically dissolving disinfectant powder, a chlorine dioxide disinfection device, a contact disinfection tank and other disinfection devices can be used in a matched mode, when the matched disinfection devices are used for disinfecting the internal environment of the sewage treatment station, oxidizing substances containing disinfectant components can be generated, and the oxidizing substances containing the disinfectant components can be recovered through the gas absorption device.

Preferably, the suction device comprises a glass fiber reinforced plastic fan 3 for sucking gas under negative pressure, and one end of the glass fiber reinforced plastic fan is connected with the multistage oxidation device.

Specifically, because what this scheme adopted is that the mode of negative pressure suction guides waste gas, compare in the fan blow waste gas and carry out the mode that guides, the negative pressure suction can more accurate guide waste gas carry out the assigned position, avoid waste gas to be blown away and the condition that the exhaust-gas treatment efficiency that leads to becomes low blowing the in-process.

Preferably, the system also comprises a detection module for detecting the operation data of the sewage treatment station and a control module for controlling the multistage oxidation device and the suction device.

The detection module can detect the operation data of the sewage treatment station in real time, and the operation data of the sewage treatment station are controlled by the control module, so that the operation states of the multistage oxidation device and the suction device can be changed according to the operation states of the sewage treatment station, and the adaptability of the multistage oxidation device and the suction device to different operation conditions of the sewage treatment station is improved.

Preferably, the detection module comprises a gas detector for detecting harmful gas data.

Specifically, because be equipped with gaseous detector in the detection module in this scheme, this gaseous detector can detect harmful gas data, for example hydrogen sulfide gas etc. consequently when detection module detects the behavior at sewage treatment station, contained harmful gas's detection data in the behavior for the waste gas data in the sewage treatment station can be known to the staff, and waste gas data comes timely control multistage oxidation unit and suction device more.

Preferably, the detection module further comprises an information sending element for sending information data of the operating condition of the sewage treatment station.

Specifically, after the detection module detects the operation condition information data of the sewage treatment station, the operation condition information data is sent out through the information sending element, so that the multistage oxidation device and the suction device can be controlled through the information data sent out subsequently.

Preferably, the sewage treatment plant further comprises an information terminal for receiving information data of the operation condition of the sewage treatment plant, and the information terminal can transmit information data for adjusting the multistage oxidation device and the suction device.

Specifically, after information sending component comes out sewage treatment station operation condition information data transmission, this partial data is received to information terminal for the operating conditions at information terminal knowledge sewage treatment station can be in real time known to the staff, so that the staff carries out timely control to the equipment in the sewage treatment station, ensures that the exhaust-gas treatment in the sewage treatment station keeps at steady state.

In the scheme, the information terminal comprises a fixed terminal and a mobile terminal, the fixed terminal is a fixed computer, a fixed display screen and the like, and the mobile terminal is a mobile phone terminal, a mobile computer and the like.

Preferably, the control module includes an information receiving element for receiving information data transmitted by the information terminal and the information transmitting element.

After the staff sends the information data that is used for adjusting multistage oxidation device and suction device through information terminal to and information sending component send sewage treatment station operational aspect information data, information receiving component receives above-mentioned information, handle above-mentioned information afterwards and control multistage oxidation device and suction device's running state through control module, make multistage oxidation device and suction device both can adjust by oneself after information sending component sends information data, also can carry out manual control on information terminal at the staff, so that guarantee that multistage oxidation device and suction device can in time adapt to different sewage treatment station operational aspect.

In this embodiment, the control module is further provided with an information processing element for processing information data sent by the information terminal for adjusting the multistage oxidation device and the pumping device and information data of operating conditions of the sewage treatment station sent by the information sending element, and after the information processing element processes the information data, the control module controls the multistage oxidation device and the pumping device according to processing results of the information processing element.

Based on above-mentioned high energy ion deodorization exhaust-gas treatment equipment, combine sewage treatment station actual conditions, can also have multiple operation mode, specifically be following several operation modes:

mode A: detect the operational aspect at sewage treatment station through the detection module, combine the operational aspect of equipment such as the inside water yield of sewage treatment station, elevator pump, aeration fan, directly set up multistage oxidation unit and suction device's operational aspect for the full automatic operation of high energy ion deodorization exhaust-gas treatment equipment.

And (3) mode B: 24 hours a day, the operation states of the multistage oxidation device and the pumping device in each time period are respectively adjusted according to the independent time periods, and the operation states of the multistage oxidation device and the pumping device are controlled by the control module to change.

And mode C: the running condition of the sewage treatment station is detected through the detection module, the harmful gas is detected by the gas detector in the detection module, the information data of the running condition of the sewage treatment station is sent to the information receiving element in the control module through the information sending element, then the information data is processed through the information processing element to obtain a processing result, and the running state of the equipment is automatically adjusted according to the processing result through the control module.

Mode D: and the operation state of the multistage oxidation device and the pumping device is manually controlled in a manual intervention mode by knowing the operation condition in the sewage treatment station through the information terminal by a worker.

In the scheme, the high-energy ion wind module and the photocatalytic oxidation module in the multistage oxidation device can respectively adjust the operation proportion, so that the effect of waste gas treatment is ensured.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a high energy ion deodorization exhaust-gas treatment equipment which characterized in that: comprises a multi-stage oxidation device for oxidizing exhaust gas molecules, a suction device for controlling the flow of the exhaust gas and a gas absorption device (4) connected with one end of the suction device.

2. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 1, characterized in that: the multistage oxidation device comprises at least two oxidation modules, and when the multistage oxidation device comprises the two oxidation modules, the two oxidation modules are respectively a high-energy ion wind module (1) and a photocatalytic oxidation module (2) which are sequentially connected.

3. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 1, characterized in that: the gas absorption device (4) comprises a power water source and a high-pressure flow passage connected to one side of the power water source.

4. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 1, characterized in that: the suction device comprises a glass fiber reinforced plastic fan (3) for sucking gas under negative pressure, and one end of the glass fiber reinforced plastic fan is connected with the multistage oxidation device.

5. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 1, characterized in that: the device also comprises a detection module for detecting the operation data of the sewage treatment station and a control module for controlling the multistage oxidation device and the suction device.

6. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 5, characterized in that: the detection module comprises a gas detector for detecting harmful gas data.

7. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 5, characterized in that: the detection module also comprises an information sending element used for sending information data of the operation condition of the sewage treatment station.

8. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 7, characterized in that: the sewage treatment plant also comprises an information terminal used for receiving information data of the operation condition of the sewage treatment plant, and the information terminal can send the information data used for adjusting the multistage oxidation device and the pumping device.

9. The high-energy ion deodorizing exhaust-gas treating apparatus according to claim 8, characterized in that: the control module comprises an information receiving element for receiving information data sent by the information terminal and the information sending element.

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