CN107355921A - A kind of environmentally friendly air cleaning unit - Google Patents

Abstract

A kind of environmentally friendly air cleaning unit, including：Housing, deduster, reactant generator, catalyst filter core, valve, air borne sensor and controller；The deduster is arranged in housing, for removing the dust in air；The reactant generator is oxidant generator, and it is arranged at the downstream of deduster；The catalyst filter core is located at the downstream of reactant generator, for the gas pollutant in catalytic purification air；The valve is arranged at the top of the catalyst filter core；The air borne sensor is arranged at the deduster upstream, for detecting the dust concentration in air；When surrounding air middle particle concentration exceedes threshold value, independent air duct is formed, after the air in air is by electrostatic precipitator double purification, then passes through catalyst filter core and carry out light catalytic purifying.

Description

A kind of environmentally friendly air cleaning unit

Technical field

The present invention relates to a kind of gas fractionation unit, more particularly, to the separation that particle and gas are polluted in a kind of air Purifier.

Background technology

Air ambient has with people most closely, most directly to be contacted.Life of the air quality of health for guarantee people Quality is most important.According to statistics, modern society's most people in life about more than 80% time spend indoors.Institute So that influence of the indoor environment to health of people is particularly important.Many studies have shown that most building various degrees Room air pollution, and in some aspects, room air pollution is also more serious than outdoor air pollution, to the healthy prestige of people The side of body is bigger.

Air pollution mainly includes physical pollution and chemical contamination.Physical pollution is mainly by SS Caused by thing, including dust, pollen, overall suspended pellet (TSP), microbial cell, smog etc..Chemical contamination includes inorganic gas Body and organic gaseous contamination, inorganic gas include S0₂、NO_x、0₃、NH₃Deng organic gaseous contamination includes volatile organic matter (VOCs), formaldehyde, benzene homologues etc..The closure of the interior space is become better and better in recent years, is hindered indoor and outdoor air convection current, is caused Indoor air pollutants are difficult to exclude, it is necessary to purify for indoor air pollutants.

Mainly there are physical absorption, filtering, electrostatic precipitation etc. for the purification techniques of physical pollution；For chemical contamination

Purification techniques includes ozone oxidation, photocatalysis etc..It is single in order to realize filtering to air, sterilization, deodorization, refresh function Realized by a kind of technology is difficult.At present, the air purifier of simple function is withdrawn from the market already, existing purification of air Device, the combination of a variety of purification techniques of generally use, using multi-filter system, for the physical pollution and chemistry in air Pollution carries out comprehensive decontamination.

In the prior art, air purifier generally includes the particulate filter positioned at upstream and the photocatalysis positioned at downstream Purifier, air enters after clarifier particle therein is separated by particulate burning purifying device after, then by the light catalytic purifying in downstream Device carries out catalytic separation for contaminant gases.Smell photocatalysis purifier exists usually using molecular sieve filter element, gas pollutant Wherein chemically reacted, so as to decomposition gas pollutant.However, for the very high air of pollution granule density, it is passing through After particulate filter, particulate filter may be passed through by remnants particulate pollutant；These remaining particulate pollutants can be assembled In the catalyst surface of molecular sieve filter element, influence the catalytic action of catalyst, so as to cause molecular sieve filter element can not realize for The purification of gas pollutant；And the particulate pollutant of the deposition will also become the source of air purifier secondary pollution.

In order to solve to pollute influence of the too high air of granule density for molecular sieve filter element, CN201110228063.9's Patent of invention proposes a kind of improved air separating purifying device, dust sensor is set before particulate filter, in air Valve is set in purifier, valve is opened when dust sensor detects high concentration dust, makes air inlet purifier Air flowed out by valve, and without molecular sieve filter element, so as to avoid particulate pollutant remaining in high concentration dust Influence for catalyst in molecular sieve filter element.But urged in the technical scheme of the invention in high concentration dust without using light Change purification, can not just purify the dusty gas in air.

The content of the invention

Improvement of the present invention as CN201110228063.9, it is proposed that a kind of air cleaning unit, can avoid highly concentrated Influence of the dust for catalyst in molecular sieve filter element is spent, while realizes the purification for dusty gas in air.

As one aspect of the present invention, there is provided a kind of air cleaning unit, including：Housing, deduster, reactant produce Device, catalyst filter core, valve, air borne sensor and controller；The deduster is arranged in housing, for removing in air Dust；The reactant generator is oxidant generator, and it is arranged at the downstream of deduster；The catalyst filter core is located at The downstream of reactant generator, for the gas pollutant in catalytic purification air；The valve is arranged at the catalyst filter The top of core；The air borne sensor is arranged at the deduster upstream, for detecting the dust concentration in air；The air First removable isolated element is set between sensor and the deduster, can be first by the passage isolation before deduster Access road and second entrance passage；Second removable isolation member is set between the deduster and the catalyst filter core Part, can be logical among the first center-aisle and second by the passage isolation between the deduster and the catalyst filter core Road；The controller can control the switch of the valve, the first removable isolated element and the second removable isolated element； When the described first removable isolated element and the second removable isolated element isolation, the first entrance passage, the dedusting The top of device, first center-aisle and the valve, form the first purification of air passage；The second entrance passage, The bottom of the deduster, second center-aisle and the catalyst filter core, form the second purification of air passage；It is described The air of first purification of air channel outlet is input to the second purification of air passage, second air by feedback pipe The air output of purification channel outlet is returned in environment.

Preferably, the first purification of air passage sets the first extraction fan.

Preferably, the second purification of air passage sets the second extraction fan.

Preferably, first extraction fan starts when the first purification of air passage is opened.

Preferably, the feedback pipe is arranged at the valve downstream, passes through the sky flowed out after the valve for receiving Gas.

Preferably, the reactant generator is located at the second purification of air passage.

Preferably, the second purification of air passage sets feedback channel opening, and it is connected with the feedback pipe.

Preferably, the second purification of air passage sets rotation valve, can close the sky of the second purification of air passage Gas entrance or feedback channel opening.

Preferably, the deduster is electrostatic precipitator, sets dividing plate among it.

Preferably, the controller receives the measurement result of the air borne sensor, the dust concentration in air, control Make opening for the valve, the first removable isolated element, the second removable isolated element, closure elements and feedback channel opening Close.

Preferably, when the dust concentration that the sensor is detected in air, which is more than, sets threshold value, rotation valve is set To vertical position, the feedback channel opening is opened；Mobile first removable isolated element and the second removable isolated element, Form first entrance passage, second entrance passage, the first center-aisle and the second center-aisle；Open the valve；Make sky After gas passes sequentially through the first purification of air passage, feedback pipe and the purification of the second purification of air passage, return in environment.

Preferably, when the dust concentration that the sensor is detected in air, which is less than, sets threshold value, rotation valve to water Prosposition is put, and closes the feedback channel opening；Mobile first may move isolated element, and merging first entrance passage and second enter Mouth passage；Mobile second removable isolated element, merges the first center-aisle and the second center-aisle；Close the valve； Air is passed sequentially through deduster, reactant generator, after catalyst filter core, return in environment.

Preferably, the catalyst filter core includes molecular sieve filter element.

Preferably, the deduster is electrostatic precipitator.

Brief description of the drawings

Structural representation when Fig. 1 is the first state of the air cleaning unit of the embodiment of the present invention.

Structural representation when Fig. 2 is the second state of the air cleaning unit of the embodiment of the present invention.

Fig. 3 is the electrostatic precipitator structure diverse location figure of the preferred embodiment of the present invention.

In order to illustrate more clearly of technical scheme, embodiment will be used simply to be situated between the present invention below Continue, it should be apparent that, in describing below is only one embodiment of the present of invention, is come for those of ordinary skill in the art Say, without having to pay creative labor, other technical schemes can also be obtained according to these embodiments, fallen within Disclosure of the invention scope.

The air cleaning unit of the embodiment of the present invention, referring to Fig. 1 and Fig. 2, including housing 100, deduster 10, react produce Raw device 20, catalyst filter core 30, valve 40, air borne sensor 50 and controller（It is not shown）.Deduster 10 is arranged at housing In 100, for removing the Particulate Pollution thing in air；Electrostatic dust-collecting device can be used as deduster 10, deduster 10 Centre sets dividing plate 11, and deduster 10 is divided into upper and lower part.Air borne sensor 50 is arranged at before deduster 10, is used for Detect the dust concentration in the air before entering deduster 10.

Reactant generator 20 is oxidant generator, and it is arranged at the downstream of deduster, for producing oxidant reaction Thing.Catalyst filter core 30 is located at the downstream of reactant generator, and reactant is with the gas pollutant in air in catalyst filter core Catalytic reaction in 30 and decomposition gas pollutant.

Catalyst filter core 30 can be molecular sieve filter element, and it includes photocatalysis catalyst titanium dioxide.On catalyst filter core 30 Side sets valve 40, and valve 40 can export the air by it when opening；When valve 40 is closed, air is only filtered by catalyst Core 30 flows out.

First removable isolated element 70 is set between air borne sensor 50 and deduster 10, can be by before deduster 10 Passage isolation be first entrance passage 101 and second entrance passage 102.Set between deduster 10 and catalyst filter core 30 Second removable isolated element 80, can be the first center-aisle by the passage isolation between deduster 10 and catalyst filter core 30 201 and second center-aisle 202.

It can be moveable bulkhead that first removable isolated element 70 and second, which may move isolated element 80, be moved into Centre position, passage can be completely cut off；It is moved into above housing, passage can be merged.

Feedback pipe 90 is set after valve 40, and it receives the air by valve 40；In the side of second entrance passage 102 Feedback channel opening 91 is set, and feedback pipe 90 is connected with feedback channel opening 91, the air that valve 40 is flowed out, can pass through Feedback channel opening 91 carries out second entrance passage 102.

Second entrance passage 102 sets rotation valve 92, and it can close the air intake for second entrance passage 102 Or feedback channel opening 91.When rotation valve 92 rotates to vertical position, it is together with the first removable isolated element 70 The air for completely cutting off second entrance passage 102 is flowed into, and now feedback channel opening 91 is opened；When rotation valve 92 rotates to horizontal position When putting, feedback channel opening 91 is closed, and second entrance passage 102 can carry out air inflow.

The testing result of controller reception air borne sensor 50, the dust concentration in intake air, control valve 40, First removable isolated element 70, second may move isolated element 80, the switch for rotating valve 92 and motion.

Specifically, when the dust concentration that air borne sensor 50 is detected in air is more than and sets threshold value, referring to Fig. 2, if Put rotation valve 92 and arrive vertical position, open feedback channel opening 91, the air intake of closing second entrance passage 102；It is mobile First removable isolated element 70 and second may move isolated element 80, form first entrance passage 101, second entrance passage 102nd, the first center-aisle 201 and the second center-aisle 202；Open valve 40.

First entrance passage 101, the top of deduster 10, the first center-aisle 201 and valve 40, form the first air Purification channel；Second entrance passage 102, the bottom of deduster 10, the second center-aisle 202 and catalyst filter core 30, formed Second purification of air passage, wherein reactant generator 20 are located in the second purification of air passage.Can be in the first purification of air Passage and the second purification of air passage, set the first extraction fan and the second extraction fan, for driving the stream of air respectively It is dynamic.

Air cleaning unit in this condition when, air passes sequentially through the first purification of air passage, feedback pipe and After the purification of two purification of air passages, return in environment.

When the dust concentration that air borne sensor 50 is detected in air, which is less than, sets threshold value, referring to Fig. 1, rotation is set to live Door 92 is to horizontal level so as to closing feedback channel opening 91；Mobile first removable isolated element 70, merges first entrance and leads to Road 101 and second entrance passage 102；Mobile second removable isolated element 80, merges the first center-aisle 201 and second Center-aisle 202；Close valve 40.

Air cleaning unit in this condition when, air passes sequentially through deduster 10, reactant generator 20, catalyst filter After core 30, return in environment.

By the structure setting of the technical scheme of above-described embodiment, make when surrounding air middle particle concentration exceedes threshold value, Form independent air duct, after the air in air is by electrostatic precipitator double purification, then entered by catalyst filter core Row light catalytic purifying, so as to avoid influence of the air high concentration dust for catalyst in molecular sieve filter element, while realization pair The purification of dusty gas in air.

But in above-described embodiment, when surrounding air middle particle concentration exceedes threshold value, electrostatic precipitator double purification When, first added using the top of deduster 10 for high granule density air, it is then that the low granule density after purification is empty Gas carries out double purification by the bottom of dust removal unit 10；Due to of the air handled by the upper and lower part of electrostatic precipitator Grain concentration is different, after multiple double purification operation is carried out, may cause the dust removal performance of electrostatic precipitator upper and lower part Inequality, so as to influence the dust removing effects of electrostatic precipitator.

Preferably, the dust removal unit 10 of the improved embodiment of the present invention, referring to accompanying drawing 3, including turn with centre position is set Axle 110, rotated, the position on the top 120 of dust removal unit 10 and bottom 130 can mutually be replaced by rotating shaft 110.Air is net Makeup, which is put, also sets up timer, is counted for surrounding air middle particle concentration more than threshold value so as to carry out the time of double purification When and summation, when the time of double purification reaching Ct value, controller controls rotating shaft 110 by the top of dust removal unit 10 120 and the location swap of bottom 130, so that the top 120 of dust removal unit 10 and the dust removal performance of bottom 130 are uniform, enter One step improves the purifying property and stability of air cleaning unit.

It should be noted that herein, such as first and second or the like relational terms are used merely to a reality Body or operation make a distinction with another entity or operation, and not necessarily require or imply and deposited between these entities or operation In any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant are intended to Nonexcludability includes, so that process, method, article or equipment including a series of elements not only will including those Element, but also the other element including being not expressly set out, or it is this process, method, article or equipment also to include Intrinsic key element.In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that Other identical element also be present in process, method, article or equipment including the key element.

In all documents for referring to of the present invention all incorporated by reference in this application, it is individually recited just as each document As with reference to such.In addition, it is to be understood that after the above disclosure of the present invention has been read, protection scope of the present invention is not Above-described embodiment is limited only to, those skilled in the art can make various changes or modifications to the present invention, not depart from the present invention Under the premise of principle, these equivalent form of values equally fall within the application appended claims limited range.

Claims (9)

1. a kind of air cleaning unit, including：Housing, deduster, reactant generator, catalyst filter core, valve, air sensing Device and controller；The deduster is arranged in housing, for removing the dust in air；The reactant generator is oxygen Agent generator, it is arranged at the downstream of deduster；The catalyst filter core is located at the downstream of reactant generator, for being catalyzed Purify the gas pollutant in air；The valve is arranged at the top of the catalyst filter core；The air borne sensor is set In the deduster upstream, for detecting the dust concentration in air；It is characterized in that：The air borne sensor and the dedusting First removable isolated element is set between device, can be first entrance passage and second by the passage isolation before deduster Access road；Second removable isolated element is set between the deduster and the catalyst filter core, can be by the dedusting Passage isolation between device and the catalyst filter core is the first center-aisle and the second center-aisle；The controller can be controlled Make the switch of the valve, the first removable isolated element and the second removable isolated element；Described first removable isolation When element and the second removable isolated element isolation, in the first entrance passage, the top of the deduster, described first Between passage and the valve, formed the first purification of air passage；The second entrance passage, the bottom of the deduster, institute The second center-aisle and the catalyst filter core are stated, forms the second purification of air passage；The first purification of air passage goes out The air of mouth is input to the second purification of air passage, the air of the second purification of air channel outlet by feedback pipe Output is returned in environment.

2. air cleaning unit according to claim 1, it is characterised in that：The catalyst filter core includes molecule sieving Core.

3. air cleaning unit according to claim 2, it is characterised in that：The deduster is electrostatic precipitator.

4. air cleaning unit according to claim 3, it is characterised in that：The first purification of air passage sets first Extraction fan.

5. air cleaning unit according to claim 4, it is characterised in that：The second purification of air passage sets second Extraction fan.

6. air cleaning unit according to claim 3, it is characterised in that：First extraction fan is empty described first Gas purification channel starts when opening.

7. air cleaning unit according to claim 6, it is characterised in that：The feedback pipe is arranged under the valve Trip, pass through the air flowed out after the valve for receiving.

8. air assembly according to claim 7, it is characterised in that：The reactant generator is located at the second purification of air Passage.

9. air cleaning unit according to claim 8, it is characterised in that：The second purification of air passage sets closing Element, the air intake for the second purification of air passage；The second purification of air passage also sets up feedback channel opening, its It is connected with the feedback pipe.