DE102014202172A1 - Method and mobile device for controlling a measuring device and arrangement for measuring at least one gas analyte in an exhaled air - Google Patents

Abstract

The invention relates to a mobile device for controlling a measuring device (10) for measuring at least one gas analyte in an exhaled air, wherein the mobile device (20) is designed to control the measuring device (10), a sensor (12) of the measuring device (10) to apply a defined time interval and air containing certain constituents in a defined flow, and to perform a signal evaluation of the sensor (12) of the measuring device (10) after the end of the measurement. The invention further relates to a corresponding method for controlling a measuring device (10) for measuring at least one gas analyte in an exhaled air. The invention also relates to an arrangement for measuring at least one gas analyte in an exhaled air.

Description

The invention relates to a method and a mobile device for controlling a measuring device and to an arrangement for measuring a gas analyte in an exhaled air.

State of the art

Devices for measuring a gas analyte in an exhaled air are well known. The DE 10 2009 038 238 A1 discloses an apparatus for measuring a gas analyte in exhaled air, comprising an inlet port for exiting air, a measuring chamber for receiving at least one sensor unit, a conduit providing fluid communication from the opening to the measuring chamber, a sensor unit depending on the gas analyte to be measured is introduced into the receptacle with a corresponding gas sensor.

Disclosure of the invention

The present invention provides a mobile device for controlling a metering device for measuring at least one gas analyte in exhaled air, wherein the mobile device is configured to control the metering device to provide a sensor of the metering device for a defined time interval and with certain constituent air in a defined flow and, after the end of the measurement, carry out a signal evaluation of the sensor of the measuring device.

The present invention further provides a method for controlling a measuring device for measuring at least one gas analyte in an exhaled air, comprising the steps of controlling the measuring device to apply a sensor of the measuring device for a defined time interval and air having certain constituents in a defined flow, by means of a mobile device, and an evaluation of the signals of the sensor of the measuring device after the end of the measurement by means of the mobile device.

The present invention also provides an arrangement for measuring at least one gas analyte in an exhaled air, with the mobile device according to the invention and a measuring device for measuring at least one gas analyte in an exhaled air, wherein the mobile device is data-connected to the measuring device and the mobile device is designed to measure parameters by means of Display device of the mobile device.

An advantage of the present invention is that it provides a handy, versatile arrangement for measuring at least one gas analyte in an exhaled air. Depending on the measurement requirement, the sensor of the measuring device can be exchanged, for example, for another sensor type. Furthermore, a software installed on the mobile device for controlling the measuring device has a broad functionality that is suitable, for example, to evaluate data of different sensor types. As a mobile device, for example, a commercial mobile phone with appropriate software can be used, so that the arrangement for measuring at least one Gasanalyten in an exhaled air, which has the mobile device and the measuring device also inexpensive to produce, since no separate display device is required.

Advantageous embodiments and further developments emerge from the dependent claims and from the description with reference to the figures.

It is preferably provided that the reaching of a measuring base of the measuring device is time-controlled or controllable in dependence of a sensor signal of the sensor of the measuring device. The achievement of the measuring base of the measuring device can thus be configured individually by a user and controlled as required by time or in dependence of a sensor signal of the sensor.

Preferably, it is further provided that measurement parameters of the measuring device can be displayed by means of a display device of the mobile device. For example, since the mobile device may be a commercially available mobile phone, no separate manufacturer-specific display device for displaying the measurement parameters of the measuring device is required.

According to a further preferred embodiment, it is provided that in a coupled state of the measuring device and the mobile device, an outlet opening for the outlet of the flow of certain constituent air from the measuring device is arranged adjacent to a microphone of the mobile device, wherein the flow of certain components having air through the measuring device is measurable via the microphone of the mobile device. Since every commercial mobile phone has a built-in microphone, no separate measuring device is required for measuring the flow of the constituent air. A pressure sensor of the measuring device typically used as a flow meter can therefore likewise be dispensed with.

Preferably, it is further provided that the flow of the air having certain constituents by the measuring device via the microphone of the Measuring device is measured by impact of the flow on the microphone, wherein a measured volume of the microphone in relation to a size of the flow of certain constituents having air through the measuring device. The louder the volume measured with the microphone, the greater the flow of the component air at the microphone.

According to a further preferred embodiment, it is provided that the mobile device is designed to read out a data memory of the measuring device. By providing a data memory in the measuring device, a measurement of the gas analyte in an exhaled air can be carried out, for example, without the mobile device being connected to the measuring device. The measurement result can thus be displayed, for example, at a later time by connecting the measuring device of a mobile device.

According to a further preferred embodiment, it is provided that the mobile device is designed to determine a remaining useful life of the measuring device as a function of respiratory maneuvers counted by means of a flow meter of the measuring device and to display it by means of the display device of the mobile device. Thus, for example, the mobile device may calculate an estimated remaining useful life and display that information to the user.

According to a further preferred embodiment, it is provided that the measuring device can be fastened to the mobile device in such a way that the display device of the mobile device can be read by a user when measuring the at least one gas analyte in an exhaled air. The readability of the measurement parameters in a measurement by the user has the advantage that the user can be informed about actions to be performed. Thus, a user friendly operation of the assembly for measuring at least one gas analyte in an exhaled air may be provided.

The described embodiments and developments can be combined with each other as desired.

Further possible refinements, developments and implementations of the invention also include combinations, not explicitly mentioned, of features of the invention described above or below with regard to the exemplary embodiments.

The accompanying drawings are intended to provide further understanding of the embodiments of the invention. They illustrate embodiments and, together with the description, serve to explain principles and concepts of the invention.

Other embodiments and many of the stated advantages will become apparent with reference to the drawings. The illustrated elements of the drawings are not necessarily shown to scale to each other.

Show it:

1 a schematic representation of the arrangement for measuring at least one Gasanalyten in an exhaled air according to a first embodiment of the invention; and

2 a schematic representation of the arrangement for measuring at least one Gasanalyten in an exhaled air according to the first embodiment of the invention.

In the figures of the drawing, like reference characters designate like or functionally identical elements, components or components, unless stated otherwise.

1 shows a schematic representation of the arrangement for measuring at least one gas analyte in an exhaled air according to a first embodiment of the invention.

An arrangement for measuring a gas analyte in an exhaled air has a measuring device 10 for measuring at least one gas analyte in an exhaled air and a mobile device 20 for controlling the measuring device 10 on. The measuring device 10 has a mouthpiece 11 , a 3/2-way valve 13 , a filter 15 , a converter 16 , a pressure sensor 17 , a gas sensor 12 , a pump 18 , another valve 19 , an exit opening 14 as well as an interface 25 to connect to the mobile device 20 on.

A user inhales the exhaled air into the mouthpiece 11 , The pump 18 becomes upon detection of an initial flow of certain constituent air through the measuring device 10 from the mobile device 20 started. At the beginning of the measurement, this is first passed through the filter via a 3/2-way valve 15 to the gas sensor 12 directed. After a defined interval, the 3/2-way valve is switched so that the exhaled air through the converter 16 to the gas sensor 12 is passed and then through the valve 19 and the exit opening 14 from the measuring device 10 exit. At the end of the measurement, the mobile device controls 20 the measuring device 10 on, to protect the converter both valves 13 . 19 close.

An exemplary application of the device is an NO determination in the breath by measurement of NO ₂ . NO is exhaled by the user, whereas NO ₂ does not occur in a user's breath. To be able to measure NO by means of an NO ₂ sensor, the sensor must be purged with NO ₂ -free air. This is done over a defined period of time by one or more exhalations by the measuring device 10 , wherein the 3/2-way valve of the measuring device 10 is set so that the exhaled air through the filter 15 For example, an activated carbon filter is passed.

In the filter 15 NO, as well as other oxidizing and / or reducing species, are bound. The time interval lasts until the sensor 12 reached a stable measuring base. Reaching the measuring base can be time-controlled or dependent on a sensor signal from the sensor 12 to be controlled. Both cases can via an electronic interface, in the present embodiment, a USB interface, between the measuring device 10 and the mobile device 20 to be controlled. The flow of the constituent air through the meter 10 is via the mobile device 20 and must be within a defined interval around the setpoint of 50 mL / s.

After this defined pretreatment time and when there is a correct flow, the 3/2-way valve is switched over to the breathing air through the converter 16 to lead. The converter 16 in the present embodiment consists of KMnO ₄ and converts NO to NO ₂ at ambient conditions to allow the measurement by means of a NO ₂ sensor.

A particular duration of measurement is determined by a required exposure time of the gas to the sensor and the detection of a correct breath fraction containing the analyte. In particular, the time is less than one breath 20 s. At the end of the measuring time the signal evaluation takes place in the mobile device 20 , The 3/2-way valve is returned to the filter after the end of the measurement 15 connected. Generally, in the gas contacting surfaces / walls, preferably materials are used on which NO / NO ₂ does not or little adsorb.

The pressure sensor used as a flow meter 17 is optional. When using a microphone of the mobile device 20 for measuring the flow of the constituent air through the measuring device 10 is the pressure sensor 17 the measuring device 10 not mandatory.

In the coupled state of the measuring device 10 and the mobile device 20 is the exit opening 14 for the exit of the flow of certain constituent air from the measuring device 10 adjacent to a microphone of the mobile device 20 arranged, wherein the flow of certain constituent air through the measuring device 10 via the microphone of the mobile device 20 is measurable. The flow of the constituent air through the meter 10 is via the microphone of the mobile device 20 measurable by impact of the flow on the microphone, wherein a volume measured by the microphone to the flow of certain constituents having air through the measuring device 10 in relation.

The mobile device 20 is further adapted to detect the end of the user's breathing maneuver with the flow of the constituent air having no flow.

The measuring device 10 has according to the present embodiment via the USB interface for a power supply and a data line or connection of the measuring device 10 to the mobile device 20 , For the mobile device, the USB port is on a bottom of the mobile device 20 vertically under a display device of the mobile device 20 arranged.

Optionally has the measuring device 10 via a data storage, which from the mobile device 20 is readable. Depending on the breathing maneuvers counted via the pressure sensor, a remaining service life of the measuring device can thus be used 10 that is, a consumption of the converter determined and by means of the display device of the mobile device 20 are displayed.

2 shows a schematic representation of the arrangement for measuring at least one gas analyte in an exhaled air according to the first embodiment of the invention.

As in 2 can be seen, is the measuring device 10 Using the existing USB port in a simple manner to the existing USB port of the mobile device 20 connected. The respective USB ports are so on the measuring device 10 and the mobile device 20 arranged, the coupling of the measuring device 10 with the mobile device 20 in a measurement of the at least one gas analyte in an exhaled air, the display device 21 of the mobile device 20 can be read by the user.

Although the present invention has been described above with reference to preferred embodiments, it is not limited thereto, but modifiable in a variety of ways. In particular, the invention can be varied or modified in many ways without deviating from the gist of the invention.

For example, the gas sensor 12 be replaced by another gas sensor for measuring another analyte. Furthermore, it is conceivable that the connection between the measuring device 10 and the mobile device 20 is done by another suitable interface that can be wired or wireless.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009038238 A1 [0002]

Claims (10)

Mobile device for controlling a measuring device ( 10 ) for measuring at least one gas analyte in an exhaled air (A), wherein the mobile device ( 20 ) is adapted to the measuring device ( 10 ) to control a sensor ( 12 ) of the measuring device ( 10 ) for a defined time interval and with certain components containing air in a defined flow to apply, and after the end of a signal evaluation of the sensor ( 12 ) of the measuring device ( 10 ). Mobile device according to claim 1, characterized in that the reaching of a measuring base of the measuring device ( 10 ) timed or in response to a sensor signal of the sensor ( 12 ) of the measuring device ( 10 ) is controllable. Mobile device according to claim 1 or 2, characterized in that measuring parameters of the measuring device ( 10 ) by means of a display device ( 21 ) of the mobile device ( 20 ) are displayed. Mobile device according to one of the preceding claims, characterized in that in a coupled state of the measuring device ( 10 ) and the mobile device ( 20 ) an outlet opening ( 14 ) for the outlet of the flow of the constituent constituent air from the measuring device ( 10 ) adjacent to a microphone ( 22 ) of the mobile device ( 20 ), wherein the flow of the constituent air through the measuring device ( 10 ) via the microphone ( 22 ) of the mobile device ( 20 ) is measurable. Mobile device according to claim 4, characterized in that the flow of the air having certain constituents by the measuring device ( 10 ) via the microphone ( 22 ) of the mobile device ( 20 ) by impact of the flow on the microphone ( 22 ) is measurable, with one of the microphone ( 22 ) measured volume in relation to a size of the flow of certain constituent air by the measuring device ( 10 ) stands. Mobile device according to one of the preceding claims, characterized in that the mobile device ( 20 ) is adapted to a data memory of the measuring device ( 10 ) read out. Mobile device according to one of the preceding claims, characterized in that the mobile device ( 20 ) is adapted to a remaining service life of the measuring device ( 10 ) depending on by means of a flow meter of the measuring device ( 10 ) counted breath maneuvers and by means of the display device ( 21 ) of the mobile device ( 20 ). Method for controlling a measuring device ( 10 ) for measuring at least one gas analyte in an exhaled air (A), comprising the steps of: controlling the measuring device ( 10 ), a sensor ( 12 ) of the measuring device ( 10 ) for a defined time interval and with certain constituent air in a defined flow by means of a mobile device ( 20 ); and evaluating the signals of the sensor ( 12 ) of the measuring device ( 10 ) after the end of the measurement by means of the mobile device ( 20 ). Arrangement for measuring at least one gas analyte in an exhaled air (A), comprising: the mobile device ( 20 ) according to one of the preceding claims 1 to 7, and a measuring device ( 10 ) for measuring at least one gas analyte in an exhaled air (A), wherein the mobile device ( 20 ) with the measuring device ( 10 ) is data-connected and the mobile device ( 20 ) is adapted to measuring parameters by means of the display device ( 21 ) of the mobile device ( 20 ). Arrangement according to claim 9, characterized in that the measuring device ( 10 ) on the mobile device ( 20 ) can be fastened, that during a measurement of the at least one gas analyte in an exhaled air (A) the display device ( 21 ) of the mobile device ( 20 ) is readable by a user.

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