CN204302258U - Portable air quality monitoring device - Google Patents

Abstract

The utility model discloses a kind of portable air quality monitoring device, comprise air quality acquisition module, motion index monitoring modular, computing module, output module, wherein, described computing module is connected with air quality acquisition module and motion index monitoring modular respectively, receive the air quality data that collected by described air quality acquisition module and by described motion index monitoring module monitors to the motion index data of carrier, and calculate according to described air quality data and motion index data and obtain the soakage of described carrier to objectionable impurities; Described output module is connected with described computing module, carries out output displaying to the described objectionable impurities soakage data obtained that calculate.Adopt the utility model, the objectionable impurities soakage of carrier can be calculated, and directly can export the objectionable impurities soakage of carrier's (within a period of time), note respiratory health to remind carrier.

Description

Portable air quality monitoring device

Technical field

The utility model relates to air quality monitoring field, is specifically related to a kind of portable air quality monitoring device.

Background technology

Along with the development of global industry, also bring serious negative effect simultaneously---air pollution, causes air-polluting objectionable impurities to mainly contain: flue dust, overall suspended pellet, pellet (PM10), fine particle (PM2.5), nitrogen dioxide, sulphuric dioxide, carbon monoxide, ozone, volatile organic compounds etc.Wherein, PM2.5 refers to that in air, particle diameter is less than or equal to the particle of 2.5 microns (μm), also referred to as entering lung particle.Compared with thicker Atmospheric particulates, PM2.5 particle diameter is little, area large, activity attaches poisonous and harmful substances (such as by force, easily, heavy metal, microorganism etc.), and the residence time is in an atmosphere grown, fed distance is far away, thus larger on the impact of health and atmosphere quality.Its main source is the fire row venting of fossil fuel, as fired coal combustion emission, motor-vehicle tail-gas, volatile organic matter etc.Because PM2.5 is not intercepted by human body mucous membrane, directly can absorb human lung, significant damage is caused to human body, even can affect the life-span of people.

Existing air quality monitoring equipment can only be monitored and the content of objectionable impurities in delivery air, and the pollution level to air, directly can not export people and be in soakage to objectionable impurities under air-polluting environment, people can not be made to get information about the impact of these objectionable impuritiess on respiratory system and even whole body health, and this also causes people to pay little attention to air pollution problems inherent indirectly.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of portable air quality monitoring device, directly exports the objectionable impurities soakage of carrier.

For solving the problem, the utility model discloses a kind of portable air quality monitoring device, comprise air quality acquisition module, motion index monitoring modular, computing module, output module, wherein, described computing module is connected with air quality acquisition module and motion index monitoring modular respectively, receive the air quality data that collected by described air quality acquisition module and by described motion index monitoring module monitors to the motion index data of carrier, and calculate according to described air quality data and motion index data and obtain the soakage of described carrier to objectionable impurities, described output module is connected with described computing module, carries out output displaying to the described objectionable impurities soakage data obtained that calculate.

Further, in portable air quality monitoring device of the present utility model, described air quality acquisition module is PM2.5 concentration detector, and described air quality data comprises the PM2.5 concentration of residing environment.

Further, in portable air quality monitoring device of the present utility model, described motion index monitoring modular is passometer, and described motion index data comprise mobile step number, displacement, the translational speed of described carrier.

Further, in portable air quality monitoring device of the present utility model, described motion index monitoring modular is respiratory frequen, and described motion index data comprise the respiratory rate of described carrier.

Further, in portable air quality monitoring device of the present utility model, described motion index monitoring modular is heart rate sensor, and described motion index data comprise the palmic rate of described carrier.

Further, in portable air quality monitoring device of the present utility model, described computing module is processor.

Further, in portable air quality monitoring device of the present utility model, described output unit is display, and the objectionable impurities soakage data described computing module being calculated to the described carrier obtained carry out output display.

Further, in portable air quality monitoring device of the present utility model, also comprise: load module, calculated start time and the end time of soakage by load module input.

Further, in portable air quality monitoring device of the present utility model, described load module is a push-button unit, and described push-button unit comprises at least one button.

Compared with prior art, the utility model can obtain and comprise following technique effect:

Computing is carried out by the motion index data of computing module to the air quality data collected and carrier, obtain the objectionable impurities soakage of carrier, and the objectionable impurities soakage of carrier's (within a period of time) directly can be exported by output module, note respiratory health to remind carrier.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms a part of the present utility model, and 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 structural representation of the portable air quality monitoring device of the utility model one embodiment;

Fig. 2 is the structural representation of the portable air quality monitoring device of another embodiment of the utility model;

Fig. 3 is the structural representation of the portable air quality monitoring device of the another embodiment of the utility model;

Fig. 4 is the structural representation of the portable air quality monitoring device of the another embodiment of the utility model; And

Fig. 5 is the structural representation of the utility model portable air quality monitoring device of an embodiment again.

Embodiment

Describe cooperation drawings and Examples in detail embodiment of the present utility model below, by this to the utility model how application technology means solve technical matters and the implementation procedure reaching technology effect can fully understand and implement according to this.

As shown in Figure 1, the portable air quality monitoring device 10 disclosed by the utility model one embodiment comprises air quality acquisition module 11, motion index monitoring modular 12, computing module 13 and output module 14.

Wherein, computing module 13 is connected with air quality acquisition module 11 and motion index monitoring modular 12 respectively, receive the air quality data that collected by air quality acquisition module 11 and the motion index data of carrier monitored by motion index monitoring modular 12, and calculate according to this air quality data and motion index data and obtain the soakage of this carrier to objectionable impurities; Output module 14 is connected with computing module 13, calculates the objectionable impurities soakage data obtained carry out output displaying to computing module 13.

The air quality data that air quality acquisition module 10 collects can comprise the PM2.5 concentration in air, more specifically, air quality acquisition module can be PM2.5 concentration detector, detect the PM2.5 concentration in the air of residing environment, the motion index data of the PM2.5 concentration that computing module 13 admission of air quality acquisition module 10 collects and the carrier that motion index monitoring modular 12 monitors, and the soakage calculating the PM2.5 of this carrier according to the motion index data of described PM2.5 concentration and carrier.

According to embodiment of the present utility model, described motion index monitoring modular 12 can be passometer, and the motion index data of the carrier that motion index monitoring modular 12 monitors can comprise mobile step number, displacement, the translational speed of described carrier.

Described motion index monitoring modular 12 can also be respiratory frequen, and the motion index data that motion index monitoring modular 12 monitors comprise the respiratory rate of described carrier.

Described motion index monitoring modular 12 can also be heart rate sensor, and the motion index data that motion index monitoring modular 12 monitors comprise the palmic rate of described carrier.

The air quality data that computing module 13 collects according to existing various objectionable impurities soakage computing formula and air quality acquisition module 11 and the motion index data that motion index monitoring modular 12 monitors calculate, and obtain the objectionable impurities soakage of described carrier.

The output module 14 be connected with computing module 13 can be display, such as, LCD (liquid crystal) display, LED (light emitting diode) display etc., the soakage data of carrier to objectionable impurities that computing module 13 calculates are shown, so that check the soakage of carrier to objectionable impurities.

For being explained in more detail the utility model, below in conjunction with specific embodiment, portable air quality monitoring device of the present utility model is described.

Fig. 2 is the structural representation of the portable air quality monitoring device 20 of another embodiment of the present utility model, as shown in Figure 2, portable air quality detection apparatus 20 comprises PM2.5 concentration detector 21, passometer 22, computing module 23 and LCD display 24.Computing module 23 is connected with passometer 22 with PM2.5 concentration detector 21 respectively, and LCD display 24 is connected with computing module 23.PM2.5 concentration detector 21 detects the PM2.5 concentration in the air of the current residing environment of carrier, and notify computing module 23, the mobile step number of carrier monitored by passometer 22, displacement, the motion index data such as translational speed, and notify computing module 23, the mobile step number of carrier that computing module 23 receives the PM2.5 concentration in the air of environment residing for PM2.5 concentration detector 21 detects and monitored by passometer 22, displacement, the motion index data such as translational speed, and according to PM2.5 concentration data and mobile step number, displacement, in translational speed, any one motion index data calculate and obtain described carrier to the soakage of PM2.5, the soakage of the PM2.5 of LCD display 24 couples of carrier shows.

Fig. 3 is the structural representation of the portable air quality monitoring device 30 of another embodiment of the present utility model, as shown in Figure 3, portable air quality detection apparatus 30 comprises PM2.5 concentration detector 31, respiratory frequen 32, computing module 33 and LCD display 34.Computing module 33 is connected with respiratory frequen 32 with PM2.5 concentration detector 31 respectively, and LCD display 34 is connected with computing module 33.PM2.5 concentration detector 31 detects the PM2.5 concentration in the air of the current residing environment of carrier, and notify computing module 33, respiratory frequen 32 monitors the respiratory rate of carrier, and notify computing module 33, computing module 33 receives the respiratory rate of the PM2.5 concentration detected by PM2.5 concentration detector 31 and the carrier monitored by respiratory frequen 32, and calculate the described carrier of acquisition to the soakage of PM2.5 according to the respiratory rate of the PM2.5 concentration in the air of residing environment and carrier, the soakage of LCD display 34 couples of carrier PM2.5 shows.

Fig. 4 is the structural representation of the portable air quality monitoring device 40 of another embodiment of the present utility model, as shown in Figure 4, portable air quality detection apparatus 40 comprises PM2.5 concentration detector 41, heart rate sensor 42, computing module 43 and LCD display 44.Computing module 43 is connected with heart rate sensor 42 with PM2.5 concentration detector 41 respectively, and LCD display 44 is connected with computing module 43.PM2.5 concentration detector 41 detects the PM2.5 concentration in the air of the current residing environment of carrier, and notify computing module 43, heart rate sensor 42 monitors the heart rate of carrier, and notify computing module 43, computing module 43 receives the heart rate of the PM2.5 concentration detected by PM2.5 concentration detector 41 and the carrier monitored by heart rate sensor 42, and calculating the described carrier of acquisition to the soakage of PM2.5 according to the heart rate of the PM2.5 concentration in the air of residing environment and carrier, the PM2.5 soakage of LCD display 44 couples of carrier shows.

Fig. 5 is the structural representation of the portable air quality monitoring device 50 of an embodiment more of the present utility model, as shown in Figure 5, portable air quality monitoring device 50 comprises air quality acquisition module 51, motion index monitoring modular 52, computing module 53 and output module 54, computing module 53 is connected with air quality acquisition module 51 and motion index monitoring modular 52 respectively, output module 54 is connected with computing module 53, portable air quality detection apparatus 50 also comprises load module 55, is connected respectively with computing module 53 with output module 54.

When reality uses, carrier can carry with portable air quality detection apparatus 50, because different location air quality may be different, the concentration of the objectionable impurities in air also may be different, and the motion of carrier also can cause carrier to breathe, the change of heartbeat etc., thus cause carrier to change the moment of the soakage of objectionable impurities, therefore, air quality acquisition module 51 and motion index monitoring modular 52 can periodically be monitored the motion index data of air quality and carrier, computing module 53 can with the objectionable impurities soakage of identical computation of Period carrier, also the mean value of the objectionable impurities soakage of carrier in a predetermined amount of time can be calculated, wherein predetermined amount of time can be arranged by carrier oneself.Carrier calculates start time and the end time of soakage by load module 55 input, this load module 55 can be a push-button unit, comprise at least one button, such as, this push-button unit can only have a switching regulator button, when carrier presses this button, the objectionable impurities soakage calculating carrier is started by internal circuit transmission of signal notice computing unit 53, when again pressing this button, again by internal circuit transmission of signal notice output module output display objectionable impurities soakage, again such as, this push-button unit can comprise beginning key and end (output) key, when carrier presses beginning key, notice computing module 53 starts the objectionable impurities soakage calculating carrier, when carrier presses end (output) key, notice output module 54 by display screen (such as, the display screen of liquid crystal display) output display carrier from pressing start key to pressing end (output) key time period in objectionable impurities soakage.

Above-mentioned explanation illustrate and describes some preferred embodiments of the present utility model, but as previously mentioned, be to be understood that the utility model is not limited to the form disclosed by this paper, should not regard the eliminating to other embodiments as, and can be used for other combinations various, amendment and environment, and can in utility model contemplated scope described herein, changed by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change do not depart from spirit and scope of the present utility model, then all should in the protection domain of the utility model claims.

Claims (9)

1. a portable air quality monitoring device, it is characterized in that, comprise air quality acquisition module, motion index monitoring modular, computing module, output module, wherein, described computing module is connected with air quality acquisition module and motion index monitoring modular respectively, receive the air quality data that collected by described air quality acquisition module and by described motion index monitoring module monitors to the motion index data of carrier, and calculate according to described air quality data and motion index data and obtain the soakage of described carrier to objectionable impurities; Described output module is connected with described computing module, carries out output displaying to the described objectionable impurities soakage data obtained that calculate.

2. equipment according to claim 1, is characterized in that, described air quality acquisition module is PM2.5 concentration detector, and described air quality data comprises the PM2.5 concentration of residing environment.

3. equipment according to claim 1, is characterized in that, described motion index monitoring modular is passometer, and described motion index data comprise mobile step number, displacement, the translational speed of described carrier.

4. equipment according to claim 1, is characterized in that, described motion index monitoring modular is respiratory frequen, and described motion index data comprise the respiratory rate of described carrier.

5. equipment according to claim 1, is characterized in that, described motion index monitoring modular is heart rate sensor, and described motion index data comprise the palmic rate of described carrier.

6. equipment according to claim 1, is characterized in that, described computing module is processor.

7. equipment according to claim 1, is characterized in that, described output unit is display, and the objectionable impurities soakage data described computing module being calculated to the described carrier obtained carry out output display.

8. the equipment according to any one of claim 1-7, is characterized in that, also comprises: load module, is calculated start time and the end time of soakage by load module input.

9. equipment according to claim 8, is characterized in that, described load module is a push-button unit, and described push-button unit comprises at least one button.