RU119889U1 - MOBILE RADIO WITH ALCOHOL AMOUNT IN BREATHED AIR - Google Patents

Abstract

1. Mobile radio device with a meter of alcohol concentration in exhaled air, containing a mobile radio device, in the case of which the first power supply unit is located, capable of supplying supply voltages to all electronic assemblies and units located in the case of the mobile radio device, the processor, the corresponding inputs and outputs of which connected to the audio unit, to the radio unit and to the memory unit, as well as the display unit, the input of which is connected to the corresponding output of the processor, and the keyboard connected to the corresponding input of the processor, and the audio output of the audio unit through the series-connected first interface unit, the second power supply unit, the sensor generating the signal of measuring information on the concentration of ethyl alcohol in the exhaled air, the modulator and the second interface unit are connected to the audio input of the audio unit, the audio output of the audio unit is connected to the control input of the modulator through the shaping amplifier. ! 2. The mobile radio device according to claim 1, characterized in that the processor is configured with software for signaling that the permissible limit of alcohol concentration in exhaled air has been reached, and the display unit is configured to output the processor alarm in graphic, tabular or text form and provide the necessary sound , light and / or vibration signals. ! 3. The mobile radio device according to claim 2, characterized in that the processor is made with software that makes it possible to set for each controlled person an individual permissible limit for alcohol concentration in exhaled air. ! 4. Mobile radio device�

Description

This useful model relates to the field of research and analysis of gaseous biological materials, in particular respiration products, and can mainly be used to detect and quantify alcohol in the human body based on the determination of the concentration of ethyl alcohol vapor in exhaled air.

Breathalyzers and breathalyzers are widely known that evaluate the amount of alcohol in the body of a controlled person when checking the air they exhale for the concentration of ethyl alcohol vapor.

In particular, such devices are described in US patents No. 6123828, G01N 27/404 from 06/19/1997, EP No. 2339341, G01N 33/497, B60K 28/06 from 12.01.2005, WO No. 20088071900, H01M 8/08, H01M 8 / 02, H01M 8/10, G01N 33/497 dated 12/15/2006, US No.20110072884, G01N 33/497 dated 09/20/2010

Known devices use semiconductor or electrochemical sensors (as well as less common ones, photometric or infrared), but all these devices do not allow the measurement results to be transmitted to the receiving party immediately upon completion of the measurement.

Meanwhile, it is possible to speed up the results of quantitative assessment of alcohol in the human body by using a mobile radio device with the function of checking the air exhaled by a controlled person for the concentration of ethyl alcohol vapor. Such a device will allow for quick measurements and immediately transfer the measurement results to an interested party on the receiving side.

However, none of the above breathalyzers and breathalyzers is a mobile radio device with a measure of the amount of alcohol in exhaled air. Therefore, we can say that the tool of the same purpose as the claimed device has not been identified. Therefore, none of the above breathalyzers and breathalyzers can not be selected as a prototype of the claimed device.

The proposed technical solution is aimed at increasing the speed of measurements - due to its mobility and the ability to quickly transfer measurement results.

The subject of this utility model is a mobile radio device with a meter of alcohol concentration in expired air, containing a mobile radio device, in the housing of which there is a first power supply unit configured to supply voltage to all electronic components and units located in the mobile radio device housing, a processor, corresponding inputs and the outputs of which are connected to the audio unit, to the radio unit and to the memory unit, as well as an indication unit, the input of which is connected to the corresponding output an ode to the processor, and a keyboard connected to the corresponding input of the processor, the audio output of the audio block through the first coupler, second power supply, a sensor generating a measurement signal for the concentration of ethyl alcohol in exhaled air, a modulator and a second coupler connected to the audio input of the audio unit, the audio output through the amplifier-driver is connected to the control input of the modulator.

Private essential features of the proposed utility model are as follows.

The processor is made with software for signaling that the permissible limit of alcohol concentration in exhaled air has been reached, and the display unit is configured to output the processor's alarm in graphical, tabular or text form and to supply the necessary sound, light and / or vibration signals.

The processor is made with software that allows you to set for each controlled person an individual acceptable limit for the concentration of alcohol in exhaled air.

The processor is configured to save the date and time of each measurement of the concentration of alcohol in the air exhaled by the controlled person, and to transmit the date and time of each measurement through the radio block.

The keyboard contains additional keys for controlling the processor in the mode of measuring the concentration of alcohol in the air exhaled by a controlled person.

The processor is configured to control the operation of a mobile radio device by identifying the voice control commands of a controlled person with their subsequent execution.

The processor is configured to identify a controlled person by voice when issuing voice control commands.

The radio block is made with the possibility of determining, using GPS or GLONASS systems, the location in space of a point for measuring the concentration of alcohol in air exhaled by a controlled person, and with the ability to transmit the set coordinates of this point through the radio block.

The processor is configured to map the location coordinates of a point for measuring the concentration of alcohol in air exhaled by a controlled person.

The processor is made with the ability to take photographs and save photos in the memory unit with the camera integrated in the mobile radio device, and also with the ability to transfer photos to the receiving side via the radio unit.

The processor is configured to enable video recording of a video camera built into the mobile radio device and save the videos in the memory unit, as well as the ability to transfer the captured videos to the receiving side via the radio unit.

The processor is configured to fix additional text or speech comments of the controlled person to each measurement performed in the memory unit and to transmit additional text or speech comments of the controlled person to each measurement through the radio block.

The first interface unit, the second power supply unit, the sensor, the modulator, the second interface unit and the driver amplifier are made in the form of a single measuring unit.

The audio output of the audio unit is connected to the input of the first interface unit and the input of the amplifier-driver, as well as the output of the second interface unit to the audio input of the audio unit through the JACK AUDIO plug.

Photos and / or videos are taken at the time of measurement, physically connected with it and can serve as evidence of identification of the controlled person and reference to the measurement result.

The technical result of the utility model is expressed in increasing the speed of measuring the concentration of ethyl alcohol in the exhaled air from a controlled person. This increase in speed is carried out both due to mobility and by providing the ability to quickly transfer measurement results.

The objective of this utility model is to create a mobile radio device with a measure of the concentration of alcohol in exhaled air, which ensures that the air exhaled by a controlled person for the concentration of ethyl alcohol vapor and allows for the prompt transfer of measurement results.

The essence of the proposed technical solution is illustrated in figure 1, which presents a generalized structural diagram of the claimed utility model.

Figure 1 used the following notation: 1 - the first power supply, 2 - the first pairing unit, 3 - the second power supply unit, 4 - the sensor, 5 - modulator, 6 - the second pairing unit, 7 - amplifier driver, 8 - audio unit, 9 - processor, 10 - keyboard, 11 - memory unit, 12 - display unit, 13 - radio unit.

Consider a mobile radio device with a meter of alcohol concentration in exhaled air (figure 1), contains a mobile radio device, in the housing of which is placed the first power supply unit 1, configured to supply voltage to all electronic components and units located in the housing of the mobile radio device. The mobile radio device also includes a processor 9, the corresponding inputs and outputs of which are connected to the audio unit 8, to the radio unit 13 and to the memory unit 11, as well as an indication unit 12, the input of which is connected to the corresponding output of the processor 9, and a keyboard 10 connected to the corresponding the input of the processor 9. The audio output of the audio unit 8 through the first coupler 2, the second power supply 3, the sensor 4, the modulator 5 and the second coupler 6 is connected in series with the audio input of the audio unit 8. The audio output of the audio unit 8 is the shaper 7 is connected to the control input of the modulator 5.

A mobile radio device (with its first power supply unit 1, an audio unit 8, a processor 9, a keyboard 10, a memory unit 11, an indication unit 12, and a radio unit 13) is a conventional mobile phone. The memory block 11 of this mobile phone should allow the introduction of additional programs of work, and the keyboard 10 should allow you to switch to these programs of work and then return to the execution of standard programs. In addition, a mobile radio device can be configured to switch to additional work programs and return to standard programs by identifying verbal control commands of a controlled person with their subsequent execution.

In the future, the controlled person will be called the person who has at his disposal a mobile radio device with a measure of the concentration of alcohol in exhaled air. The controlled person uses this mobile radio device to measure the concentration of alcohol in their own expired air. The measurement results are transmitted over the air to the receiving side of the so-called interested party. This is the second participant in the measurement.

The first interface unit 2 is a simple, widely used in radio engineering, audio signal detector designed to turn on the second power unit 3. The first interface unit 2 detects a signal with a frequency of 1 to 20 kHz generated at the first audio output of the audio unit 8, and a constant voltage appears at the output of the first interface unit 2. In the presence of this voltage, the second power supply unit 3 is turned on. The batteries of the second power supply unit 3 form the necessary power for the sensor 4. Upon completion of the formation of a signal with a frequency from 1 to 20 kHz on the audio output of the audio unit 8, the voltage at the output of the first interface unit 2 becomes zero, and the second power supply unit 3 turns off.

The second block 6 pair leads the output signals of the modulator 5 to the levels that perceives the audio block 8 at its audio input (microphone input). The second block 6 interface in the simplest case can be performed according to the scheme of the voltage divider on two resistors.

The modulator 5 and the amplifier-driver 7 are well-known and commercially available radio elements.

Sensor 4 is a unit that converts the concentration of alcohol in exhaled air controlled by a person into voltage. Such sensors are described in a number of patent materials, for example, in the aforementioned US patent No. 6123828, G01N 27/404 from 06/19/1997.

4 blocks similar to the sensor are available on the commercial market for free sale.

An example is the MQ303A semiconductor alcohol sensor http://www.seeedstudio.com/depot/alcohol-sensor-mq303a-p-549.html

Thus, all the functional units and elements of the device in question are widely known and available on the commercial market or can be easily manufactured. Therefore, the possibility of practical implementation of the considered mobile radio device with a measure of the amount of alcohol in exhaled air is not in doubt.

The proposed mobile radio device with a measure of the amount of alcohol in the exhaled air (figure 1) works as follows.

Before checking the air exhaled by a controlled person for the concentration of ethyl alcohol vapor, the mobile radio device functions as a regular mobile phone. The first power supply unit 1 is turned on, and the required power is supplied to all nodes located inside the housing of the mobile radio device.

Checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor begins with connecting to the mobile radio device a measuring unit, which includes the first pairing unit 2, the second power unit 3, the sensor 4, the modulator 5, the second pairing unit 6 and the amplifier-former 7.

With this connection:

- the audio output of the audio unit 8 is connected to the input of the first pairing unit 2 and to the input of the amplifier-former 7;

- the output of the second block 6 pair is connected to the audio input of the audio unit 8.

In addition, with this connection, the case contacts of the mobile radio device and the measuring unit are connected (that is, a common ground bus is created for the mobile radio device and the measuring unit).

Then, the controlled person forms a command on the processor 9, which starts the program for checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor. This command can be given, for example, by pressing the special keys of the keyboard 10 (if such keys are available on the keyboard 10). A command can also be given by voice control (if the mobile radio device has this capability). When generating the launch command, the identifier of the controlled person can be entered (for example, serial number, name or surname).

For simplicity of presentation, we consider the verification to be one-stage (that is, it does not have a control stage for the concentration of ethyl alcohol vapors in the room where the test should be carried out, and sensor accessories 4)

The processor 9, after receiving the start command, turns to the memory unit 11 to enter the program of work in the mode of checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor. If the start command contains the identifier of the controlled person previously recorded in the memory unit 11, then information about the controlled person is transmitted from the memory unit 11 to the processor 9 when the work program is entered in the mode of checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor. If the launch command does not contain the identifier of the controlled person or indicates the identifier of the controlled person that is not fixed in the memory unit 11, then it is recorded in the processor 9 that a “unidentified person” check will be performed.

After entering the program of work in the mode of checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor, the processor 9 includes an indication unit 12, informing the controlled person about a change in the operating mode of the mobile radio device. The type of this information for the controlled person is set by the program of work in the mode of checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor and can be an audio, video signal on the monitor screen of the display unit 12, a special vibration signal, or a combination of these signals. The information for the controlled entity should contain information about the controlled entity. The controlled person for this information must make sure that it is installed correctly. If the controlled person is mistakenly identified, he needs to re-send the start command (or the command to re-enter the identifier, if such a command is provided for by the program of the mobile radio device in the mode of checking the air exhaled by the controlled person for the concentration of ethyl alcohol vapor). Finally, the moment comes when the work program is introduced and the person being controlled is correctly identified.

The controlled person certifies the correctness of the program (or simply does not affect the mobile radio device for a specified period of time). Depending on which controlled person is identified, a certain allowable limit of ethanol concentration in exhaled air enters the processor 9 from the memory unit 11.

After that, the processor 9 starts execution of the program. It generates a signal to the audio unit 8, through which the control signal of the first pairing unit 2 appears on the audio output of the audio unit 8. In the simplest case, this can be a signal with a frequency set during programming in the range from 1 to 20 kHz and the maximum amplitude that the audio unit 8 can produce.

According to this signal, the first coupler 2 forms at its output a constant voltage, which includes a second power unit 3. At the output of the second power supply unit 3, a supply voltage is generated for the sensor 4.

The signal at the output of the audio unit 8, the amplifier-driver 7 generates pulsed signals with a frequency in the range of 1-20 kHz to control the modulator 5.

Next, the processor 9 generates a control signal for the indicating unit 12, according to which this unit generates a signal for the controlled person to start checking. For example, on the monitor of the display unit 12, the text message “BLOW” appears and a special sound signal is given.

The controlled person responds to the signal of the display unit 12 and, using the accessories of the sensor 4 (for example, a tube and a mouthpiece), begins to blow around the sensitive element of the sensor 4.

The sensor 4 generates and transmits to the input of the modulator 5 a voltage proportional to the concentration of ethyl alcohol vapor in the air exhaled by the controlled person. The modulator 5 performs amplitude modulation of the signals. These modulated signals in the second conjugation unit 6 are brought to the form required for applying to the audio input of the audio unit 8.

Further, from the audio unit 8, the received signals are sent to the processor 9, where they determine the concentration of ethyl alcohol in the air exhaled by the controlled person. The results obtained are compared in processor 9 with the set for a given controlled person when programming the permissible limit of the concentration of ethyl alcohol in exhaled air. Next, the processor 9 generates and reflects on the display unit 12 an information message indicating the measured concentration of ethyl alcohol in the exhaled air and additional information of the type "ACCEPTABLE" or "ABOVE THE BORDER OF THE ACCESS". The signal about the formation of such a message is transmitted to be stored in the memory unit 11, accompanied by official information about the controlled person, as well as the date and time of the measurement. In the General case, information messages can be displayed on the display unit 12 in graphical, tabular or text form and accompanied by the supply of the necessary sound or vibration signals.

The structure of official information about the controlled person is determined when programming a mobile radio device. In general, official information about a controlled person may include an identifier (for example, name or surname), age, weight, and an individual value for the controlled person for the permissible limit of ethanol concentration in exhaled air.

Through the radio unit 13, the result obtained, if necessary, is transmitted by the processor 9 to an interested person (for example, father or husband). Additionally, official information about the controlled person, as well as the date and time of the measurement of the concentration of ethyl alcohol in exhaled air, can also be transmitted. This overhead information enters the processor 9 from the memory unit 11 for transmission through the radio unit 13.

Information on the measured concentration of ethyl alcohol in exhaled air can also be supplemented by data on the location in space of the point of measurement of the concentration of ethyl alcohol in exhaled air.

Location data can be obtained by navigation devices using GPS or GLONASS systems (if the radio unit 13 of the mobile radio device includes such navigation devices). Information on the location of the point for measuring the concentration of ethyl alcohol in exhaled air can provide the interested person with valuable additional information about the movements of the controlled person.

For clarity, the processor 9 through the display unit 12 can affix the location of the point of measurement of the concentration of ethyl alcohol in exhaled air on a map of the area.

The composition of a mobile radio device can be integrated camera or camcorder (not shown in figure 1). In this case, the processor 9 can take pictures or video of the controlled person and the point of measurement of the concentration of ethyl alcohol in exhaled air. Photo and video can be taken at the time of measurement, physically connected with it and can serve as evidence of the identification of the subject and attachment to the measurement result.

Photos or videos are stored in the memory unit 11. Depending on the program of work installed in the processor 9 (or when executing the speech command of a controlled person), photographs or videos can also be transmitted to the receiving side via radio unit 13. At the receiving side, the person concerned can verify that the concentration of ethyl alcohol in expired air was actually measured in a controlled person.

At the end of the process of measuring the concentration of ethyl alcohol in exhaled air, the controlled person can transmit additional text or speech comments to the measurement through the keyboard 10 or through the audio unit 8. These comments of the controlled person, depending on the established program of work, can be recorded in the memory unit 11 and / or transmitted to the receiving party, to the person concerned, through the radio unit 13.

At the end of all measurements, the controlled person using the keyboard 10 forms on the processor 9 a command to disable the measurement program, the concentration of ethyl alcohol in the exhaled air. Another possible option to disable the program for measuring the concentration of ethyl alcohol in exhaled air may be the controlled person through the audio unit 8 of the appropriate speech control command with its subsequent execution by the processor 9.

The processor 9 puts the mobile radio device in the main mode of operation of the mobile phone. The controlled person disconnects the first pairing unit 2, the second power supply unit 3, the sensor 4, the modulator 5, the second pairing unit 6 and the driver amplifier 7 from the mobile radio device.

Thus, we can assume that the work of a mobile radio device with a meter of alcohol in exhaled air is fully considered.

The actions of the controlled person are greatly simplified if, in the hardware implementation of a mobile radio device with a meter of alcohol in expired air, the first pairing unit 2, the second power supply unit 3, sensor 4, modulator 5, the second pairing unit 6 and the amplifier-former 7 are made in the form of a single measuring unit in the general casing.

At the same time, the connection and disconnection of this single measuring unit and a mobile radio device that is most comfortable for the controlled person is ensured when using the JACK AUDIO plug for connecting and disconnecting. These plugs are commercially available and available on the commercial market.

The contacts of the JACK AUDIO plug are used for:

- transmitting a signal from the output of the second pairing unit 6 to the audio input of the audio unit 8;

- transmitting the signal from the audio output of the audio unit 8 to the input of the first pairing unit 2 and to the input of the amplifier-former 7;

- connection busbars (- * -) of a mobile radio device and a single measuring unit.

Thus, thanks to the introduced nodes and connections, the problem of the utility model has been solved: the creation of a mobile device based on the well-known mobile phone has been carried out, which provides an increase in the speed of measuring the concentration of ethyl alcohol in exhaled air from a controlled person. This increase in speed is carried out both due to mobility and by providing the ability to quickly transfer measurement results.

Claims (15)

1. A mobile radio device with a meter for measuring the concentration of alcohol in exhaled air, comprising a mobile radio device, the housing of which contains a first power supply unit configured to supply voltage to all electronic components and units located in the housing of the mobile radio device, the processor whose corresponding inputs and outputs are connected to the audio unit, to the radio unit and to the memory unit, as well as an indication unit, the input of which is connected to the corresponding output of the processor, and a keyboard connected to the corresponding input of the processor, the audio output of the audio unit through the first coupler, the second power supply, a sensor generating a signal for measuring information on the concentration of ethyl alcohol in the exhaled air, the modulator and the second coupler connected to the audio input of the audio unit, the audio output of the audio unit through the amplifier-former connected to the control input of the modulator. 2. The mobile radio device according to claim 1, characterized in that the processor is provided with software for signaling that the permissible limit of alcohol concentration in exhaled air has been reached, and the display unit is configured to output the processor signaling in graphical, tabular or text form and provide the necessary sound , light and / or vibration signals. 3. The mobile radio device according to claim 2, characterized in that the processor is made with software that allows you to set for each controlled person an individual permissible limit of alcohol concentration in exhaled air. 4. The mobile radio device according to claim 1, characterized in that the processor is configured to save the date and time of each measurement of the concentration of alcohol in the air exhaled by the controlled person, and to transmit the date and time of each measurement through the radio block. 5. A mobile radio device according to any one of claims 1 to 4, characterized in that the keyboard contains additional keys for controlling the processor in the mode of measuring the concentration of alcohol in the air exhaled by a controlled person. 6. A mobile radio device according to any one of claims 1 to 4, characterized in that the processor is configured to control the operation of a mobile radio device by identifying voice control commands of a controlled person with their subsequent execution. 7. The mobile radio device according to claim 6, characterized in that the processor is configured to identify a controlled person by voice when issuing voice control commands. 8. The mobile radio device according to claim 1, characterized in that the radio unit is configured to determine, using GPS or GLONASS systems, the location in the space of a measuring point of alcohol concentration in air exhaled by a controlled person, and with the possibility of transmitting the established coordinates of this item through the radio unit. 9. The mobile radio device of claim 8, wherein the processor is configured to map the location coordinates of the alcohol concentration measurement point in the air exhaled by the controlled person to a location map. 10. The mobile radio device according to claim 1, characterized in that the processor is configured to allow the camera to be photographed by the camera integrated in the mobile radio device and save the photos in the memory unit, as well as to transmit photos to the receiving side via the radio unit. 11. The mobile radio device according to claim 1, characterized in that the processor is configured to allow video recording of a video camera integrated in the mobile radio device and save the videos in the memory unit, as well as the ability to transmit the captured videos to the receiving side via the radio unit. 12. The mobile radio device according to claim 1, characterized in that the processor is configured to capture additional text or speech comments of the controlled person in each memory block and to transmit additional text or speech comments of the controlled person to each carried out measurement. 13. The mobile radio device according to claim 1, characterized in that the first interface unit, the second power supply unit, the sensor, the modulator, the second interface unit and the driver amplifier are made in the form of a single measuring unit. 14. The mobile radio device according to claim 13, characterized in that the audio output of the audio unit is connected to the input of the first interface unit and to the input of the driver amplifier, as well as the output of the second interface unit to the audio input of the audio unit through the JACK AUDIO plug. 15. A mobile radio device according to any one of paragraphs 10 and 11, characterized in that the photo and / or video is taken at the time of measurement, physically connected with it and can serve as evidence of identification of the controlled person and reference to the measurement result.