KR20040053656A - Electronics stethoscope - Google Patents

Abstract

PURPOSE: An electronic stethoscope is provided to easily and accurately process audio signals applied from an external source in accordance with a selective operation mode. CONSTITUTION: An electronic stethoscope comprises a receiver(20) for receiving an audio signal generated from a part of a human body; a filter unit(21) electrically connected to the receiver so as to receive and filter the audio signal received by the receiver, and which outputs target signals related to the audio signal, wherein the target signals have respective frequencies in specific frequency bands; an analog-to-digital converter(22) electrically connected to the filter unit, and which converts the target signals into digital signals; an operating unit(23) which operates to generate an input mode signal in accordance with a selective operation mode for selecting one from among the digital signals; a processor(24) electrically connected to the analog-to-digital converter and the operating unit, and which receives the digital signals and the input mode signal from the analog-to/digital converter and the operating unit, wherein the processor processes one of the digital signals selected in accordance with the input mode signal; and an audio playback unit(25) electrically connected to the processor, and which receives and reproduces outputs of the processor.

Description

Electronic Stethoscope {ELECTRONICS STETHOSCOPE}

The present invention relates to a stethoscope, and more particularly, to an electronic stethoscope (Electronic Stethoscope).

1 illustrates a conventional stethoscope 1 comprising a Y-shaped tube 11, a sound receiver 12, and two earpieces 13. The flexible Y-shaped tube 11 is connected to the part facing the ear through a main tube part 111 connected to the sound receiver 12 and two ear tubes 14. It has two branch tube parts 112. The sound receiver 12 is electrically connected to the ear-facing portion 13 via a wire through the Y-shaped tube 11 and the tube 14. The sound receiver 12 picks up sound generated by parts of the human body, such as the heart, the lungs and the intestine, and attaches an audio signal according to the sound to the ear 13 Will be generated). The ear 13 receives an audio signal and generates an audio output corresponding to the audio signal.

When a doctor uses a conventional stethoscope 1 to listen to the activity sound of a part of the patient's human body, noise in that environment is inevitable. In addition, if the patient improperly speaks or breaths during the diagnosis with the conventional stethoscope 1, the noise-containing audio output from this environment may cause an incorrect diagnosis.

In addition, since the sound receiver 12 of the conventional stethoscope 1 often picks up a sound having a frequency within a specific frequency band, an additional sound receiver capable of receiving a sound having a frequency within various frequency bands is required. This results in relatively high cost and inconvenient use.

It is therefore an object of the present invention to provide an electronic stethoscope which can easily and accurately process an external audio signal in accordance with a selected mode of operation at a relatively low cost.

1 is a perspective view of a stethoscope according to the prior art.

2 is a block diagram schematically illustrating a preferred embodiment of the electronic stethoscope according to the present invention.

3 is a perspective view of an electronic stethoscope according to a preferred embodiment of the present invention.

Electronic stethoscope according to the present invention,

A receiver for receiving an external audio signal originating from a portion of the human body;

Electrically connected with the receiver to receive and filter the audio signal received by the receiver, outputting a group of target signals associated with the audio signal, wherein the target signals have respective frequencies within a particular frequency band; Filter unit;

An analog / digital converter electrically connected to the filter unit to convert the group of target signals into a group of digital signals;

An operation unit operative to generate an input mode signal in accordance with a selection mode of operation of selecting one of the digital signals;

A processor electrically coupled to the analog-to-digital converter and the operating unit to receive the group of digital signals and the input mode signal from the processor, wherein the processor is configured to receive one of the digital signals selected according to the input mode signal. Process and output; And

An audio reproduction unit electrically connected to the processor for receiving and reproducing the output of the processor 24

It is configured to include.

Other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings.

2 and 3, a preferred embodiment of the electronic stethoscope 2 according to the present invention is a receiver 20, a filter unit 21, an analog / digital converter 23, an operation unit 23, a processor ( 24, and an audio reproduction unit 25.

The receiver 20 receives an external audio signal generated from a part of the human body such as the heart, lungs, or intestines. In this embodiment, the receiver 20 is a known electric condenser microphone provided with a disc pick-up head 201 for sound collection, as shown in FIG. In general, the sound produced by the physiological activity of the heart has a frequency in the frequency band of about 20 to 230 Hz, the sound produced by the physiological activity of the lung has a frequency in the frequency band of about 100 to 800 Hz, and the intestines The sound generated by the physiological activity of has a frequency in the frequency band of about 20 to 500 kHz. As described above, the audio signal generated by the receiver 20 has a frequency in the frequency band of 20 to 800 kHz.

The filter unit 21 is electrically connected with the receiver 20 to receive and filter the audio signal received by the receiver 20, so as to receive a group of target signals associated with the audio signal. Output The target signals have respective frequencies within a specific frequency band. In this embodiment, the filter unit 21 includes a group of bandpass filters 211, 212, 213, each of the group of bandpass filters 211, 212, 213 each having a lowpass filter and a highpass. Pass filter (not shown). The bandpass filter 211 is suitable for filtering an audio signal generated from the human heart and has a frequency band of 20 to 230 kHz. That is, the lowpass filter of the bandpass filter 211 has a cutoff frequency of 230 Hz to filter out noise having a frequency higher than 230 Hz, and the highpass filter of the bandpass filter 211 is lower than 20 Hz. By having a cutoff frequency of 20 Hz to filter out noise with frequency, aliasing errors can be accurately prevented. Similarly, the bandpass filter 212 is suitable for filtering audio signals generated from the lungs of the human body and has a frequency of 100 to 800 kHz. The bandpass filter 213 is suitable for filtering an audio signal generated from the intestine of the human body and has a frequency of 20 to 500 kHz.

A preferred embodiment of the electronic stethoscope 2 according to the invention is such that the receiver 20 and the filter unit can be avoided to avoid the occurrence of a quantization error due to a weak audio signal such as an audio signal generated in the lungs of the human body. And a pre-amplifier 26 electrically connected to 21.

The analog-to-digital converter 22 is electrically connected to the filter unit 21 to convert the group of target signals into a group of digital signals. In addition, the electronic stethoscope 2 further includes a main amplifier 27 electrically connected to the filter unit 21 and the analog-to-digital converter 23, and the main amplifier 27 Target signals from the filter unit 21 are amplified to clearly distinguish the target signals from noise.

In this embodiment, the operating unit 23 is mounted to the housing 30 and includes a mode switching key 231, a volume control key 232, and a transmission selection key 233. The mode switch key 231 is configured to select one of the digital signals, the first operating mode for diagnosing the heart, the second operating mode for diagnosing the lungs, and the third operating mode for diagnosing the intestines. It generates an input mode signal according to any one of the selected operating modes.

The processor 24 is electrically connected to the analog-to-digital converter 22 and the operation unit 23 to receive the group of digital signals and the input mode signal from them. The processor 24 processes and outputs one of the digital signals selected according to the input mode signal. That is, when the operation unit 23 generates an input mode signal corresponding to the first operation mode, the processor 24 is one of the digital signals corresponding to the target signal from the bandpass filter 211. Process and output When the operating unit 23 generates an input mode signal corresponding to the second operating mode, the processor 24 processes one of the digital signals corresponding to the target signal from the bandpass filter 212. To print. When the operation unit 23 generates an input mode signal corresponding to the third operation mode, the processor 24 processes one of the digital signals corresponding to the target signal from the bandpass filter 213. To print.

The audio playback unit 25 is electrically connected to the processor 24 to receive and reproduce the output of the processor 24. In this embodiment, as shown in FIG. 3, the audio reproduction unit 25 includes a portion 251 facing two ears. The volume control key 232 generates a control signal, allowing the processor 24 to control the volume of the output reproduced in the audio reproduction unit 25.

In addition, a display device 28 such as a liquid crystal display is mounted to the housing 30 and electrically connected to the processor 24 to display information in the selected operation mode. For example, when the electronic stethoscope 2 is operated in the first mode of operation, a letter such as "heart" is displayed on the display device 28; When the electronic stethoscope 2 is operated in the second mode of operation, a letter such as "lung" is displayed on the display device 28; Or when the electronic stethoscope 2 is operated in the third mode of operation, a letter such as "intestines" is displayed on the display device 28. Thus, the information shown on the display device 28 indicates the selective operation mode to facilitate the use of the electronic stethoscope.

In addition, for accurate diagnosis, external electronics can be used to analyze the output of the processor 24. Accordingly, the electronic stethoscope 2 further includes a data transmission module 29 electrically connected to the processor 24 and to an external electronic device 4. The data transmission module 29 transmits the output of the processor 24 to the electronic device 4 for analysis. In this embodiment, the data transfer module 29 includes a Universal Asynchronous Receiver Transmitter (“UART”) 291, which is electrically connected to the processor 24, and is further coupled to the UART 291. And an interface 292 such as RS 232, universal serial bus, IEEE1394, infrared, Bluetooth, and the like, electrically connected and electrically connected to the electronic device 4. The UART 291 converts the output of the processor 24 into data having a format suitable for transmission through the interface 292. The transmission selection key 233 of the operation unit 23 generates a control signal to the processor 24, allowing the processor 24 to transmit its output to the electronic device 4. As shown in FIG. 3, the electronic device 4 is a personal computer including a main module 41, a display 42, and an input device having a keyboard 43 and a mouse 44.

As a result, in this embodiment, when the electronic stethoscope 2 of the present invention is operated to diagnose a part of the human body, the receiver 20 receives an external audio signal generated from the part of the human body. The audio signal is amplified by the preamplifier 26 and then filtered by the filter unit 21 to output three target signals. Subsequently, the target signal is amplified by the main amplifier 27 and converted into three digital signals by the analog-to-digital converter 23. The processor 24 further processes the digital signals, for example, filtering noise from the digital signals, and corresponding to the operating unit corresponding to a mode selected from among the first, second and second operating modes. Outputs one of the digital signals to the audio reproduction unit 25 in accordance with the input mode signal from 23 so that the user wearing the portion 251 where the active sound of the portion of the human body rests on the ear can be heard. Do it. When the electronic stethoscope 2 is switched to another mode among the first, second, and third operation modes by the operation of the mode switching key 231, the processor 24 corresponds to the selection operation mode. It allows the display device 28 to display information, and also enables the audio reproduction unit 25 to reproduce the output of the processor 24. Compared with the conventional stethoscope 1 of FIG. 1 described above, due to the presence of the filter unit 21 and the operating unit 23, the electronic stethoscope 2 of the present invention is relatively inexpensively diagnosed in different parts of the human body. This becomes possible.

It is obvious that the filter unit 21 is not limited to including only three bandpass filters 211, 212, 213. For example, an additional bandpass filter having a specific frequency band for a particular part of the human body, such as a joint, may be included in the filter unit of the electronic stethoscope of the present invention.

Although the invention has been described in terms of what may be considered the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments but is included within the spirit and scope broadly interpreted to encompass all modifications and equivalent structures. It should be understood to cover various configurations.

The electronic stethoscope according to the present invention can handle the external audio signal easily and accurately according to the selected operating mode relatively inexpensively.

Claims (10)

A receiver 20 for receiving an external audio signal from a part of the human body; A group of target signals associated with the audio signal to receive and filter the audio signal received by the receiver 20, wherein the target signals are specific frequency bands. A filter unit 21 for outputting each frequency within the filter unit 21; An analog-to-digital converter (22) electrically connected to the filter unit (21) to convert the group of target signals into a group of digital signals; An operating unit (23) operative to generate an input mode signal in accordance with a selection mode of operation of selecting one of said digital signals; A processor (24) electrically connected to the analog-to-digital converter (22) and the operating unit (23) to receive the group of digital signals and the input mode signal therefrom, wherein the processor (24) Process and output one of the digital signals selected according to an input mode signal; And An audio playback unit 25 electrically connected to the processor 24 for receiving and reproducing the output of the processor 24 Electronic stethoscope configured including. The method of claim 1, The filter unit 21 includes a group of bandpass filters 211, 212, 213, and each of the group of bandpass filters 211, 212, 213 includes a lowpass filter and a highpass filter. Electronic stethoscope, characterized in that. The method of claim 1, And said filter unit (21) comprises a bandpass filter (211) having a frequency band of 20 to 230 kHz. The method of claim 1, And said filter unit (21) comprises a bandpass filter (212) having a frequency band of 100 to 800 kHz. The method of claim 1, And said filter unit (21) comprises a bandpass filter (213) having a frequency band of 20 to 500 kHz. The method of claim 1, An electronic stethoscope further comprising a pre-amplifier (26) electrically connected to the receiver (20) and the filter unit (21). The method of claim 1, And a main amplifier (27) electrically connected to said filter unit (21) and said analog-to-digital converter (23). The method of claim 1, And a display device (28) electrically connected to the processor (24) for displaying information in the selected mode of operation. The method of claim 1, The receiver 20 is an electronic stethoscope, characterized in that the electrical condenser microphone (electrical condenser micro-phone). The method of claim 1, A data transmission module 29 electrically connected to the processor 24 and to an external electronic device 4, wherein the data transmission module 29 is connected to the electronic device 4 for analysis. And transmit the output of the processor (24).