KR20080005682U - A breathalyzer - Google Patents

Abstract

The present invention relates to a breathalyzer, the present invention is to configure the alcohol sensor provided in the breathalyzer main body as a separate module to replace the sensor module when the alcohol sensor is contaminated or the end of life inconvenience for recalibration of the alcohol sensor Its purpose is to provide a breathalyzer with a new structure that can be eliminated and economical.

According to the present invention for achieving the above object, the alcohol sensor 210 for outputting a detection signal corresponding to the alcohol concentration of the injected gas, and connected to the output or input terminal of the alcohol sensor 210 to adjust the current or voltage A sensor module 200 having correction means for correcting an error value of the detection signal of the alcohol sensor 210 and an output connector 240 for transmitting the detection signal of the alcohol sensor 210 to the outside; And

A memory device 120 storing a reference value for an alcohol standard gas having a reference concentration, an input connector 140 connected to an output connector 240 of the sensor module 200, and through the input connector 140. A signal processor 110 for calculating an alcohol concentration by comparing the detected signal value of the alcohol sensor 210 with the reference value stored in the storage device 120, and display means 130 for displaying the calculated alcohol concentration. There is provided a breathalyzer that includes the measured measuring body 100.

Breathalyzer, Sensor Module, Connector, Variable Resistance, Display Means

Description

Breathalyzer {A breathalyzer}

1 is a circuit diagram showing a removable sensor module of a conventional breathalyzer.

Figure 2 is a conceptual perspective view of a separate sensor module according to the present invention.

3 is a circuit block diagram of a breathalyzer according to the present invention.

<Description of the symbols for the main parts of the drawings>

100. Measuring body 110. Signal processing part

120. Storage device 130. Display means

140. Input connector 200. Sensor module

210. Alcohol sensor 213. Heater unit

240. Output connector 250. Variable resistor

The present invention relates to a breathalyzer, and more particularly, by configuring the alcohol sensor provided in the breathalyzer body as a separate module by replacing only the sensor module when the alcohol sensor is contaminated or the end of life, recalibration of the alcohol sensor It is a new type of breathalyzer that can eliminate the inconvenience and economical.

In general, the breathalyzer is composed of alcohol sensor, signal processing unit, display means, power supply unit, alcohol sensor generates an electrical signal by reacting with the alcohol of the inhalation exhalation, the signal processor receives the electrical signal and the alcohol concentration After the calculation, the result is displayed through the display means, and the operating power is supplied through the power supply.

However, when the number of times of the breathalyzer is increased, the alcohol sensor of the breathalyzer body is likely to be contaminated quickly because saliva, nicotine, etc. contained in a person's breath directly touches. This contaminated alcohol sensor will need to be recalibrated because the alcohol concentration reading will be inaccurate. If the alcohol sensor needs to be recalibrated, the consumer sends all the breathalyzers to the A / S center and the center corrects the accuracy through the above calibration process. In this process, the consumer may pay for the shipping cost of the product, and the inconvenience of having to wait for the product to arrive.

In order to solve this inconvenience, a product that is detachably provided to the breathalyzer main body has been proposed by configuring only the alcohol sensor as a separate module in the breathalyzer main body.

1 is a circuit diagram illustrating a removable sensor module of a conventional breathalyzer. As shown, the sensor module is modularized including a sensor unit 11, a heater unit 13, a nonvolatile memory 15 such as an EEPROM, and a connector unit 30. In this case, the sensor unit 13 transmits a detection signal corresponding to the alcohol concentration of the injected breathing gas to the signal processing unit (not shown) of the breathalyzer body through the connector unit 30. The signal processor reads the calibration data value of the sensor stored in the nonvolatile memory 15 through the connector unit 30, and then calculates the detected signal of the sensor unit 11 and the read calibration data value. The concentration will be displayed.

By the way, such a conventional removable sensor module is provided to be easily removable to the breathalyzer body, but there is convenience in use, but because the semiconductor memory such as EEPROM is used for the calibration of the sensor is still expensive to manufacture and complicated circuit configuration There is a problem. In addition, since the amount of waste that is discarded when discarding the sensor module increases, it is not preferable in terms of the environment.

The present invention is to solve the problems as described above, the object of the present invention is to provide a separate sensor module that is easily calibrated in advance when the alcohol sensor is contaminated or reached the end of life, to facilitate the use It is.

Another object of the present invention is to provide a sensor module that reduces manufacturing costs by using a variable resistor in the calibration process of an alcohol sensor, compared to a conventional sensor module including a memory storing calibration data values.

Another object of the present invention is to provide a sensor module having a simple circuit configuration compared to the conventional sensor module, there is an object to reduce the amount of waste when discarding the module.

According to a feature of the present invention, the alcohol sensor 210 for outputting a detection signal corresponding to the alcohol concentration of the injected gas, and connected to the output or input terminal of the alcohol sensor 210 through the current or voltage control alcohol sensor ( A sensor module (200) having correction means for correcting a detection signal error value of the 210 and an output connector 240 for transmitting the detection signal of the alcohol sensor 210 to the outside; And a memory device 120 storing a reference value for the alcohol standard gas having a reference concentration, an input connector 140 connected to the output connector 240 of the sensor module 200, and the input connector 140. The signal processor 110 for calculating the alcohol concentration by comparing the detected signal value of the alcohol sensor 210 transmitted through the reference value stored in the storage device 120, and the display means 130 for displaying the calculated alcohol concentration is There is provided a breathalyzer including a measuring base 100 provided.

According to another feature of the present invention, the correction means is made of a variable resistor 250 is provided with a breathalyzer, characterized in that to correct the detection signal of the alcohol sensor 210 by adjusting the resistance value.

 Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows. 2 is a conceptual perspective view of a separate sensor module 200 according to the present invention, Figure 3 is a circuit block diagram of a breathalyzer according to the present invention.

As shown in Figures 2 and 3, the breathalyzer according to the present invention is composed of a sensor module 200 and the measuring base 100. The sensor module 200 includes an alcohol sensor including a sensor unit 211 in which electrical conductivity is changed according to the alcohol concentration of injected breathing gas, and a heater unit 213 for heating the sensor unit 211 to a preset temperature. The measurement error generated according to the sensitivity of the output connector 240 and the alcohol sensor 210 for transmitting the detection signal of the 210 and the alcohol sensor 210 to the signal processing unit 110 of the measuring base 100. The variable resistor 250 for correction is included, and the measurement base 100 has a reference value for the alcohol standard gas having an input connector 140 and a reference concentration connected to the output connector 240 of the sensor module 200. The signal processor 110 calculates an alcohol concentration by comparing the detected signal value of the alcohol sensor 210 stored through the memory 120 and the input connector 140 with the reference value stored in the memory 120. And display means 130 for displaying the calculated alcohol concentration. It is.

In the present invention, the connector unit 300 is composed of an output connector 240 of the sensor module 200 and an input connector 140 of the measuring base 100, and are directly connected or indirectly using cables by forming a male and female pair. May be connected. Through this connector portion 300, the sensor module 200 of the present invention is provided to be detachably coupled to the measuring base 100. Referring to Figure 3 describes the measuring method of the alcohol sensor 210 as follows. First, when a user is supplied with operating power through a power supply unit (not shown) of the breathalyzer, the operating power is supplied to the heater unit 220 through pin 2 of the output connector 240 of the sensor module 200. The sensor unit 211 is preheated through the heater unit 213 to the required temperature, approximately 350 ° C to 400 ° C. At this time, when the subject injects the expiratory gas through the bulge, the alcohol sensor 210 detects a detection signal corresponding to the alcohol concentration of the injected expiratory gas through the third pin of the connector unit 300, the measuring base 100. Transfer to the signal processing unit 110. The signal processor 110 receiving the detection signal of the alcohol sensor 210 stores a reference value of the detection signal of the alcohol sensor 210 transferred through the third pin of the connector 300 in the storage device 120. The alcohol concentration is calculated by comparing with the concentration value, and the result is displayed through the display means 130.

In addition, the correction means is used for the alcohol sensor 210 to correct the characteristic that the actual measured value is changed according to the sensitivity. The present invention injects an alcohol standard gas having a predetermined reference concentration to the alcohol sensor 210 during the manufacturing process, and then adjust the resistance value of the variable resistor 250 connected to the alcohol sensor 210 and the alcohol sensor 210 and The voltage across the voltage divider resistor R1 is set to be the reference output voltage. As described above, the present invention corrects the detection error of the alcohol sensor 210 by using the variable resistor 250 as a correction means to correct the characteristic deviation for each sensor so as to have compatibility between the sensor modules 200. Compared with the module using the manufacturing cost is low, there is an advantage that the amount of waste when discarding the module. In this way, the user can use a product having the same accuracy at low cost even if the user removes the sensor module 200 from the connector unit 300 and replaces the new sensor module 200 again.

On the other hand, since the conventional sensor module is assembled with the semiconductor memory exposed to the outside of the PCB, the semiconductor memory is often damaged by static electricity or the like in the process of replacing the module by the user. However, since the present invention does not have a semiconductor memory embedded in the sensor module 200, the risk of damaging the module for the above reason during the replacement process is eliminated.

The storage device 120 of the measurement base 100 stores a reference concentration value, and it is preferable to use a nonvolatile memory such as an EEPROM so that the stored information is not erased. The signal processing unit 110 may be connected to the nonvolatile memory 120 to the outside, it may be provided as a microcomputer built in the memory itself.

In addition, the present invention stores the reference concentration values of the high concentration (ex% 0.1Bac) and the low concentration (ex% 0.05Bac) in the storage device 120 for precise measurement, and then the signal processor 110 has two concentration values. It can also be used to program a large range of alcohol concentrations. In addition, the conventional sensor module has a large number of signal lines for storing calibration data values in the nonvolatile memory 15, the connector 30 is composed of 7 pins, the sensor module 200 of the present invention does not require a memory Since it is a simple configuration, since the output connector 240 is 4 pins is enough, the failure factor is significantly reduced compared to the conventional.

The display means 130 of the measuring base 100 preferably uses FND, and may vary colors depending on the alcohol concentration by using LEDs of various colors.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

According to the present invention as described above, by providing a separate sensor module 200 detachably coupled to the measuring base 100, when the alcohol sensor 210 is contaminated or the end of life, the user is a sensor module ( Since only 200) can be easily replaced and used, there is an effect of increasing convenience.

In addition, compared to a conventional sensor module using a memory, the sensor module 200 in a state that is pre-calibrated using the variable resistor 250 without using a memory is provided, thereby reducing the cost, the replacement cost from the consumer's point of view There is a saving effect.

In addition, the sensor module 200 of the present invention is excluded from the relatively large semiconductor memory of the conventional sensor module and consists of only a simple component, there is an advantage that the amount of waste generated when discarding the module.

Claims (2)

Alcohol sensor 210 for outputting a detection signal corresponding to the alcohol concentration of the injected gas, and connected to the output or input terminal of the alcohol sensor 210, the error value of the detection signal of the alcohol sensor 210 through the current or voltage control A sensor module (200) having correction means for correcting the output and an output connector (240) for transmitting the detection signal of the alcohol sensor (210) to the outside; And A memory device 120 storing a reference value for an alcohol standard gas having a reference concentration, an input connector 140 connected to an output connector 240 of the sensor module 200, and through the input connector 140. A signal processor 110 for calculating an alcohol concentration by comparing the detected signal value of the alcohol sensor 210 with the reference value stored in the storage device 120, and display means 130 for displaying the calculated alcohol concentration. Breathalyzer including the measured measuring body 100. The breathalyzer according to claim 1, wherein the correction means comprises a variable resistor (250) to correct the detection signal of the alcohol sensor (210) by adjusting the resistance value.

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