CN204203201U

CN204203201U - Air pollutant parameter treatment equipment and system

Info

Publication number: CN204203201U
Application number: CN201420650236.5U
Authority: CN
Inventors: 封宗瑜; 杨勇; 肖利容; 韦磊; 胡逢亮
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2014-10-31
Filing date: 2014-10-31
Publication date: 2015-03-11
Anticipated expiration: 2024-10-31

Abstract

The utility model discloses an air contaminant parameter's treatment facility and system. Wherein, this treatment facility includes: the sensor device is arranged in the indoor environment and is used for detecting the real-time pollutant concentration of gaseous pollutants and particle pollutants in the indoor environment in real time; a central processing unit connected to the sensor means for determining the amount of clean air for the gaseous pollutants and the particulate pollutants in accordance with the respective real-time pollutant concentrations; and the display device is connected with the central processing unit and is used for displaying the value of each clean air quantity. Adopt the utility model discloses, solved among the prior art and can't show the problem that purifies the required CADR value in current space, realized can confirming the effect that purifies the required CADR value in current space and show according to the gaseous pollutant of current indoor environment and particle pollutant's factual pollutant concentration.

Description

The treatment facility of air pollutants parameter and system

Technical field

The utility model relates to purification of air control field, in particular to a kind for the treatment of facility and system of air pollutants parameter.

Background technology

Present GB is by CADR (Clean Ari Delivery Rate, namely pure air exports ratio, also Clean air delivery rate is referred in this application) be decided to be the first index evaluating air purifier, user selects air purifier, judge that air purifier needs whether can meet oneself room decontamination with the CADR of this air purifier and requires as standard, but can not show the detecting instrument of required CADR in prior art, user also directly cannot judge that whether the CADR of air purifier is up to standard.

Current GB provides the recommendation conversion method of a kind of room area and clarifier CADR matching relationship, namely how many room areas are suitable for great Clean air delivery rate, but method of the prior art exists following problem: recommend method does not consider the situation of indoor pollution source; Recommend method does not consider the situation of ambient outdoor air mass change; Recommend method is only applicable to the CADR of particle, does not have recommend method to calculate the CADR of gaseous contaminant.

For the problem that cannot show CADR value needed for purification current spatial in prior art, at present effective solution is not yet proposed.

Utility model content

For the problem that cannot show CADR value needed for purification current spatial in correlation technique, at present effective solution is not yet proposed, for this reason, fundamental purpose of the present utility model is the treatment facility and the system that provide a kind of air pollutants parameter, to solve the problem.

To achieve these goals, according to an aspect of the present utility model, provide a kind for the treatment of facility of air pollutants parameter, this treatment facility comprises: sensor device, in environment disposed in the interior, for the gaseous contaminant of real-time sensing chamber environment and the real-time pollutant levels of particulate pollutant; CPU (central processing unit), is connected with sensor device, for the Clean air delivery rate according to each real-time pollutant levels determination gaseous contaminant and particulate pollutant; Display device, is connected with CPU (central processing unit), for showing the value of each Clean air delivery rate.

Further, sensor device comprises the following sensor of at least one: dust sensor, for the concentration of the dust pollution thing in real-time sensing chamber environment; PM2.5 sensor, for the concentration of the PM2.5 pollutant in real-time sensing chamber environment; Formaldehyde sensor, for the concentration of the formaldehyde pollutants in real-time sensing chamber environment; Toxic gas sensor, for the concentration of the toxic gas in real-time sensing chamber environment; Peculiar smell sensor, for the concentration of the peculiar smell in real-time sensing chamber environment; And carbon dioxide sensor, for the concentration of the carbon dioxide in real-time sensing chamber environment.

Further, treatment facility comprises: push-button unit, is arranged on the panel for the treatment of facility, by the area of the key-press input indoor environment of push-button unit; CPU (central processing unit) is connected with push-button unit, for the Clean air delivery rate according to area and each real-time pollutant levels determination particulate pollutant and gaseous contaminant.

Further, CPU (central processing unit) comprises: first memory, is arranged on the circuit board of CPU (central processing unit), for storing the standard cleaning curve of default gaseous contaminant and particulate pollutant; First counter, is connected with first memory, for calculating the normal concentration changing value of gaseous contaminant and particulate pollutant; Second counter, is connected with sensor device, for according to gaseous contaminant and the real-time pollutant levels count particles pollutant of particulate pollutant and the real-time concentration changing value of gaseous contaminant; First comparer, is connected with the second counter respectively at the first counter, for obtaining the difference of normal concentration changing value and real-time concentration changing value; First process subelement, is connected with the first comparer, for foundation difference determination Clean air delivery rate.

Further, CPU (central processing unit) also comprises: second memory, for storing the pollution concentration threshold value of gaseous contaminant and particulate pollutant; Second comparer, is connected between sensor device and second memory, for the size of more real-time pollutant levels and pollutant levels threshold value; Second process subelement, is connected with the second comparer, for when real-time pollutant levels exceed pollutant levels threshold value, generates alerting signal.

Further, treatment facility also comprises: warning device, processes subelement be connected, for reporting to the police according to alerting signal with second.

Further, warning device comprises: pilot lamp, processes subelement be connected, for bright when receiving alerting signal with second; Loudspeaker, processes subelement be connected, for playing the voice messaging in alerting signal with second; And display device and second processes subelement and is connected, for the Word message in display alarm signal.

Further, treatment facility also comprises: communication unit, is connected with CPU (central processing unit), for transmitting Clean air delivery rate.

To achieve these goals, according to an aspect of the present utility model, provide a kind of disposal system of air pollutants parameter, this disposal system comprises: the treatment facility of air pollutants parameter; Terminal, is connected with the communication unit for the treatment of facility, for receiving Clean air delivery rate, wherein, terminal comprise following in one of at least: mobile terminal, host computer and air cleaning unit.

Adopt the utility model embodiment, obtain the gaseous contaminant of indoor environment and the real-time pollutant levels of particulate pollutant by sensor device, and be purified the CADR needed for pollutant by CPU (central processing unit), then shown by display unit.User's intuitive judgment indoor pollution situation can be helped by such scheme, help user's choose reasonable air purifier, and there is pollution source and ambient outdoor air quality in indoor when changing, the situation of change of indoor pollution situation detected, and obtain according to detected value the concrete pure air value needing increase or minimizing, pass through the utility model, solve in prior art the problem that cannot show CADR value needed for purification current spatial, achieve and can determine to purify CADR value needed for current spatial and the effect of display according to the true pollutant levels of the gaseous contaminant of current indoor environment and particulate pollutant.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, and form a application's part, schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the schematic diagram of the treatment facility of air pollutants parameter according to the utility model embodiment;

Fig. 2 is the schematic diagram of the treatment facility of a kind of optional air pollutants parameter according to the utility model embodiment;

Fig. 3 is the schematic diagram of a kind of optional standard cleaning curve according to the utility model embodiment;

Fig. 4 is according to the optional standard cleaning curve of the one of the utility model embodiment and purifies curve comparison figure in real time;

Fig. 5 be according to the standard cleaning curve of a kind of optional particulate pollutant of the utility model embodiment with purify curve comparison figure in real time;

Fig. 6 is standard cleaning curve, the real-time schematic diagram purifying curve and correction purification curve of a kind of optional particulate pollutant according to the utility model embodiment;

Fig. 7 is the process flow diagram of the disposal route of air pollutants parameter according to the utility model embodiment; And

Fig. 8 is the process flow diagram of the disposal route of a kind of optional air pollutants parameter according to the utility model embodiment.

Embodiment

The utility model scheme is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the embodiment of the utility model part, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all should belong to the scope of the utility model protection.

It should be noted that, term " first ", " second " etc. in instructions of the present utility model and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged in the appropriate case, so as embodiment of the present utility model described herein can with except here diagram or describe those except order implement.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

Fig. 1 is the schematic diagram of the treatment facility of air pollutants parameter according to the utility model embodiment, and this equipment can comprise as shown in Figure 1: sensor device 10, CPU (central processing unit) 30 and display device 50.

Wherein, sensor device, in environment disposed in the interior, for the gaseous contaminant of real-time sensing chamber environment and the real-time pollutant levels of particulate pollutant; CPU (central processing unit), is connected with sensor device, for the Clean air delivery rate according to each real-time pollutant levels determination particulate pollutant and gaseous contaminant; Display device, is connected with CPU (central processing unit), for showing the value of each Clean air delivery rate.

As shown in Figure 2, sensor device can comprise the following sensor of at least one: dust sensor 11, for the concentration of the dust pollution thing in real-time sensing chamber environment; PM2.5 sensor 12, for the concentration of the PM2.5 pollutant in real-time sensing chamber environment; Formaldehyde sensor 13, for the concentration of the formaldehyde pollutants in real-time sensing chamber environment; Toxic gas sensor 14, for the concentration of the toxic gas in real-time sensing chamber environment; Peculiar smell sensor 15, for the concentration of the peculiar smell in real-time sensing chamber environment; And carbon dioxide sensor 16, for the concentration of the carbon dioxide in real-time sensing chamber environment.

Sensor device as shown in Figure 2 can also comprise: temperature sensor 17 and humidity sensor 18, and wherein, temperature sensor is used for the temperature in real-time sensing chamber environment, and humidity sensor is used for the humidity in real-time sensing chamber environment.

In above-described embodiment of the present utility model, display device can comprise: display screen, and this display screen can be LED screen.

In above-described embodiment of the present utility model, treatment facility can comprise as shown in Figure 2: push-button unit 90, is arranged on the panel for the treatment of facility, by the area of the key-press input indoor environment of push-button unit; CPU (central processing unit) is connected with push-button unit, for the Clean air delivery rate according to area and each real-time pollutant levels determination particulate pollutant and gaseous contaminant.

Wherein, above-mentioned push-button unit may be used for the area inputting the current indoor environment that need purify.

In embodiment as shown in Figure 2, treatment facility also comprises: clock circuit 70, for timing.

By above-described embodiment, can input place area (area of namely above-mentioned indoor environment) by push-button unit, acquiescence area is 30m ²the time dependent situation of real-time pollutant levels is obtained by sensor device, by CPU (central processing unit), real-time pollutant levels are calculated, processed, export the size of the recommendation CADR value of corresponding pollutant (comprising particulate pollutant and gaseous contaminant).

According to above-described embodiment of the present utility model, CPU (central processing unit) can comprise: first memory, is arranged on the circuit board of CPU (central processing unit), for storing the standard cleaning curve of default particulate pollutant and gaseous contaminant; First counter, is connected with first memory, for the normal concentration changing value of count particles pollutant and gaseous contaminant; Second counter, is connected with sensor device, for according to gaseous contaminant and the real-time pollutant levels count particles pollutant of particulate pollutant and the real-time concentration changing value of gaseous contaminant; First comparer, is connected with the second counter respectively at the first counter, for obtaining the difference of normal concentration changing value and real-time concentration changing value; First process subelement, is connected with the first comparer, for foundation difference determination Clean air delivery rate.

Particularly, store the standard cleaning curve of all contaminants in the storer in CPU (central processing unit), for PM2.5: standard cleaning curve is under the area of corresponding input place, the pollutant levels change curve under standard cleaning condition.Particularly: the equilibrium concentration (being also final goal concentration) of indoor PM2.5 is 35 μ g/m ³(environmental quality first order concentration higher limit), the concentration of outdoor PM2.5 is assumed to be 64.9 μ g/m ³(under this concentration, rely on natural subsidence and ventilation, final goal concentration can be reached), indoor without this pollutant occurring source.

If sensor device detects that outdoor pollution concentration changes, or when there are pollution source in indoor, then pollutant levels change curve can depart from standard cleaning curve basis, be then the size of PM2.5 purification CADR recommendation by formula scales according to the size departed from.

In the above-described embodiments, after the real-time concentration changing value obtaining particulate pollutant and gaseous contaminant, can draw and purify curve in real time.

As shown in Figure 3 and Figure 4, Fig. 3 is the standard cleaning curve that first memory stores, and Fig. 4 is standard cleaning curve and the comparison diagram purifying curve in real time.The horizontal ordinate of Fig. 3 and Fig. 4 is the time, and ordinate is the concentration of pollutant parameter.

CPU (central processing unit), at contrast standard concentration change value and real-time concentration changing value, after obtaining both differences, can process subelement according to difference determination Clean air delivery rate by first.Can draw after obtaining Clean air delivery rate and recommend purification curve, namely revise purification curve.

Display device may be used for showing above-mentioned each curve (comprising: the real-time purification curve of standard cleaning curve, particulate pollutant and gaseous contaminant, correction purification curve), correspond in Fig. 4, the curve that dotted line is corresponding is standard cleaning curve, actual being of the curve that solid line is corresponding purifies curve in real time, and dot-and-dash line is revises purification curve.

By above-described embodiment of the present utility model, while start treatment equipment, if have air purifier in indoor environment in operation, the then recommendation CADR value (Clean air delivery rate namely in above-described embodiment) of the real device display for the treatment of facility, for needing the CADR value increasing or reduce at air purifier.

Below in conjunction with accompanying drawing 5 and Fig. 6, introduce the utility model in detail for particulate pollutant.Ordinate in Fig. 5 and Fig. 6 is particle contamination substrate concentration, and horizontal ordinate is the time.

As, the area of indoor environment is 50m ², the concentration of indoor accelerated test pollutant continues at 0.122mg/m ³, suppose that the time interval of sampling is 1 minute, then standard cleaning curve (in fig. 5 and fig. for dotted line) with purify curve (being solid line in fig. 5 and fig .) in real time as shown in Figure 5 and Figure 6.

CPU (central processing unit), by calculating, standard cleaning curve finds same concentration point, then the changing value of 1 minute internal standard purification curve pollutant levels is 0.002447mg/m ³, the changing value of actual purification curve is 0, then actual purification curve and standard cleaning curve difference are 0.002447mg/ (m ³min), then actual Clean air delivery rate required after calculating is 302.087m ³/ h (50m ²indoor, GB recommends CADR to be 333m ³/ h), purify actual air according to this CADR, namely revise purification curve, as shown in Figure 6, from correction purification curve (dot-and-dash line namely Fig. 6), the CADR of display can meet the request for utilization of clarifier.

And for example, if actual concentrations continues at 0.035mg/m ³, then CPU (central processing unit) is by calculating, and standard cleaning curve finds same concentration point, then the changing value of 1 minute internal standard purification curve pollutant levels is 0mg/m ³, the changing value of actual purification curve is 0, then actual purification curve and standard cleaning curve difference are 0mg/ (m ³min), then actual Clean air delivery rate required after calculating is 0m ³/ h, does not namely need to increase air purifier.

In above-described embodiment of the present utility model, CPU (central processing unit) can also comprise: second memory, for storing the pollution concentration threshold value of particulate pollutant and gaseous contaminant; Second comparer, is connected between sensor device and second memory, for the size of more real-time pollutant levels and pollutant levels threshold value; Second process subelement, is connected with the second comparer, for when real-time pollutant levels exceed pollutant levels threshold value, generates alerting signal.

Particularly, sensor device can combine in many ways, CPU (central processing unit) has corresponding Data support (the pollutant levels threshold values as the various pollutants that second memory stores) to often kind of pollutant that sensor device collects, when reaching detection limit value (the pollutant levels threshold value namely in above-described embodiment) of certain pollutant, treatment facility can be reported to the police, and shows title and the limit value size of corresponding pollutant.

Particularly, treatment facility can also comprise: warning device, processes subelement be connected, for reporting to the police according to alerting signal with second.

Need to further illustrate, warning device can comprise: pilot lamp, processes subelement be connected, for bright when receiving alerting signal with second.This pilot lamp when receiving alerting signal, can glimmer bright, to report to the police.

In the above-described embodiments, warning device can comprise loudspeaker 20 as shown in Figure 2, processes subelement be connected, for playing the voice messaging in alerting signal, as " real-time concentration of PM2.5 is 125, more than PNM2.5 concentration threshold 100 " with second.

Display device and second processes subelement and is connected, for the Word message in display alarm signal.

As shown in Figure 2, the treatment facility in the utility model embodiment can also comprise the communication unit 40 shown in Fig. 2, is connected with CPU (central processing unit), for transmitting Clean air delivery rate.

To achieve these goals, the utility model additionally provides a kind of disposal system of air pollutants parameter, and this disposal system can comprise the treatment facility of the air pollutants parameter of any one in above-described embodiment; Terminal, is connected with the communication unit for the treatment of facility, for receiving Clean air delivery rate, wherein, terminal comprise following in one of at least: mobile terminal, host computer and air cleaning unit.

By communication unit, can be online with mobile phone, computer etc., also can network with the clarifier with receiving trap, automatically control specific air purifier at any time, make its in the light of actual conditions at any time auto-control to the CADR of correspondence.

Fig. 7 is the process flow diagram of the disposal route of air pollutants parameter according to the utility model embodiment.As shown in Figure 7, the method can comprise the steps:

Step S702: the gaseous contaminant of sensing chamber's environment and the real-time pollutant levels of particulate pollutant in real time.

Step S704: according to the Clean air delivery rate of each real-time pollutant levels determination particulate pollutant and gaseous contaminant.

Step S706: the value showing each Clean air delivery rate.

Introduce the utility model embodiment in detail below in conjunction with accompanying drawing 8, as shown in Figure 8, above-described embodiment can realize as follows:

Step S802: the area being set using place.

Specifically can by the area of the push-button unit input field of employment in above-described embodiment.

Step S804: the concentration value detecting different pollutant in real time.

The concentration value of different pollutant is detected in real time by the sensor device in above-described embodiment.

Step S806: the concentration value showing the different pollutants detected.

Step S808: the concentration change value recording different pollutant.

Step S810: the difference calculating real-time concentration changing value and normal concentration changing value according to the concentration change value of different pollutant.

Step S812: determine to revise purification value.

It should be noted that, can perform in the computer system of such as one group of computer executable instructions in the step shown in the process flow diagram of accompanying drawing, and, although show logical order in flow charts, but in some cases, can be different from the step shown or described by order execution herein.

The utility model embodiment still provides a kind for the treatment of apparatus of air pollutants parameter to achieve these goals.This device can comprise: detection module, for the gaseous contaminant of real-time sensing chamber environment and the real-time pollutant levels of particulate pollutant; Determination module, for the Clean air delivery rate according to each real-time pollutant levels determination particulate pollutant and gaseous contaminant; Display module, for showing the value of each Clean air delivery rate.

The modules provided in the present embodiment is identical with the using method that the corresponding step of embodiment of the method provides, application scenarios also can be identical.It is noted, of course, that the scheme that above-mentioned module relates to can be not limited to content in above-described embodiment one and scene, and above-mentioned module may operate in terminal or mobile terminal, can pass through software or hardware implementing.

By the utility model embodiment, can according to the concentration change value of the pollutant detected, the Clean air delivery rate (i.e. CADR) of display purification required for corresponding pollutant, user not only can pollution condition in sensing chamber, more can according to the suitable air purifier of the CADR value selection of display; By above-described embodiment, the consumer buying air purifier can also be helped, be used for judging whether the air purifier bought can meet purification demand; Further, the communication unit in above-described embodiment, can be online with mobile phone, computer etc., also can network with the clarifier with receiving trap, automatically controls specific air purifier at any time, make its in the light of actual conditions at any time auto-control to the CADR of correspondence.

As can be seen from the above description, the utility model achieves following technique effect:

The claimed counter of the utility model and each assembly forming this processor be all a kind of have determine shape, structure and occupy the entity products of certain space.Such as, pick-up unit, microprocessor, sub-processor etc. are all can independent operating, the computer equipment with particular hardware structure, terminal or server.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims

1. a treatment facility for air pollutants parameter, is characterized in that, comprising:

Sensor device, in environment disposed in the interior, for the real-time pollutant levels of the gaseous contaminant and particulate pollutant that detect described indoor environment in real time;

CPU (central processing unit), is connected with described sensor device, for determining the Clean air delivery rate of described gaseous contaminant and described particulate pollutant according to pollutant levels real-time described in each;

Display device, is connected with described CPU (central processing unit), for showing the value of Clean air delivery rate described in each.

2. treatment facility according to claim 1, is characterized in that, described sensor device comprises the following sensor of at least one:

Dust sensor, for detecting the concentration of the dust pollution thing in described indoor environment in real time;

PM2.5 sensor, for detecting the concentration of the PM2.5 pollutant in described indoor environment in real time;

Formaldehyde sensor, for detecting the concentration of the formaldehyde pollutants in described indoor environment in real time;

Toxic gas sensor, for detecting the concentration of the toxic gas in described indoor environment in real time;

Peculiar smell sensor, for detecting the concentration of the peculiar smell in described indoor environment in real time; And

Carbon dioxide sensor, for detecting the concentration of the carbon dioxide in described indoor environment in real time.

3. treatment facility according to claim 1, is characterized in that, described treatment facility comprises:

Push-button unit, is arranged on the panel of described treatment facility, by the area of indoor environment described in the key-press input of described push-button unit;

Described CPU (central processing unit) is connected with described push-button unit, for determining the Clean air delivery rate of described particulate pollutant and described gaseous contaminant according to pollutant levels real-time described in described area and each.

4. the treatment facility according to claim 1 or 3, is characterized in that, described CPU (central processing unit) comprises:

First memory, is arranged on the circuit board of described CPU (central processing unit), for storing default described gaseous contaminant and the standard cleaning curve of described particulate pollutant;

First counter, is connected with described first memory, for calculating the normal concentration changing value of described gaseous contaminant and described particulate pollutant;

Second counter, is connected with described sensor device, for calculating the real-time concentration changing value of described particulate pollutant and described gaseous contaminant according to the described real-time pollutant levels of described gaseous contaminant and described particulate pollutant;

First comparer, is connected with described second counter respectively at described first counter, for obtaining the difference of described normal concentration changing value and described real-time concentration changing value;

First process subelement, is connected with described first comparer, for determining described Clean air delivery rate according to described difference.

5. treatment facility according to claim 3, is characterized in that, described CPU (central processing unit) also comprises:

Second memory, for storing the pollution concentration threshold value of described gaseous contaminant and described particulate pollutant;

Second comparer, is connected between described sensor device and described second memory, for the size of more described real-time pollutant levels and described pollutant levels threshold value;

Second process subelement, is connected with described second comparer, for when described real-time pollutant levels exceed described pollutant levels threshold value, generates alerting signal.

6. according to the treatment facility described in claim 5, it is characterized in that, described treatment facility also comprises:

Warning device, processes subelement be connected, for reporting to the police according to described alerting signal with described second.

7. according to the treatment facility described in claim 6, it is characterized in that, described warning device comprises:

Pilot lamp, processes subelement be connected, for bright when receiving described alerting signal with described second;

Loudspeaker, processes subelement be connected, for playing the voice messaging in described alerting signal with described second; And

Described display device and described second processes subelement and is connected, for showing the Word message in described alerting signal.

8. according to the treatment facility described in claim 1, it is characterized in that, described treatment facility also comprises:

Communication unit, is connected with described CPU (central processing unit), for transmitting described Clean air delivery rate.

9. a disposal system for air pollutants parameter, is characterized in that, comprising:

The treatment facility of the air pollutants parameter in claim 1 to 8 described in any one;

Terminal, is connected with the communication unit of described treatment facility, for receiving described Clean air delivery rate, wherein, described terminal comprise following in one of at least: mobile terminal, host computer and air cleaning unit.