KR20150009641A - Drunkometer - Google Patents

Abstract

The present invention aims to provide a drunkometer which enables a user to comfortably measure blood alcohol content by using a left hand or a right hand the user prefers to use. The present invention comprises a housing (10) which includes an alcohol sensor (11) therein and includes a displaying means (12) for displaying the blood alcohol content and an operation button (13) on one side of thereof; an exhaled air transfer pipe (20) which is installed on one side of the housing (10) to communicate with an alcohol sensor (11) and includes a first insertion hole (21) and a second insertion hole (22), which communicate with the outside, on both end portions thereof; a blowing tube (30) which is selectively installed on the exhaled air transfer pipe (20) to communicate with the first insertion hole (21) and the second insertion hole (22) of the exhaled air transfer pipe (20) and is used when a person whose blood alcohol content is to be tested blows exhaled air thereinto; microphones (40,50) which detect sound wave signals generated by exhaled air or inhaled air which moves in the exhaled air transfer pipe (20), convert the sound wave signals into electric signals, and output the electric signals; and a microcomputer (70) which determines whether the air is an exhaled air or inhaled air by comparing electric signal output transmitted from the microphones (40,50) with a reference value, and outputs an alarm signal when the air is determined to be inhaled air.

Description

Drunkometer

The present invention relates to a breathalyzer, and more particularly, to a breathalyzer which is capable of measuring naturally by using a right hand or a left hand which is convenient to use a measurer, thereby improving usability, And more particularly, to a drinking water measuring instrument capable of effectively preventing a drinking water.

In general, a breathalyzer is a device for extracting the breath of a subject and analyzing the alcohol content contained in the breath to determine the blood alcohol concentration of the subject. The alcohol concentration is measured by an alcohol sensor installed in the breath path in the breathalyzer. In order to accurately measure the alcohol concentration, a breath amount exceeding the reference value must be introduced into the breath path.

Often, however, the subject avoids accurate breathing measurements, such as breathing or breathing lightly to lower blood alcohol levels. Accordingly, a breathalyzer has been developed, which detects whether the subject is blowing for a predetermined period of time by installing a microphone for detecting a sound wave signal generated while passing through the inside of the breathing apparatus.

However, in such a conventional alcohol meter, a sound wave signal is detected not only in the case where the subject breathes but also when the user breathes, so that the alcohol concentration of the subject who is actually drinking is measured and displayed as zero .

On the other hand, there is also a breathalyzer which detects the blowing of the breath by sensing the pressure generated when the breath is blown by using the pressure sensor. However, since the price of the pressure sensor and the peripheral device of the pressure sensor are high and the pressure sensor is sensitive, There is a problem in that the price competitiveness is deteriorated because the productivity is lowered due to the complexity of the structure.

In Europe, on the other hand, a drinking water meter is connected to a car by a cable so that the driver can measure himself or herself and limit his / her ability to drive if it exceeds the reference value. At this time, the driver's seat is located on the left or right side of each country, and the drinking meter is located on the right or left side relatively.

However, since the drunkenness measuring instrument located as described above grasps the drunkenness by grasping with the right or left hand of the driver, the drunkenness measuring instrument is usually positioned so that the drunkenness can be measured while gripping with the right hand. There is a cumbersome problem to measure. As a result, most drivers are very annoyed because they are measuring the alcohol meter by lifting it with the left hand and moving it with the right hand.

Korean Registered Utility Model No. 20-024896

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an apparatus and a method for measuring naturally by using a right hand or a left hand, The driver can easily measure the driver's hand with the left hand or the right hand to make it easier to measure the driver's own self and make it easier to measure the driver's breath or air intake through sound waves generated by the inspiration or intake of the subject The present invention is to provide a drinking meter which is capable of preventing unauthorized measurement of a subject by more accurately detecting and warning an unauthorized inhalation action of the subject, and being manufactured at a relatively low cost, thereby being excellent in price competitiveness.

According to an aspect of the present invention, there is provided a blood pressure monitor comprising: a housing (10) provided with an alcohol sensor (11) therein and having a display means (12) and an operation button (13) (20) having an intermediate portion formed on one side of the housing (10) and communicating with the alcohol sensor (11) and having a first insertion port (21) and a second insertion port (22) communicating with the outside at both ends; (30) selectively mounted on the aerobic transport pipe (20) so as to communicate with the first insertion port (21) or the second insertion port (22) of the aerobic transport pipe (20); A microphone (40, 50) for detecting an acoustic wave signal generated by a breathing air or intake air flowing in the breath moving tube (20) and converting it into an electric signal; And a microcomputer 70 for comparing the output of the electrical signal received from the microphones 40 and 50 with an exhalation judgment reference value to determine whether the exhalation or inspiration is present and outputting a warning signal when judged to be inspiration Is provided.

According to another aspect of the present invention, the microphones 40 and 50 are formed as a pair, one microphone 40 is disposed close to the first insertion port 21 of the breathing tube 20, Is disposed close to the second insertion port (22) of the breath transfer tube (20).

As described above, according to the present invention, by selectively attaching the bones 30 to the first and second insertion ports 21 and 22 formed at both ends of the breathing tube 20 provided in the housing 10 of the breathalyzer, The convenience of use of both left-handed and right-handed persons is improved. In particular, when the position of the driver's seat differs from country to country, the usability of the alcohol meter installed in the vehicle can be greatly improved. At this time, the microphones (40, 50) are installed in the breath transfer tube (20) to compare the output value of the sound wave signal generated by the breath or intake with the breath judgment reference value to judge and warn the breath or inspiration, Can be detected more effectively, and the efficiency of alcohol interception can be improved.

In addition, a sound wave signal corresponding to a minimum breathable amount of alcohol can be stored in the microcomputer 70 as an exhalation judgment reference value, and the output of the electric signal received from the pair of microphones 40 and 50 is compared with an exhalation judgment reference value, It is possible to greatly reduce the manufacturing cost by greatly simplifying the structure compared to a measuring instrument provided with a pressure sensor for detecting a normal state.

By disposing each of the pair of microphones 40 and 50 close to the first and second insertion ports 21 and 22 of the breath transfer tube 20, the comparison value with the breath judgment reference value becomes more clear It is possible to more precisely judge whether the patient is breathing or sucking, and thus to more effectively prevent the negative measurement action.

1 is a partial cross-sectional view showing a main portion of an embodiment of a breathalyzer according to the present invention;
Fig. 2 is a cross-sectional view of the instrument of Fig. 1,
Fig. 3 is a cross-sectional view of the instrument of Fig. 1,
Fig. 4 is a block diagram showing the operation of the alcohol meter of Figs. 2 and 3. Fig.
Fig. 5 is a first usage state diagram of the alcohol meter of Fig.
FIG. 6 is a view showing a state in which the measurer grasps the alcohol meter in FIG. 5; FIG.
7 is a second usage state diagram of the alcohol meter of FIG.
FIG. 8 is a view showing a state in which the measurer grips the breathalyzer in FIG. 7; FIG.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a partial cross-sectional view showing a main part of a breathalyzer according to a preferred embodiment of the present invention, FIG. 2 and FIG. 3 are cross-sectional views of a breathalyzer combined with one side and the other side of FIG. 1, 3 is a block diagram showing the operation of the alcohol meter of FIG. 3; FIG.

As shown in the drawing, the drinking measuring instrument according to an embodiment of the present invention includes a housing 10, a breathing room moving pipe 20 provided in the housing 10, A microphone 30 and a microphone 40 and 50 for sensing an acoustic wave signal generated by the breath or intake air flowing in the breath moving tube 20 and an electric signal received from the microphones 40 and 50, And a microcomputer 70 for determining whether the microcomputer 70 is operating.

The housing 10 is provided with an alcohol sensor 11 for collecting alcohol gas in the breath and a display means 12 and an operation button 13 for displaying the measured blood alcohol concentration on the outer surface. At this time, the microcomputer 70 calculates the blood alcohol concentration from the signal input from the alcohol sensor 11, displays the blood alcohol concentration on the display means 12, and operates the operation button 13.

The aerobic transportation pipe 20 is coupled to the housing 10 such that the alcohol sensor 11 is connected to the intermediate portion as shown in FIG. The first and second insertion ports 21 and 22 are communicated with the outside of the housing 10, The first and second insertion ports 21 and 22 of the breath transfer tube 20 are formed on the left and right sides with respect to the front surface of the housing 10 as shown in the illustrated embodiment.

The breech block 30 is mounted on the breath transfer tube 20 as a means for blowing the subject's breath and a reduced diameter portion 31 whose inner diameter is reduced is formed at a portion mounted on the breath transfer tube 20. Such a gap 30 can be selectively mounted on the first insertion port 21 or the second insertion port 22 of the oximetry pipe 20 as shown in FIGS. 2 and 3, depending on the needs of the user.

The microphones 40 and 50 are installed in the breath transfer tube 20 and collect sound wave signals formed by the breath or intake air in the breath transfer tube 20. The microphones 40 and 50 preferably include a pair of microphones 40 and 50 Are spaced apart from each other in the aerobic transport pipe (20). The first microphone 40 is installed at a position adjacent to the first insertion port 21 of the breath transfer tube 20 and the second microphone 50 is installed at a position adjacent to the first insertion opening 21 of the breath transfer tube 20. [ And is provided at a position adjacent to the second insertion opening 22. [

On the other hand, the first and second microphones 40 and 50 are means for converting a sound wave signal into an electrical signal, as is generally known, and output the converted electrical signal, respectively. Also, a conversion unit 60 composed of an amplifier and an A / D converter is provided at the rear end of the first and second microphones 40 and 50 to amplify the electrical signal output from the microphones 40 and 50, To the microcomputer (70).

The microcomputer 70 compares the outputs of the first and second electrical signals received from the first and second microphones 40 and 50 with an exhalation determination reference value to determine whether the exhalation or inspiration is present. Here, the exhalation determination reference value is a value obtained by multiplying the first and second electrons received from the first and second microphones 40, 50 when the standard alcohol gas having the minimum flow rate after calibration is injected at a predetermined flow rate for a predetermined time during the production process of the alcohol meter. Means output data of the red signal, and the reference value of the expiration date is stored in the microcomputer 70.

2, when the user unharmed the patient by attaching the thumb 30 to the first insertion port 21 of the oxgator moving tube 20, the patient is caught by the neck portion 31 of the thumb 30 The intensity of the output of the first electrical signal is greater than the reference value of the expiration time because the flow rate of the first electric signal is close to the first microphone 40 adjacent to the bed frame 30 in a state where the flow rate is increased. On the other hand, when the subject sucks the outside air, the subject moves away from the first microphone 40 in a state in which the flow velocity is increased while flowing into the reduced diameter portion 31 of the ball 30 in the aerobic transport pipe 20, Is relatively smaller than that of the exhalation and is smaller than the reference value of the exhalation. Also, in the second microphone 50 spaced apart from the bed 30, the intensity of the output of the second electrical signal is higher than the breathing determination reference value, and the intensity of the output of the second electrical signal is smaller than the breathing determination reference value do.

As shown in FIG. 3, when the subject is installed in the second insertion port 22 of the breath transfer tube 20 to blow the breath away, the opposite is done. That is, in the case of the exhalation, the intensity of the output of the second electrical signal of the second microphone 50 is larger than the exhalation judgment reference value, and the intensity of the output of the first electrical signal of the first microphone 40 becomes smaller than the exhalation judgment reference value. Further, in the case of intake air, the intensities of the outputs of the first and second electric signals are all lower than the exhalation judgment reference value.

The microcomputer 70 determines whether it is expired or inspired by using the above-mentioned expiration determination reference value. That is, when the outputs of the first and second electrical signals received from the first and second microphones 40 and 50 are equal to or greater than the expiration judging reference value, it is determined that the subject normally blows the breath and outputs a normal signal. If it is less than the reference value, it is judged as abnormal or intake air, and a warning signal is outputted. In addition, even when the subject blows a breath of less than the minimum flow rate, it is determined that the breath is abnormal and a warning signal is output.

Such warning signals can be displayed in various ways. For example, when the microcomputer 70 outputs a warning signal, the display means 12 configured by seven segments or the like can display a warning phrase such as "Err" or "FAIL" in response to the warning signal. If an LCD is used as the display means 12, a warning such as "remeasurement request" may be displayed.

More preferably, it is preferable to provide warning means 14 for displaying a warning signal output from the microcomputer 70 separately from the display means 12 on which the warning text is displayed. For example, as shown in FIG. 1, a warning indicator such as an LED is mounted on the front surface of the housing 10, and when the warning signal is outputted from the microcomputer 70, . At this time, it is preferable that the warning indicator is composed of a red LED. As another example, the warning means 60 may be an audible warning means such as a buzzer.

On the other hand, the direction of the expiration and the direction of the intake air are opposite to each other when the baggage bag 30 is mounted on the first insertion port 21 of the aerobic transport pipe 20 and when mounted on the second insertion port 22. However, the intensity of the output of the electrical signal at the microphone in the vicinity of the reduced diameter portion 31 of the finger 30 is always larger than the reference value of the exhalation, and the intensity of the electrical signal at the microphone remote from the reduced- It is always smaller than the reference value of the exhalation judgment. Accordingly, the microcomputer 70 can determine the exhalation or the inspiration based on the pattern of the intensity of the output of the first and second electric signals.

FIGS. 5 and 7 illustrate first and second usage states of a breathalyzer according to an embodiment of the present invention, in which a breathalyzer is installed in a vehicle so that a driver can self-measure the breathalyzer. FIGS. 6 and 8 Each of which shows the state where the measurement person grasps the alcohol measurement device naturally.

First, as shown in FIG. 5, it is natural for a driver to grip the breathalyzer with his / her right hand 1 because the breathalyzer is positioned close to the driver's right hand 1 in a vehicle provided with a driver's seat on the left side. 6, the thumb 2 of the right hand 1 is naturally positioned on the operation button 13 of the housing 10 so that the operation button 13 can be easily pushed.

As shown in FIG. 7, in the vehicle having the driver's seat on the right side, it is natural for the driver to hold the alcohol meter by the left hand 3 because the alcohol meter is located close to the driver's left hand 3. At this time, the thumb 4 of the left hand 3 is naturally positioned on the operation button 13 of the housing 10 as shown in Fig. 8, so that the operation button 13 can be easily pushed.

As described above, by selectively attaching the finger 30 to the first insertion port 21 or the second insertion port 22 of the breath transfer tube 20 according to the needs of the user, the right hand 1, Or the left hand 3, as well as the thumbs 2 and 4 can be naturally positioned and easily operated on the operation buttons 13 of the breathalyzer in a state of being gripped, There is an advantage that convenience is greatly improved. In addition, the conventional alcohol meter has a problem that it is inconvenient for a left-handed person to measure, because most of the conventional alcohol meter is positioned with a right-handedness. However, the alcohol meter according to an embodiment of the present invention solves such inconvenience.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (2)

A housing 10 provided with an alcohol sensor 11 therein and having a display means 12 and an operation button 13 for displaying the measured blood alcohol concentration on one side;
(20) having an intermediate portion formed on one side of the housing (10) and communicating with the alcohol sensor (11) and having a first insertion port (21) and a second insertion port (22) communicating with the outside at both ends;
(30) selectively mounted on the aerobic transport pipe (20) so as to communicate with the first insertion port (21) or the second insertion port (22) of the aerobic transport pipe (20);
A microphone (40, 50) for detecting an acoustic wave signal generated by a breathing air or intake air flowing in the breath moving tube (20) and converting it into an electric signal; And
And a microcomputer 70 for comparing the output of the electrical signal received from the microphones 40 and 50 with an exhalation judgment reference value to determine whether the exhalation or the inspiration is present and outputting a warning signal when judged to be inspiration Drinking measuring instruments.
The microwave oven according to claim 1, wherein the microphones (40, 50) are a pair, one microphone (40) is disposed close to the first insertion port (21) of the breath transfer tube (20) (22) of the moving pipe (20).

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