DE102017201059A1 - Method and evaluation unit for measuring a particle concentration - Google Patents

Abstract

An evaluation unit (101) for a ventilation system (100) is described. The ventilation system (100) is designed to convey different volumes of air (120) through an air duct (102) into a region (122) to be ventilated. Furthermore, the ventilation system (100) comprises a particle sensor (111) arranged in the air duct (102). The evaluation unit (101) is set up to use the particle sensor (111) to determine particle sensor data that indicates a number and / or quantity of particles per unit time in the air (120) in the air duct (102). In addition, the evaluation unit (101) is set up to determine a parameter value of at least one influencing parameter (202) which has an influence on a volume or mass flow (201) of the air (120) in the air duct (102). The evaluation unit (101) is further configured to determine information relating to a particle concentration in the air (120) on the basis of the particle sensor data and based on the parameter value.

Description

The invention relates to a method and an evaluation unit for measuring the particle concentration in a ventilation system, in particular in a ventilation system of a vehicle.

A vehicle typically includes a ventilation system that can deliver air (e.g., fresh air and / or recirculated air or air from the interior of the vehicle) into the interior of the vehicle. The ventilation system typically includes a fan that can be operated with different strengths (eg, at different speeds, for example, by adjusting a voltage across the fan) to supply more or less air to the interior of the vehicle to promote. Furthermore, the ventilation system may comprise a sensor arrangement with which sensor data relating to the particulate load (in particular the particulate matter load) of the air which is conveyed into the interior of the vehicle can be detected. In particular, the sensor assembly may be configured to detect sensor data relating to the concentration of particulates (e.g., particulate matter) per unit volume in the conveyed air.

It can thus be determined information with respect to the air quality and possibly displayed to a user of the vehicle. Alternatively or additionally, the ventilation system (e.g., the size of the fan or a closure member of the ventilation system) may be controlled in dependence on the sensor data.

The sensor arrangement typically has a relatively complex construction. In particular, the sensor arrangement typically has its own housing, its own fan and optionally a switching valve for switching between the internal and external air. Furthermore, the sensor arrangement typically has a control unit, a memory and control software.

The present document deals with the technical problem of providing a method and an evaluation unit which enables the use of a sensor arrangement for determining the particle concentration in a ventilation system with reduced complexity. The accuracy of the determination of the particle concentration should remain high.

The object is solved by the independent claims. Advantageous embodiments are described i.a. in the dependent claims.

According to one aspect, an evaluation unit for a ventilation system is described. The ventilation system may be part of a motor vehicle and may be configured to ventilate the interior or the passenger cabin of the motor vehicle. In this case, air, in particular air from the surroundings of the vehicle, can be conveyed via an air channel into the interior of the vehicle. The interior of a vehicle is an example of an area to be ventilated by a ventilation system.

The ventilation system is designed to promote different volumes and / or time-varying volume of air through the air duct in the area to be ventilated. In other words, the volume flow and / or the mass flow of air flowing through the air duct into the area to be ventilated may change over time. The ventilation system may in particular comprise a fan which is equipped with different fan strengths different volumes or masses of air through the air duct (eg through a pipe) in the area to be ventilated (eg in the interior of a vehicle or in another room with Breathing air and / or working air). The fan strength may e.g. by a user of the ventilation system via a control (e.g., stepwise). Alternatively or additionally, the fan power can be automatically adjusted by an automatic climate control of the vehicle, e.g. as a function of a difference between a (measured) actual temperature and a desired temperature (predetermined, for example, by a user).

Furthermore, the ventilation system comprises a particle sensor arranged in the air duct. The particle sensor can be set up to detect particle sensor data indicating the number and / or amount of particles per unit of time (eg measured in ppm, parts per million, or in g, grams) in the air in the air duct. For example, the particle sensor may for this purpose comprise an optical sensor configured to detect sensor data relating to an amount of light scattering, eg, an amount of light scattering in the air channel. In this case, the light scattering on the particles contained in the air can be detected over the entire cross section of the air channel or over the entire cross section of an interior of the particle sensor. For example, inside the particle sensor and / or inside the air channel, a light curtain can be generated, through which the air flows with its particles at a certain speed. The speed of the air may depend on the fan power. As it flows through the light curtain, one (eg, each or a fixed fraction of) particles in the air redirects light from its path to a light receiving unit of the particle sensor. The logic in the sensor evaluates the pulses of the deflected light on the Receiving unit off. In particular, based on the pulses, the number and / or amount of particles per unit time can be determined.

The particle sensor can thus be arranged directly in the air duct and can be lapped by the air in the air duct. In this case, the volumetric or mass flow of the air which is conducted past the particle sensor or the optical sensor of the particle sensor may be different for different fan intensities (and / or for different driving speeds of a vehicle).

The evaluation unit is set up to use the particle sensor to determine particle sensor data that indicates the number or the weight or the quantity of particles per unit of time in the air in the air duct (for example, measured in ppm / s). In addition, the evaluation unit is set up to determine a parameter value of at least one influencing parameter which has an influence on a volumetric or mass flow of the air in the air duct. In other words, an indication of the volume or mass flow of the air in the air duct can be determined. The influence parameter or the indication of the volume or mass flow of the air may include the fan power of the fan. In particular, a speed of the air can be determined on the basis of the influence parameter (in particular the fan strength).

It can then be determined on the basis of the particle sensor data and based on the parameter value information relating to a particle concentration in the air. In particular, a value of the particle concentration can be determined. In other words, the content of particles in a unit volume or mass unit of the air in the air passage can be detected. Thus, taking into account an assumed constant volume or air mass flow (depending on the parameter value of an influencing parameter, for example the fan thickness), the particle concentration and / or the particulate matter load and / or the number of particles in a certain air volume can be calculated. In this case, measurements of the internal air temperature and / or the internal air humidity can be taken into account as correction values.

The consideration of the parameter value of at least one influencing parameter on the volume or mass flow of the air in the air duct makes it possible to use the particle sensor directly in the air duct of the ventilation system without the installation of a dedicated sensor fan and / or without a dedicated one sensor housing. In particular, components present in a ventilation system and their properties can (re) be used. Thus, the cost and space for determining the concentration of particles in the air delivered by the ventilation system can be reduced.

The evaluation unit can additionally determine the information relating to the particle concentration in the air on the basis of characteristic data which indicate a relationship between the at least one influencing parameter and the volume or mass flow. The characteristics may include maps and / or one or more characteristics. The characteristics can be determined in advance, e.g. by test measurements on the ventilation system. By taking into account (experimentally determined) characteristic data, the information relating to the particle concentration can be determined with increased accuracy.

The evaluation unit can be set up to determine parameters for a plurality of influencing parameters and to take them into account when determining the information relating to the particle concentration in the air. By considering several influencing parameters, the volumetric or mass flow of the air in the air duct and thus the information regarding the particle concentration can be determined with increased accuracy.

The influencing parameters that can be taken into account when determining the volumetric or mass flow include, for example: temperature sensor data of a temperature sensor (possibly located outside the particle sensor or of an external one) that indicates the temperature of the air in the air duct ; Humidity sensor data from a humidity sensor (located outside the particle sensor or external) that indicates the humidity of the air in the duct; an adjustment of a temperature control unit (e.g., a heater and / or a cooling module) of the ventilation system configured to temper the air in the air duct; and / or an adjustment of a closing unit which is arranged to at least partially close the air duct. Furthermore, in a vehicle, the driving speed of the vehicle can be taken into account as influencing parameters, in particular if the ventilation system of the vehicle is designed such that the volume or mass flow of the air in the air passage is influenced by the driving speed or by the driving speed depends. For example, depending on the driving speed, a more or less large volume of air per unit of time can be forced through the air duct.

In another aspect, a ventilation system or channel system is described. The ventilation system includes an air duct. Of Further, the ventilation system typically includes a fan configured to deliver different volumes of air through the air duct into a region to be ventilated with different fan strengths. In addition, the ventilation system includes a particle sensor disposed in the air passage and configured to detect particle sensor data indicative of a number of particles per unit time in the air in the air passage. The ventilation system further comprises an evaluation unit described in this document.

The ventilation system or duct system may comprise a heating air conditioner with a housing. In this case, e.g. a tempering be arranged in the housing of the heating air conditioner. Furthermore, the particle sensor can be arranged in the housing of the heating air conditioner. There is thus no need for a dedicated housing for the particle sensor. Furthermore, no other component is needed for the particle sensor, which is already present in the heating air conditioner and / or in the air duct.

The entire air to be delivered by the ventilation system into the area to be ventilated can be conveyed through the air duct. Further, the particulate sensor may be configured to detect particulate sensor data with respect to the total volume of air delivered through the air channel. Reliable data relating to the particle concentration in the total volume of air conveyed through the ventilation system can thus be determined on the basis of the particle sensor.

In another aspect, a method of determining information regarding particulate concentration in the air delivered by a ventilation system is described. The ventilation system is designed to promote different volumes of air through an air duct in a ventilated area. In other words, the volume of air that is conveyed through the air duct into the area to be ventilated may change with time or may be different at different points in time. The ventilation system may e.g. include a fan that is configured to promote with different fan strengths different volumes of air through the air duct in the area to be ventilated. Furthermore, the ventilation system comprises a particle sensor arranged in the air duct.

The method includes determining particulate sensor data based on the particulate sensor, wherein the particulate sensor data indicates a number or amount of particulates per unit of time in the air in the air channel. In addition, the method comprises determining a parameter value of at least one influencing parameter which has an influence on a volume or mass flow of the air in the air duct and / or an influence on the particle sensor data. The influence parameter may include the fan power of the fan. The method further comprises determining the information relating to the particle concentration in the air based on the particle sensor data and based on the parameter value of the at least one influence parameter.

The process can be repeated regularly, e.g. with a certain measuring frequency (for example every second). In this way, the respective current particle concentration in the air can be determined in a timely manner.

According to a further aspect, a vehicle (in particular a road vehicle, for example a passenger car or a lorry) is described which comprises the ventilation system described in this document and / or the evaluation unit described in this document.

In another aspect, a software (SW) program is described. The SW program may be set up to run on a processor (e.g., on an evaluation unit) and thereby perform the method described in this document.

In another aspect, a storage medium is described. The storage medium may include a SW program that is set up to run on a processor and thereby perform the method described in this document.

It should be understood that the methods, devices and systems described herein may be used alone as well as in combination with other methods, devices and systems described in this document. Furthermore, any aspects of the methods, devices, and systems described herein may be combined in a variety of ways. In particular, the features of the claims can be combined in a variety of ways.

• 1 den Aufbau eines beispielhaften Belüftungssystems;
• 2 beispielhafte Kenndaten für ein Belüftungssystem; und
• 3 ein Ablaufdiagramm eines beispielhaften Verfahrens zur Ermittlung von Information in Bezug auf die Partikel-Konzentration von Luft in einem Belüftungssystem.

Furthermore, the invention will be described in more detail with reference to exemplary embodiments. Show

• 1 the construction of an exemplary ventilation system;
• 2 exemplary characteristics for a ventilation system; and
• 3 a flowchart of an exemplary method for determining information relating to the particle concentration of air in a ventilation system.

As set forth above, the present document is concerned with the efficient determination of information regarding air quality in a ventilation system. In this context shows 1 an exemplary ventilation system 100 with an air duct 102 , through the air 120 from a first area 121 in a second area 122 can be promoted. The first area 121 can be the environment of a vehicle and the second area 122 may be the interior of a vehicle. The ventilation system 100 has a fan 104 (or other unit for adjusting the air mass flow rate) that is set up, air 120 through the air duct 102 to promote. This can be the fan 104 with different strengths (eg stepwise) to be operated by the fan 104 delivered air volume V per unit time (measured eg in sqm / s) to change. Furthermore, the air duct 102 a valve or a flap 103 (as a closure element), with which the air duct 102 partially or completely (eg gradually or fluently) can be closed.

The ventilation system 100 further includes a particle sensor 111 , which is adapted to detect particle sensor data with respect to a number N of particles per unit of time (measured, for example, in ppm / s). The particle sensor 111 For example, it may include an optical sensor configured to detect an amount of optical dispersion. From the extent of the optical scattering can be concluded then on the number N of particles or on the weight of particles. The particle sensor 111 can in a separate area 110 inside the air duct 102 be arranged.

The ventilation system 100 can continue a tempering unit 106 which is set up, the air 120 to temper. The temperature control unit 106 can, as in 1 shown upstream with respect to the particle sensor 111 be arranged. This can cause air 120 on the particle sensor 111 flowed past, by the temperature control unit 106 was tempered (eg to a certain target temperature). The temperature control unit 106 can be set up, the air 120 from the first area 121 to cool or to heat. A user of the ventilation system 100 can be a desired temperature for the second area 122 specify and the temperature control unit 106 can be operated depending on the desired temperature. The through the temperature control unit 106 set air temperature and / or air humidity of the air 120 can help in determining the air quality in the ventilation system 100 be taken into account.

The ventilation system 100 can continue one or more property sensors 105 which are established, property sensor data relating to a property of the air 120 in the air duct 102 capture. Exemplary properties are the humidity and the temperature of the air 120 ,

An evaluation unit 101 of the ventilation system 100 can be arranged on the basis of the particle sensor data information with respect to a particle concentration P per unit air volume (measured, for example, in particle number per volume, ie ppm / m ³ , and / or in weight per volume, ie g / m ³ ) in the air 120 to investigate. For this purpose, the evaluation unit 101 the air flow V within the air duct 102 determine. The particle concentration P then results as N / V (ie from the ratio of the number N of particles per unit time or the weight of particles per unit time and the air volume flow V.

For determining the air volume flow V, one or more influencing parameters can be used 202 be used, which may have an influence on the air flow V. Exemplary influence parameters 202 are in particular the strength of the fan 104 , Property Sensor Data of One or More Property Sensors 105 , a setting (eg the setpoint temperature) of the temperature control unit 106 and / or an adjustment of the ventilation closure element 103 be used.

The evaluation unit 101 can on characteristic data 203 (please refer 2 ), which control the air volume flow 201 as a function of one or more influence parameters 202 Show. The characteristics 203 may in particular comprise one or more characteristic curves or characteristic diagrams. The characteristics 203 may be on a storage unit (not shown) of the ventilation system 100 be saved.

At least some of the in 1 illustrated components, in particular the particle sensor 111 , the temperature control unit 104 and the fan 104 can be arranged in a common housing, for example in the housing of a heating air conditioner. This becomes a cost effective arrangement of the particle sensor 111 allows. Furthermore, such a high accuracy of the particle sensor data can be ensured.

It is thus possible, alone a particle sensor 111 to be used in the housing of the heating air conditioner. The air flow on the particle sensor 111 can then by means of the air conditioning blower 104 respectively. Through an evaluation unit 101 may be the number N of measured particles per unit time in relation to the air volume of the blower 104 be set. By means of a compensation calculation (eg using characteristic data 203 ) then the actual particle content per unit air volume can be determined.

Thus, a separate housing, a separate fan, as well as a separate switching valve between the outside and inside air to determine the particle concentration can be dispensed with. Rather, by providing a compensation calculation for already existing components in a ventilation system 100 be resorted to.

3 shows a flowchart of an exemplary method 300 for determining information relating to a particle concentration in the air through a ventilation system 100 subsidized air 120 , The ventilation system 100 includes a fan 104 which is set up with different fan strengths different volumes or masses of air 120 through an air duct 102 in a ventilated area 122 to promote (eg in the interior of a road motor vehicle). Furthermore, the ventilation system includes 100 one in the air duct 102 arranged particle sensor 111 , The particle sensor 111 typically does not include a separate housing. Furthermore, the particle sensor includes 111 typically not your own fan. In particular, the particle sensor 111 have an optical sensor and / or another measuring unit, the directly (ie without further housing) in the air duct 102 of the ventilation system 100 is arranged.

The procedure 300 includes determining 301 Particle sensor data based on the particle sensor 111 , The particle sensor data shows a number N of particles per unit of time in the air 120 in the air duct 102 on (eg as ppm / s). In addition, the process includes 300 the determining 302 a parameter value of at least one influencing parameter 202 which has an influence on a volume or mass flow 201 the air 120 in the air duct 102 Has. Here, the influence parameter includes 202 especially the (currently set) fan speed of the fan 104 ,

Furthermore, the method includes 300 the determining 303 the information regarding the particle concentration in the air 120 , based on the particle sensor data and based on the parameter value. In particular, based on the parameter value of the (current) volume or mass flow 201 the air 120 in the air duct 102 be determined (eg using characteristics 203 ). Furthermore, the (currently) detected number N of particles or the weight of particles per unit time in relation to the (current) volume or mass flow 201 the air 120 be set to the (actual) particle concentration in the air 120 to determine (based on an air volume unit (eg m ³ ) or based on an air mass unit (eg g)).

The determined information relating to the particle concentration can then be sent to a user of the ventilation unit 100 be issued. Alternatively or additionally, the information relating to the particle concentration for controlling the ventilation unit 100 (Eg to adjust the fan strength and / or to adjust an opening degree of a closing element 103 ) be used.

The present invention is not limited to the embodiments shown. In particular, it should be noted that the description and figures are intended to illustrate only the principle of the proposed methods, apparatus and systems.

Claims (12)

Evaluation unit (101) for a ventilation system (100); wherein the ventilation system (100) is adapted to convey different volumes of air (120) through an air duct (102) into a region (122) to be ventilated; wherein the ventilation system (100) comprises a particle sensor (111) arranged in the air duct (102); wherein the evaluation unit (101) is set up, - Using the particle sensor (111) to determine particle sensor data indicating a number and / or amount of particles per unit time in the air (120) in the air duct (102); to determine a parameter value of at least one influencing parameter (202) which has an influence on a volume or mass flow (201) of the air (120) in the air duct (102); and - based on the particle sensor data and based on the parameter value information with respect to a particle concentration in the air (120) to determine. Evaluation unit (101) according to Claim 1 in which - the ventilation system (100) comprises a fan (104) which is designed to convey different volumes of air (120) through the air duct (102) into the area to be ventilated (122) with different fan strengths; and - the influence parameter (202) comprises the fan power of the fan (104). Evaluation unit (101) according to one of the preceding claims, wherein the evaluation unit (101) is adapted to determine information relating to the particle concentration in the air (120) on the basis of characteristic data (203), which is a relationship between the at least one Influence- Display parameter (202) and the volume or mass flow (201). Evaluation unit (101) according to one of the preceding claims, wherein the evaluation unit (101) is adapted to determine parameters for a plurality of influence parameters (202) and in the determination of the information relating to the particle concentration in the air (120 ). Evaluation unit (101) according to one of the preceding claims, wherein the influence parameter (202) comprises one or more of, Temperature sensor data of a temperature sensor (105) indicating a temperature of the air (120) in the air passage (102); Humidity sensor data of a humidity sensor (105) indicating humidity of the air (120) in the air duct (102); - An adjustment of a temperature control unit (106) of the ventilation system (100), which is adapted to temper the air (120) in the air duct (102); and or - An adjustment of a closing unit (103) which is adapted to at least partially close or open the air duct (102). Evaluation unit (101) according to one of Claims 2 to 5 wherein the fan power can be adjusted by a user of the ventilation system (100) and / or by an automatic air conditioning system for the area to be ventilated (122). Evaluation unit (101) according to one of the preceding claims, wherein the area to be ventilated (122) is the interior of a multi-lane vehicle; and - The influence parameter (202) in particular comprises a driving speed of the vehicle. Ventilation system (100) comprising - An air channel (102); a particle sensor (111) arranged in the air duct (102) and arranged to detect particle sensor data representing a number and / or amount of particles per unit of time in the air (120) in the air duct (102 ) Show; and - An evaluation unit (101) according to one of the preceding claims. Ventilation system (100) according to Claim 8 in which - the ventilation system (100) comprises a heating air conditioner with a housing; and - the particle sensor (111) is disposed in the housing of the heating air conditioner. Ventilation system (100) according to one of Claims 8 to 9 wherein the particle sensor (111) comprises an optical sensor configured to detect sensor data relating to an amount of light scattering in the air channel (102). Ventilation system (100) according to one of Claims 8 to 10 in which - the entire air (120) to be delivered by the ventilation system (100) into the area to be ventilated (122) is conveyed through the air duct (102); and - the particle sensor (111) is adapted to detect particle sensor data with respect to the total volume of air that is conveyed through the air channel (102). A method (300) for determining information relating to a particle concentration in the air (120) delivered by a ventilation system (100); wherein the ventilation system (100) is adapted to convey different volumes of air (120) through an air duct (102) into a region (122) to be ventilated; wherein the ventilation system (100) comprises a particle sensor (111) arranged in the air duct (102); the method (300) comprising - determining (301) particle sensor data from the particle sensor (111), the particle sensor data indicating a number and / or amount of particles per unit of time in the air (120) in the air channel (102); - determining (302) a parameter value of at least one influencing parameter (202) which has an influence on a volume or mass flow (201) of the air (120) in the air duct (102); and - determining (303) the information relating to the particle concentration in the air (120) based on the particle sensor data and based on the parameter value.

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