CN111920445A - Split type auscultation method and device - Google Patents

Abstract

The embodiment of the invention provides a split type auscultation device, which comprises: a collection device and a diagnosis table device; the acquisition device is electrically connected with the diagnosis table device in a discontinuous way; the diagnosis table device is connected with a listening device; the acquisition device is connected with a WAN network and transmits data to a database of the HIS system. After gathering patient's auscultation data through auscultation collection system, convey the auscultation platform with the collection system components of a whole that can function independently through wireless or bluetooth, now by auscultation platform output auscultation audio frequency, let medical staff in need not contact the patient alright with very convenient acquisition auscultation data, and can select the record to derive data, and connect the backend computer and upload to local database, also can reach cloud database more simultaneously, can only rely on auscultation doctor at that time to judge when breaking traditional medical treatment, and can't preserve the drawback of data.

Description

Split type auscultation method and device

Technical Field

The invention relates to the technical field of medical equipment, in particular to a split type auscultation method and a split type auscultation device.

Background

Auscultation is the use of ears or a stethoscope to detect the sounds produced by the body. It is often used for listening heart sound and breath sound. The common stethoscope has the functions of sound collection and filtering. Through auscultation, medical staff can diagnose whether the related visceral organs have pathological changes according to the characteristics and changes of sound (such as the frequency, strength, interval time, noise and the like of the sound).

The stethoscope has been applied clinically, and appearance and sound transmission mode have been improved continuously, but its basic structure change is little, mainly comprises pickup portion (chest piece), conduction portion (rubber tube) and listening portion (ear piece).

At present, the structure of the medical stethoscope is still the traditional type which transmits sound through air in the rubber tube. In this way, only one current doctor can auscultate, and the original data cannot be recorded, so that the current doctor is inconvenient for communication and research of clinicians, and the typical data records cannot be saved.

Disclosure of Invention

In view of the above problems, embodiments of the present invention are proposed to provide a split-type auscultation method and a corresponding split-type auscultation device that overcome or at least partially solve the above problems.

In order to solve the above problems, an embodiment of the present invention discloses a split type auscultation device, including: a collection device and a diagnosis table device;

the acquisition device is electrically connected with the diagnosis table device in a discontinuous way;

the diagnosis table device is connected with a listening device;

the acquisition device is connected with a WAN network and transmits data to a database of the HIS system.

Preferably, the collecting device comprises: the acquisition device is connected with the examination table device in a Bluetooth or wireless mode in a working state;

the listening device is a receiver device or an earphone device or a sound box device.

Preferably, the collecting device comprises: the device comprises a handheld part, a sound pickup head, an encoding module, a storage interface, a power supply module and a transmission module;

the first end of the pickup head is connected with one end of the handheld part, and a high-sensitivity pickup is arranged in the pickup head;

the second end of the sound pick-up head is circular in shape;

the power supply module is connected with the coding module and the transmission module;

the coding module is connected with the sound pickup and the storage interface;

the surface of the handheld part is provided with a function key;

the encoding module, the storage interface, the transmission module and the power supply module are all arranged in the handheld part, and ports of the power supply module, the transmission module and the storage interface are arranged at the second end of the handheld part;

the transmission module is in wireless connection with the examination table device;

the storage module is a card-inserting type interface, and specifically comprises the following components: an SD card interface and/or a USB interface.

Preferably, said table means comprises: the device comprises a power supply module, a storage module, a communication module, an I/O module and a decoding module;

the power supply module provides power supply drive for other parts;

the memory module includes: a memory is arranged in the decoding module and electrically connected with the I/O module;

the communication module can be integrated in the decoding module or be electrically connected with the decoding module as an independent module and is in wireless connection with the transmission module of the acquisition device when in work;

the I/O module is connected with the decoding module, and the I/O module comprises: audio output interface, memory card interface and USB interface.

Preferably, the table apparatus further comprises: connecting to the HIS through a WAN network, and transmitting auscultation data to a database of the HIS;

the auscultation data includes auscultation audio records and log records.

The embodiment of the invention discloses a split type auscultation method, which comprises the following steps: auscultation data are collected and coded through a collecting device, and are transmitted to a diagnosis table device and an HIS system;

acquiring the auscultation data through a diagnosis table device, and recording the auscultation data;

the examination table device decodes the auscultation data and restores the auscultation data into auscultation audio;

the medical staff acquires the auscultation audio through the listening device and gives a diagnosis result.

Preferably, the collecting and encoding of the auscultation data and the transmission of the auscultation data to the table device by the collecting device comprises: the auscultation sound acquired by the sound pick-up is transmitted to the coding module;

the coding module amplifies and denoises the auscultatory sound to form audio data;

the audio data is stored in the SD card or the U disk through the storage module and is transmitted to the diagnostic table device through the transmission module.

Preferably, the acquiring the auscultation data by the table device and recording the auscultation data includes: the communication module of the diagnosis table device receives the audio data transmitted by the acquisition device and transmits the audio data to the coding module for processing;

the audio data is transmitted to the coding module for processing, and the audio data is recorded and stored in the storage module and/or transmitted to the I/O device and stored in the SD card or the U disk.

Preferably, the table means processes the auscultation data and reverts it to auscultation audio, comprising: uploading the auscultation audio to a processing device;

and the processing device acquires the auscultation audio, classifies the auscultation audio and stores the auscultation audio in a warehouse.

Preferably, the table device processes the auscultation data and restores it to auscultation audio, further comprising: the audio data collected and stored in the SD card or the U disk is imported into the auscultation table;

after the auscultation table receives the imported audio data, the audio data are decoded into auscultation audio through the decoding module and transmitted to the I/O interface.

The embodiment of the invention has the following advantages: auscultation is carried out without direct contact of doctors and patients, and cross infection of some viruses, such as new coronavirus, can be avoided to a certain extent; and the auscultation number can be prevented from being recorded and stored, and the auscultation number can be uploaded to an HIS system of a hospital, and typical data including data of difficult analysis can be provided for medical staff and experts to research, discuss or be used as a case for teaching of a medical college.

Drawings

FIG. 1 is a flow chart of the steps of a split-type auscultation method embodiment of the present invention;

FIG. 2 is a schematic view of a collection device of an embodiment of a split-type auscultation device of the present invention;

fig. 3 is a block diagram of a split-type auscultation device according to an embodiment of the present invention.

The system comprises an acquisition device 1, a diagnosis table device 2, a sound pickup head 11, a handheld part 12, a key 13, a 121SD (secure digital) card port, a 122 charging port/data port, a 123USB interface, a 124 battery, a 125 coding module, a 126 transmission module, a 127 power module, a 128 storage interface, a 21 coding module, a 22 communication module, a 23I/O module and a 24 power module.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

One of the core ideas of the embodiment of the invention is that after auscultation data of a patient is acquired by an auscultation acquisition device, the auscultation data is transmitted to an auscultation table which is separated from the acquisition device through wireless or Bluetooth, and auscultation audio is output by the auscultation table, when the wireless or Bluetooth is inconvenient to use, the encoded auscultation data can be exported by the acquisition device through an SD card or a USB flash disk mobile storage device and then imported into the auscultation table for auscultation, so that medical staff can conveniently obtain the auscultation data without contacting the patient, and can flexibly auscultate in various ways; the data can be selectively recorded and exported, and the data can be uploaded to a local database by connecting a back-end computer, and can also be uploaded to a cloud database, particularly typical auscultation data and difficult auscultation data; the data can be exported as required, which is a research and discussion of medical workers, and overcomes the defects that the traditional medical treatment can only be judged by the auscultator at that time and the data cannot be stored.

Referring to fig. 1, a flowchart illustrating steps of a split-type auscultation method embodiment of the present invention is shown, which may specifically include the following steps:

s100, auscultation data are collected and coded through a collecting device, and are transmitted to a diagnosis table device and an HIS system;

s200, acquiring the auscultation data through a diagnosis table device, and recording the auscultation data;

s300, the stethoscope table device decodes the auscultation data and restores the auscultation data into auscultation audio;

s400, medical staff acquire the auscultation audio through a listening device and give a diagnosis result.

The auscultation data are collected and recorded locally through the collecting device, and the auscultation data are transmitted to the diagnosis table device, and the auscultation data acquisition device comprises: the auscultation sound acquired by the sound pick-up is transmitted to the coding module; the coding module amplifies and denoises the auscultatory sound to form audio data; the audio data is stored in the SD card or the U disk through the storage module and is transmitted to the diagnostic table device through the transmission module; the transmission module can be connected with a Bluetooth earphone through a Bluetooth module, a simple electronic stethoscope is formed to carry out non-contact auscultation, and besides the most basic auscultation function, the transmission module can also store processed auscultation data audio directly through an SD card in the acquisition device.

The communication module of the diagnosis table device receives the audio data transmitted by the acquisition device and transmits the audio data to the coding module for processing; the audio data is transmitted to the coding module for processing, and the audio data is recorded and stored in the storage module and/or transmitted to the I/O device and stored in the SD card or the U disk; uploading the auscultation audio to a processing device; the processing device acquires auscultation audio, classifies the auscultation audio and stores the auscultation audio in a warehouse, and specifically comprises the following steps: medical staff can directly come the auscultation through the output audio frequency of consulting the platform, specifically can be connected to the auscultation audio output interface of consulting the platform or be connected to through wired audio output device through the merit bluetooth, carries out non-contact auscultation, can also record the audio frequency, passes to HIS hospital information system on the parallel network.

It should be noted that, for simplicity of description, the method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present invention is not limited by the illustrated order of acts, as some steps may occur in other orders or concurrently in accordance with the embodiments of the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

Referring to fig. 2-3, in combination with an embodiment of the split-type auscultation device of the present invention, the split-type auscultation device may specifically include the following modules: the acquisition device 1 and the examination table device 2; collection system 1 and 2 discontinuous electric connection of diagnosis platform device specifically are: the acquisition device 1 can be connected with the examination table device 2 in a Bluetooth or wireless mode in a working state; the diagnosis table device 2 is connected with a listening device which can be a wired earphone or a Bluetooth earphone or a sound box device capable of normally outputting auscultation audio; the diagnostic table device is connected with an HIS system through a WAN (wide area network) to transmit auscultation data to a hospital, wherein the auscultation data comprise auscultation audio records, auscultation log records and other auscultation information, and can be used for medical record and later inquiry and comparison analysis.

The collecting device 1 comprises: a handheld portion 12, a pickup head 11, an encoding module 125, a storage interface 128, a transmission module 126, and a power supply module 127; the first end of the pickup head 11 is connected with one end of the handheld part 12, and a high-sensitivity pickup 111 is arranged in the pickup head; the second end of the sound pick-up head 11 is circular in shape and is used for being attached to a part of the body of a patient needing auscultation to acquire auscultated audio data; the power module 127 is connected with the encoding module 125 and the transmission module 126, and the power module 126 further includes a detachable rechargeable battery 124 for providing power supply drive for other components; the coding module 125 is connected to the sound pickup 111 and the storage interface 128, after the sound pickup 111 acquires auscultation audio data of a patient, the coding module 125 performs audio conversion, amplification and noise elimination, the coding module 125 transmits the processed audio data to the storage interface 128 and the transmission module 126 respectively, the transmission module 126 transmits the received audio data to the table apparatus 2, and the storage interface 128 stores the acquired audio data in a storage device in a certain format, specifically: the stored audio format may be preset as: lossless formats, such as WAV, FLAC, APE, ALAC, WavPack (WV), cda lossy formats, such as MP3, AAC, Ogg Vorbis, Opus; the storage device may be a pluggable SD card or a usb disk or a removable hard disk.

The surface of the hand-held part 12 is provided with a function key 13; the coding module 125, the storage interface 128, the transmission module 126 and the power supply module 127 are all arranged inside the handheld part 2, and the ports of the power supply module 127, the transmission module 126 and the storage interface 128 are arranged at the second end of the handheld part 12; the transmission module 126 is wirelessly connected with the table device 2; the transmission module 126 transmits audio data to the table apparatus 2, and medical staff can listen to diagnostic audio through the output of the table apparatus 2.

In another embodiment, the table device 2 comprises: a power module 24, a storage module, a communication module 22, an I/O module 23, and a decoding module 21; the storage module 25 includes: the built-in memory is electrically connected with the decoding module 21 and the I/O module 23, the built-in memory can be a mechanical hard disk or a solid state disk or an SD card, and the built-in memory can be selected to be temporarily stored when receiving audio; the communication module 22 may be integrated in the decoding module 21 or be electrically connected to the decoding module 21 as a separate module, and is operatively connected to the transmission module 126 of the collecting device 1 by wireless connection; the I/O module 23 is connected with the decoding module 21, and the I/O module 23 includes: the audio output interface, the memory card interface and the USB interface, after receiving auscultation audio data, the auscultation audio data is output through the I/O module 23, and specifically, the auscultation audio data comprises a device connected with the audio 3.5mm audio interface or/and an SD card or/and a USB storage device connected with the memory card interface.

In another embodiment, the battery 124 of the acquisition apparatus 1 is a foldable rechargeable battery, which can be folded down to be charged alone or directly through the charging port/data port 122 of the acquisition apparatus 1, wherein the charging port/data port 122 can also be used for connecting a USB device for unloading; the SD card port 121 can be used to insert an SD card to export audio data, and the USB port 123 stores or exports diagnostic audio data of the built-in memory.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the embodiments of the invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The above detailed description is made on a split-type auscultation method and a split-type auscultation device provided by the present invention, and the principle and the implementation of the present invention are explained in the present document by applying specific examples, and the description of the above examples is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. A split-type auscultation device, comprising: a collection device and a diagnosis table device;

the acquisition device is electrically connected with the diagnosis table device in a discontinuous way;

the diagnosis table device is connected with a listening device;

the acquisition device is connected with a WAN network and transmits data to a database of the HIS system.

2. The apparatus of claim 1, wherein the collection device comprises: the acquisition device is connected with the examination table device in a Bluetooth or wireless mode in a working state;

the listening device is a receiver device or an earphone device or a sound box device.

3. The apparatus of claim 1, wherein the collection device comprises: the device comprises a handheld part, a sound pickup head, an encoding module, a storage interface, a power supply module and a transmission module;

the first end of the pickup head is connected with one end of the handheld part, and a high-sensitivity pickup is arranged in the pickup head;

the second end of the sound pick-up head is circular in shape;

the power supply module is connected with the coding module and the transmission module;

the coding module is connected with the sound pickup and the storage interface;

the surface of the handheld part is provided with a function key;

the encoding module, the storage interface, the transmission module and the power supply module are all arranged in the handheld part, and ports of the power supply module, the transmission module and the storage interface are arranged at the second end of the handheld part;

the transmission module is in wireless connection with the examination table device;

the storage module is a card-inserting type interface, and specifically comprises the following components: an SD card interface and/or a USB interface.

4. The apparatus of claim 3, wherein said table means comprises: the device comprises a power supply module, a storage module, a communication module, an I/O module and a decoding module;

the power supply module provides power supply drive for other parts;

the memory module includes: a memory is arranged in the decoding module and electrically connected with the I/O module;

the communication module can be integrated in the decoding module or be electrically connected with the decoding module as an independent module and is in wireless connection with the transmission module of the acquisition device when in work;

the I/O module is connected with the decoding module, and the I/O module comprises: audio output interface, memory card interface and USB interface.

5. The apparatus of claim 4, wherein said table apparatus further comprises: connecting to the HIS through a WAN network, and transmitting auscultation data to a database of the HIS;

the auscultation data includes auscultation audio records and log records.

6. A split auscultation method, comprising:

auscultation data are collected and coded through a collecting device, and are transmitted to a diagnosis table device and an HIS system;

acquiring the auscultation data through a diagnosis table device, and recording the auscultation data;

the examination table device decodes the auscultation data and restores the auscultation data into auscultation audio;

the medical staff acquires the auscultation audio through the listening device and gives a diagnosis result.

7. The method of claim 6, wherein said collecting and encoding auscultation data and transmitting said auscultation data to a table device by a collecting device comprises: the auscultation sound acquired by the sound pick-up is transmitted to the coding module;

the coding module amplifies and denoises the auscultatory sound to form audio data;

the audio data is stored in the SD card or the U disk through the storage module and is transmitted to the diagnostic table device through the transmission module.

8. The method of claim 7, wherein said acquiring the auscultation data by a table device and recording the auscultation data comprises: the communication module of the diagnosis table device receives the audio data transmitted by the acquisition device and transmits the audio data to the coding module for processing;

the audio data is transmitted to the coding module for processing, and the audio data is recorded and stored in the storage module and/or transmitted to the I/O device and stored in the SD card or the U disk.

9. The method of claim 8, wherein the table device processes and reduces the auscultation data to auscultation audio, comprising: uploading the auscultation audio to a processing device;

and the processing device acquires the auscultation audio, classifies the auscultation audio and stores the auscultation audio in a warehouse.

10. The method of claim 9, wherein the table device processes the auscultation data and reverts it to auscultation audio, further comprising: the audio data collected and stored in the SD card or the U disk is imported into the auscultation table;

after the auscultation table receives the imported audio data, the audio data are decoded into auscultation audio through the decoding module and transmitted to the I/O interface.

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