RU45823U1 - ELECTRONIC THERMOMETER FOR BLIND AND WEAKLY VISIBLE USERS - Google Patents

Abstract

The utility model is aimed at creating an environmentally friendly inexpensive individual device - an electronic medical thermometer that provides reliable and reliable information about the measured temperature in the form of a voice message in Russian for blind and visually impaired users. The specified technical result is achieved in that the electronic thermometer for blind and visually impaired users, contains a thermistor and a reference resistor connected through the first integrating circuit to the first input of the microcontroller, read-only memory (ROM), made in the form of a Russian-language synthesizer, connected to the second input of the microcontroller, the outputs of which, one directly and the other through the second integrating chain are connected respectively to the inputs of the power amplifier with a sound emitter m at the exit.

Description

The utility model relates to thermometry and can be used to measure human body temperature, as well as the temperature of liquid and bulk products, and is intended primarily for blind and visually impaired users.

The known designs of electronic thermometers, which are environmentally friendly and safer to use than mercury thermometers, which is especially true for blind and visually impaired people. (US Pat. WO 83/02826, US Pat. WO 01/79797).

WO 83/02826 describes a thermometer for blind and visually impaired users, comprising a measuring probe connected to an electronic unit. The measuring probe converts the signal of the thermal converter into an electrical signal, the value of which is proportional to the measured temperature. The electronic unit consists of a series-connected amplifier, a first comparator, a controlled sound frequency generator and a reproducer, a voltage divider connected to the second input of the first comparator, a second comparator connected to the control input of the controlled sound frequency generator and a voltage source. The voltage divider allows you to increase the scale of the reading scale, and the sound generator generates signals corresponding to certain temperature values.

In this device, the measuring transducer and the electronic unit are located in separate cases, which creates inconvenience in use. Presentation of temperature information in the form of sound signals corresponding to certain threshold temperature values also creates certain difficulties when using this device.

Also known is the design of an electronic thermometer for measuring temperature, US Pat. WO 01/79797, which provides information about the temperature in the form of a voice message. The thermometer contains a housing in which the thermocouple, microprocessor, battery, the unit that controls the supply of voltage to the thermocouple and the corresponding electrical pulses to the loudspeaker for sounding the measured temperature. The output of the thermal converter through an analog-to-digital converter is connected to an ohmmeter. An ohmmeter output, a current memory unit for storing at least the last measured value, are connected to the microprocessor

temperature, a read-only memory block in which the analog data necessary for speech playback of temperature values is pre-recorded, an amplifier whose output is connected to the loudspeaker.

This thermometer provides information about body temperature in the form of a voice message in a foreign language. However, for Russian users, especially visually impaired and visually impaired people with poor knowledge of foreign languages, using such a thermometer presents a certain difficulty. In addition, the high cost of the thermometer makes it inaccessible to people of these social groups.

The technical task of this utility model is to create an environmentally friendly inexpensive individual device - an electronic thermometer, which provides reliable and reliable information about the measured temperature in the form of voice messages in a language accessible to the Russian user, namely, in Russian, which allows solving the social problem of an individual adaptation of the blind and visually impaired.

The problem is solved in that in an electronic thermometer for blind and visually impaired users, containing a thermal resistor, read-only memory (ROM), a microcontroller, a power amplifier, the output of which includes an audio emitter, and a battery, while the first information input of the microcontroller is connected to ROM output, control outputs are connected respectively to the inputs of the thermistor and ROM, and the information output is to the input of the power amplifier, the battery is connected to the power inputs of the power amplifier A bridge, ROM and microcontroller, according to the claimed utility model, introduced a reference resistor and two integrating circuits, and the ROM is made in the form of a Russian speech synthesizer, while the additional control output of the microcontroller is connected to a reference resistor, the outputs of the reference resistor and thermistor through the first integrating chain are connected to the second information input of the microcontroller, the second information output of which is connected through the second integrating circuit to the additional input of the power amplifier.

In this case, the power amplifier is made in the form of a bridge circuit, and its inverse output is connected to the second input of the sound emitter.

The battery can be connected to the power inputs of the ROM and the microcontroller through the input voltage regulator.

In addition, the electronic thermometer is equipped with a body of dielectric material with a metal tip.

At the same time, the “start” and “sound” buttons are connected to the microcontroller and the “on” button is connected to the output of the battery.

The presence in the thermometer of the reference resistor, the first integrating circuit included at the output of the thermistor and the reference resistor, the second integrating circuit included at the input of the power amplifier, as well as the presence of a ROM with voice information recorded in it in Russian, allows you to obtain reliable and reliable voice information about the temperature in Russian for Russian-speaking users. In addition, the proposed scheme eliminates the use of complex and expensive devices, such as a microprocessor with an ADC, the role of which in the claimed thermometer is performed by a microcontroller that performs mathematical processing of signals received from a thermistor and a reference resistor, and controls the entire operation of the thermometer.

Due to the presence of an integrating chain at the output of the microcontroller, the output signal of the thermistor is accumulated, which almost completely eliminates the effect of shot noise on the measurement results.

comparing the measured signal with the reference,

2. in the mode of accumulation of signals.

The first eliminates a systematic collision. The second reduces the level of shot noise to thousandths in terms of degrees Celsius.

The voltage stabilizer additionally ensures the stability of the thermometer readings during an abnormal user exposure to the “sound” button, causing significant energy consumption from the power source.

The drawing shows a structural electrical circuit of an electronic thermometer for blind and visually impaired users.

An electronic thermometer for blind and visually impaired users, contains a thermistor 1, read-only memory (ROM) 2, a microcontroller 3, a power amplifier 4, the output of which includes an audio emitter 5, and a battery 6, while the first information input of the microcontroller 3 is connected to the output ROM 2, the control outputs are connected respectively to the inputs of the thermistor 1 and ROM 2, and the information output is connected to the input of the power amplifier 4, the battery 6 is connected to the power inputs of the power amplifier 4, ROM 2 and micro MODULES 3. The thermometer also includes a reference resistor 7, integrating two chains 8, 9, the ROM 2 is designed as a speech synthesizer Russian, wherein the additional control output of the microcontroller 3 is connected to a reference resistor 7, the outputs of the reference resistor 7 and the thermistor 1 through the first

the integrating chain 8 is connected to the second information input of the microcontroller 3, the second information output of which through the second integrating chain 9 is connected to the additional input of the power amplifier 4.

The power amplifier 4 is made in the form of a bridge circuit, and its inverse output is connected to the second input of the sound emitter 5. The battery 6 is connected to the power inputs of the ROM 2 and the microcontroller 3 through the input voltage regulator 10.

The electronic thermometer is equipped with a body of dielectric material with a metal tip (not shown in the drawing), on which there are placed the “start” button 11, and the “sound” 12 connected to the microcontroller 3, and the “on” button 13 connected to the output of the battery 6 .

An electronic thermometer for blind and visually impaired users works as follows.

From the microcontroller 3, the power pulses are periodically supplied to the thermistor 1, which is heated to the patient’s body temperature, and the reference resistor 7, and then through the integrating circuit 8 to the microcontroller 3. The microcontroller 3, operating in automatic mode, produces in accordance with the control program multiple, with a frequency of several tens of Hertz, measurements of the resistance value of thermistor 1 and reference resistor 7. These measurements are carried out until at least five results do not match. Measurements end when the temperature of thermistor 1 begins to approach the patient’s body temperature, and its growth rate is negligible. The data obtained are subjected to mathematical processing carried out in the microcontroller 3, in order to reduce the dependence of the measurement results on the supply voltage. The reference resistor 7 is made tunable to compensate for possible deviations of the values of the thermistor 1 from the nominal. At the same time, comparing the measured signal with the reference one allows eliminating a systematic error, and the signal accumulation mode reduces the fraction of shot noise to thousandths in terms of degrees Celsius.

The results of temperature measurements are presented in the microcontroller 3 in digital (binary) form. At the end of the measurements, the microcontroller 3 includes a ROM 2 with pre-recorded voice information in Russian and a power amplifier 4. According to commands from the microcontroller 3, the codes of the corresponding audio messages begin to cyclically come from the ROM 2 to the microcontroller 3. The last

converts them into a signal in which sound information is represented using pulse-width modulation.

Then the encoded audio signal is decrypted using an integrating chain 9 and is fed to the input of a power amplifier 4, made according to a bridge circuit having direct and inverse outputs. From the outputs of the power amplifier, 4 pairs of antiphase power-amplified signals are supplied to the contacts of the sound emitter 5, which converts the current signal into an audio one.

The integrating chain 8 provides the accumulation of the output signal of the thermistor 1 for a relatively significant time (several hundred microseconds), which allows you to almost completely eliminate the effect of shot noise on the measurement results and thereby ensure extremely high measurement accuracy.

To ensure the stability of the readings of the electronic thermometer during abnormal user exposure to the "sound" button 11, which causes a significant energy consumption from the power source, and, accordingly, a relatively rapid change in the supply voltage, a voltage stabilizer 10 is used.

The result in the form of a digital code is fed to a digital speech synthesizer made on the basis of ROM 2 with pre-recorded voice information in Russian, which is called by commands from microprocessor 3. The speech signal through a power amplifier 4 is fed to a small-sized sound emitter 5.

Functionally, the microcontroller 3 performs the functions of a clock generator, an electronic switch, a digital pulse generator, a trigger, a comparator - an electronic key, matching circuits, counters, memory elements, a digital computer, etc. Information is recorded and called to ROM 2 using the following algorithm:

- an integer (units of degrees), for example, "35". 36, etc.

- tenths of a degree “and 1”, “and 2”, “and 3”, etc.

As a result, phrases are formed, for example, “35 and 1”, “36 and 6”. The number of recorded phrases is limited for a medical thermometer (within 35 ° ± 42 ° C) to 16, which greatly simplifies the recording and playback process.

The operation of the talking electronic thermometer is carried out using the “on” 13, “start” 11, and “sound” 12 buttons located on the thermometer body.

When you turn on the thermometer by applying voltage from the battery 6 using the "on" button 13, a single solid tone signal confirms the power to the device. The beginning of the measurement process is carried out at

by pressing the “start” button 11. The end of the measurement process is notified by a double monophonic sound signal, followed by a voice message about the measured temperature. The voice message is automatically played back twice. If necessary, an audio message can be recalled by pressing the “sound” button 12.

If the thermometer is not turned off after the measurement process, it is in standby mode, and the user is informed about this by a three-time sound signal.

As a thermistor, a device of the NTCBS7S86363-F type can be used. The microcontroller 3 can be made on the basis of a processor of the Р1С10Р630ГТМ type, stitched in accordance with the program of the thermometer, signal processing and information output developed by the authors. Voice information is issued from ROM type 2 AT2S256FTM by code commands from the microcontroller 3. The type of sound emitter 5 is determined by the need to ensure the required sound volume and weight and size characteristics.

This design of an electronic thermometer can be implemented for measuring the temperature of liquid and bulk products by using a thermistor with a wider range of operating temperatures, which is also very important for visually impaired and blind people.

Thus, this device is an environmentally friendly (without mercury), safe (without a glass case) electronic thermometer, providing high accuracy of temperature measurements and high stability of readings. In addition, the claimed thermometer is affordable in consumer qualities for Russian users, especially for socially vulnerable groups, in particular, the visually impaired - blind and visually impaired people.

Claims (5)

1. An electronic thermometer for blind and visually impaired users, containing a thermistor, read-only memory (ROM), a microcontroller, a power amplifier, the output of which includes a sound emitter, and a battery, while the first information input of the microcontroller is connected to the output of the ROM, the control outputs are connected respectively to the inputs of the thermistor and ROM, and the information output is connected to the input of the power amplifier, the battery is connected to the power inputs of the power amplifier, ROM and microcontroller characterized in that the reference resistor, the first and second integrating chains are introduced into it, and the ROM is made in the form of a Russian speech synthesizer, while the additional control output of the microcontroller is connected to the reference resistor, the outputs of the reference resistor and thermistor are connected to the second information circuit through the first integrating circuit the input of the microcontroller, the second information output of which through the second integrating chain is connected to an additional input of the power amplifier. 2. An electronic thermometer for blind and visually impaired users according to claim 1, characterized in that the power amplifier is made in the form of a bridge circuit, and its inverse output is connected to the second input of the sound emitter. 3. An electronic thermometer for blind and visually impaired users according to claim 1 or claim 2, characterized in that the battery is connected to the power inputs of the ROM and the microcontroller through an input voltage regulator. 4. An electronic thermometer for blind and visually impaired users according to claim 1, characterized in that it is provided with a body of dielectric material with a metal tip. 5. An electronic thermometer for blind and visually impaired users according to claim 4, characterized in that it is equipped with “start” and “sound” buttons connected to the microcontroller and an “on” button connected to the output of the battery.