CN111667895A - Electronic auscultation system convenient for connecting hospital HIS system and data transmission method - Google Patents

Abstract

The invention discloses an electronic auscultation system convenient for connecting a hospital HIS system and a data transmission method. The system comprises: the electronic stethoscope is used for performing classified storage on auscultation data according to the ID code of the patient to form file archive data; and the electronic stethoscope information management module is used for reading file archive data stored in the electronic stethoscope when the electronic stethoscope is placed, connecting the file archive data with the hospital HIS through a network, and associating the file archive data with the ID information of each patient in the hospital HIS. The invention can associate the sound file stored in the electronic stethoscope with the HIS system of the hospital, and correspond the sound file to the ID of the patient for database type management, thereby facilitating the comparison of doctors according to the time line and adjusting the treatment scheme.

Description

Electronic auscultation system convenient for connecting hospital HIS system and data transmission method

Technical Field

The invention relates to the technical field of electronic auscultation, in particular to an electronic auscultation system convenient for connecting a hospital HIS system and a data transmission method.

Background

Stethoscopes are one of the most common medical instruments, and are used to assist doctors in listening to sounds emitted from organs of a patient's body as a basis for initial diagnosis. The stethoscopes currently used by doctors are mostly passive stethoscopes, and the stethoscopes do not have the functions of information processing and storage.

The electronic stethoscope has a sound storage function, but most of electronic stethoscopes are stored in the stethoscope and are exported to a PC for processing through special software provided by a stethoscope manufacturer. Because the HIS system is not connected, files inside the stethoscope are difficult to be associated with information of patients, and filing management of historical data is difficult to be carried out. Particularly in the department of living, there is a strong demand for doctors to systematically manage the sound files of patients, which files can be conveniently compared by the doctors according to the time line, thereby adjusting the treatment scheme.

Disclosure of Invention

The invention aims to provide an electronic auscultation system convenient for connecting a hospital HIS system and a data transmission method, so as to overcome the problems in the prior art.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an electronic auscultation system for facilitating connection to a hospital HIS system, comprising:

the electronic stethoscope is used for performing classified storage on auscultation data according to the ID code of a patient to form file archive data, when the storage capacity of the unsynchronized data is close to the storage limit value of the electronic stethoscope, the electronic stethoscope reminds a doctor to synchronize the data as soon as possible by providing warning information, and when the storage capacity of the electronic stethoscope is full, the new archive data follows the principle of covering the oldest data;

and the electronic stethoscope information management module is used for reading file archive data stored in the electronic stethoscope when the electronic stethoscope is placed, connecting the file archive data with the hospital HIS through a network, and associating the file archive data with the ID information of each patient in the hospital HIS.

Furthermore, the electronic stethoscope comprises an electronic stethoscope body, a bar code scanner and a real-time clock module, wherein the bar code scanner is arranged on the electronic stethoscope body and used for scanning the ID label of the patient, and the real-time clock module is used for recording the time of the current data file.

Further, the electronic stethoscope information management module includes:

the charging management unit is used for monitoring the electric quantity of the electronic stethoscope in real time when the electronic stethoscope is placed and starting a charging function when the electric quantity of the electronic stethoscope is lower than a set electric quantity;

the data interaction unit is used for acquiring equipment information of the electronic stethoscope and whether unsynchronized new data exist or not in a handshaking mode and recording the equipment information and the new data, calling the data stored in the electronic stethoscope for synchronization if the unsynchronized new data are found to be stored in the electronic stethoscope after the electronic stethoscope is successfully held, and adding a mark bit to the data which is synchronized currently by the electronic stethoscope after the data synchronization is finished;

the data storage unit is used for archiving the data synchronized by the data interaction unit from the electronic stethoscope;

the control unit is used for connecting the hospital HIS system through the network communication unit and associating the data stored in the data storage unit with the ID information of each patient in the HIS system according to the patient ID code;

and the human-computer interaction unit is used for previewing the patient file archive data stored in the data storage unit or analyzing the stored file archive data.

Furthermore, the data stored in the electronic stethoscope is provided with a check code, and the process of data check through the check code is also included when the electronic stethoscope exchanges data with the data interaction unit.

Furthermore, the electronic stethoscope information management module is arranged in a shell, a clamping groove structure matched with the electronic stethoscope is arranged on the shell,

when the electronic stethoscope is placed in the card slot structure, the charging management unit monitors the electric quantity of the electronic stethoscope in real time and starts a charging function when the electric quantity of the electronic stethoscope is lower than a set electric quantity;

when the electronic stethoscope is placed in the card slot structure, the data interaction unit firstly acquires the device information of the electronic stethoscope and whether unsynchronized new data exist or not in a handshaking mode and records the new data, if the unsynchronized new data are found to be stored in the electronic stethoscope after the electronic stethoscope is successfully handshaking, the data stored in the electronic stethoscope is called to be synchronized, and the electronic stethoscope adds a flag bit to the data which is synchronized.

Furthermore, the interfaces of the charging management unit and the network communication unit are arranged in the card slot structure.

Furthermore, the data interaction unit communicates with the electronic stethoscope in an infrared IrDA mode.

The invention also provides a data transmission method of the electronic auscultation system convenient for connecting the HIS system of the hospital, which comprises the following steps:

s1, acquiring auscultation data of the electronic stethoscope, and classifying and storing the auscultation data according to the ID code of the patient to form file archive data;

and S2, reading the file archive data stored in the electronic stethoscope, connecting the file archive data with the hospital HIS through a network, and associating the file archive data with the ID information of each patient in the hospital HIS.

Further, the step S2 specifically includes:

s21, the data interaction unit acquires the device information of the electronic stethoscope and whether new data which is not synchronized exists or not in a handshaking mode and records the new data;

s22, after the handshake is successful, if the electronic stethoscope is found to store unsynchronized new data, the data interaction unit calls the data stored in the electronic stethoscope to synchronize;

s23, after the data synchronization is completed, the electronic stethoscope increases the flag bit of the data synchronized at the time;

s24, the data storage unit archives the data synchronized by the data interaction unit from the electronic stethoscope;

and S25, associating the data stored in the data storage unit with the ID information of each patient in the HIS system through the network according to the patient ID code.

Further, when the electronic stethoscope exchanges data with the data interaction unit, the electronic stethoscope further comprises a process of data verification through the verification code.

Compared with the prior art, the invention has the advantages that: the electronic auscultation system convenient for connecting the hospital HIS system and the data transmission method provided by the invention can associate the sound files stored in the electronic stethoscope with the hospital HIS system, correspond the sound files to the ID of the patient, perform database type management, and facilitate comparison of doctors according to a time line so as to adjust a treatment scheme.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of an electronic auscultation system of the present application that facilitates connection to a hospital HIS system.

Fig. 2 is a frame diagram of the electronic stethoscope in the present application.

Fig. 3 is a block diagram of an electronic stethoscope information management module according to the present application.

Fig. 4 is a flow chart of the data transmission method of the present application.

Fig. 5 is a detailed flowchart of step S2 in fig. 4 of the present application.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1, the present invention provides an electronic auscultation system convenient for connecting a hospital HIS system, comprising: an electronic stethoscope (10) for performing classified storage of auscultation data according to the ID code of a patient to form file archive data, wherein when the storage capacity of the unsynchronized data approaches the storage limit of the electronic stethoscope itself, the electronic stethoscope reminds a doctor to synchronize the data as soon as possible by providing warning information, and when the storage capacity of the electronic stethoscope is full, new archive data (sound data in the embodiment) follows the principle of covering the oldest data; the electronic stethoscope information management module 20 is configured to read the file archive data stored inside the electronic stethoscope 10 when the electronic stethoscope 10 is placed, connect the file archive data to the hospital HIS system 30 through a network, and associate the file archive data with the ID information of each patient in the hospital HIS system 30.

Through the arrangement, the sound files stored in the electronic stethoscope 10 can be associated with the HIS system 30 of the hospital, the sound files correspond to the IDs of patients, database type management is carried out, and doctors can conveniently compare the sound files according to the time lines so as to adjust the treatment scheme.

Referring to fig. 2, the electronic stethoscope 10 described in the present application includes an electronic stethoscope body, a barcode scanner 110 disposed on the electronic stethoscope body for scanning a patient ID tag, and a real-time clock module 120 for recording the time of a current data file.

In general, the barcode scanner 110 may be a barcode or two-dimensional scanner, and is used for scanning an ID tag of a patient and recording an ID code of the currently auscultated patient, so that the electronic stethoscope 10 can store classified data according to the ID code.

The real-time clock module 120, which is an RTC configured inside the electronic stethoscope 10, can record the time of the current data file.

In this application, electronic stethoscope information management module 20 is used for installing in a shell, the shell on be provided with be used for with electronic stethoscope 10 assorted draw-in groove structure, draw-in groove structure mainly used places electronic stethoscope 10.

When a doctor needs to perform data analysis, or the electronic stethoscope 10 needs to be charged, or the electronic stethoscope is idle, the doctor places the electronic stethoscope 10 in the card slot structure of the electronic stethoscope information management module 20.

Referring to fig. 3, the electronic stethoscope information management module 20 of the present application includes a charging management unit 210, a data interaction unit 220, a data storage unit 230, a network communication unit 250, and a human-computer interaction module 250.

The charging management unit 210 is configured to monitor the power of the electronic stethoscope 10 in real time when the electronic stethoscope 10 is placed (i.e., when the electronic stethoscope 10 is placed in the card slot structure) and start the charging function when the power of the electronic stethoscope 10 is lower than a predetermined power (e.g., if the power of the battery is higher than 60%, the charging management unit 210 does not enable the charging function and only enables data interaction, and if the power is lower than 60%, the charging function is used to charge the electronic stethoscope 10 to a full power state).

The data interaction unit 220 is configured to, when the electronic stethoscope 10 is placed (that is, when the electronic stethoscope 10 is placed in the card slot structure), first obtain device information of the electronic stethoscope 10 and whether new unsynchronized data exists in the electronic stethoscope 10 and record the device information in a handshaking manner, and, if it is found that the new unsynchronized data is stored in the electronic stethoscope 10 after the electronic stethoscope is successfully handshaking, retrieve the data stored in the electronic stethoscope 10 for synchronization, add a flag to the data that is currently synchronized after the data is synchronized, mark that the data is synchronized, and when the electronic stethoscope is placed in the card slot again next time, no synchronization is performed on the data.

A data storage unit 230 for archiving the data synchronized by the data interaction unit 220 from the electronic stethoscope 10.

And a control unit 240 for connecting the hospital HIS system 30 through the network communication unit 250 and associating the data stored in the data storage unit 230 with ID information of each patient in the HIS system 30 according to the patient ID code.

The human-computer interaction module 260 is used for previewing the patient file archive data stored in the data storage unit 230 or analyzing the stored file archive data (calculating the sound period, analyzing the frequency components, analyzing the power spectrum, comparing historical trends and other information), the human-computer interaction module 260 comprises a touch screen display and a loudspeaker, an operation interface is provided for a doctor, and the doctor can preview the stored patient archive, review the recorded data of the patient and play the data.

The interfaces of the charging management unit 210 and the network communication unit 250 described in this application are all disposed in the card slot structure, so that the card slot has the functions of charging and data interaction.

The software system of the electronic stethoscope information management module 20 is installed on the PC of the doctor in the application, and the software can manage and analyze the associated patient sound files so as to meet the clinical requirements of the doctor.

The data stored inside the electronic stethoscope 10 in the present application sets up a check code, and the data exchange between the electronic stethoscope 10 and the data interaction unit 220 further includes a process of data check by the check code, so as to compare the finally transmitted data, and determine whether the data is correct. Preferably, the embodiment uses a check code of CRC16, and the check process uses a CRC16 check algorithm.

The data interaction unit 220 described in this application communicates with the electronic stethoscope 10 in the form of infrared IrDA.

The control unit 230 described in this application may be implemented by an embedded CPU, which is connected to the hospital network through the network communication unit 250, communicates with the HIS system 30, and associates the stored data with the ID information of the patient in the HIS system 30 according to the code value of the ID, where the patient ID code includes basic information including name, age, gender, and the like.

Referring to fig. 4, the present invention also provides a data transmission method for an electronic auscultation system conveniently connected to a hospital HIS system, the method comprising:

step S1, auscultation data of the electronic stethoscope is obtained and is classified and stored according to the ID code of the patient to form file archive data;

and step S2, reading the file archive data stored in the electronic stethoscope, connecting the file archive data with the hospital HIS through a network, and associating the file archive data with the ID information of each patient in the hospital HIS.

Referring to fig. 5, step S2 described in the present application specifically includes:

step S21, the data interaction unit 220 first obtains the device information of the electronic stethoscope 10 and whether there is any new unsynchronized data and records the new data in a handshaking manner;

step S22, if it is found that the electronic stethoscope 10 stores unsynchronized new data after the handshake is successful, the data interaction unit 220 retrieves the data stored inside the electronic stethoscope 10 for synchronization, and when the electronic stethoscope 10 exchanges data with the data interaction unit 220, the data interaction unit further performs a data verification process through the verification code.

Step S23, after the data synchronization is completed, the electronic stethoscope 10 adds a flag bit to the currently synchronized data;

step S24, the data storage unit 230 archives the data synchronized by the data interaction unit 220 from the electronic stethoscope 10;

step S25, the data stored in the data storage unit 230 is associated with the ID information of each patient in the HIS system 30 via the network according to the patient ID code.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, various changes or modifications may be made by the patentees within the scope of the appended claims, and within the scope of the invention, as long as they do not exceed the scope of the invention described in the claims.

Claims (10)

1. An electronic auscultation system convenient for connecting with a hospital HIS system, comprising:

the electronic stethoscope is used for performing classified storage on auscultation data according to the ID code of a patient to form file archive data, when the storage capacity of the unsynchronized data is close to the storage limit value of the electronic stethoscope, the electronic stethoscope reminds a doctor to synchronize the data as soon as possible by providing warning information, and when the storage capacity of the electronic stethoscope is full, the new archive data follows the principle of covering the oldest data;

and the electronic stethoscope information management module is used for reading file archive data stored in the electronic stethoscope when the electronic stethoscope is placed, connecting the file archive data with the hospital HIS through a network, and associating the file archive data with the ID information of each patient in the hospital HIS.

2. The electronic auscultation system convenient for connecting with hospital HIS system of claim 1, wherein the electronic stethoscope comprises an electronic stethoscope body, a barcode scanner configured on the electronic stethoscope body for scanning a patient ID tag and a real-time clock module for recording the time of the current data file.

3. The electronic auscultation system for facilitating connection of a hospital HIS system according to claim 1, wherein the electronic stethoscope information management module comprises:

the charging management unit is used for monitoring the electric quantity of the electronic stethoscope in real time when the electronic stethoscope is placed and starting a charging function when the electric quantity of the electronic stethoscope is lower than a set electric quantity;

the data interaction unit is used for acquiring equipment information of the electronic stethoscope and whether unsynchronized new data exist or not in a handshaking mode and recording the equipment information and the new data, calling the data stored in the electronic stethoscope for synchronization if the unsynchronized new data are found to be stored in the electronic stethoscope after the electronic stethoscope is successfully held, and adding a mark bit to the data which is synchronized currently by the electronic stethoscope after the data synchronization is finished;

the data storage unit is used for archiving the data synchronized by the data interaction unit from the electronic stethoscope;

the control unit is used for connecting the hospital HIS system through the network communication unit and associating the data stored in the data storage unit with the ID information of each patient in the HIS system according to the patient ID code;

and the human-computer interaction unit is used for previewing the patient file archive data stored in the data storage unit or analyzing the stored file archive data.

4. The electronic auscultation system convenient for connecting with hospital HIS system of claim 3, wherein the data stored inside the electronic stethoscope is provided with a check code, and when the electronic stethoscope exchanges data with the data interaction unit, the electronic auscultation system further comprises a process of data checking through the check code, so as to ensure that the data is complete and correct.

5. The electronic auscultation system convenient for connecting with hospital HIS system according to claim 3, wherein said electronic stethoscope information management module is configured to be installed in a housing, said housing being provided with a card slot structure for matching with said electronic stethoscope,

when the electronic stethoscope is placed in the card slot structure, the charging management unit monitors the electric quantity of the electronic stethoscope in real time and starts a charging function when the electric quantity of the electronic stethoscope is lower than a set electric quantity;

when the electronic stethoscope is placed in the card slot structure, the data interaction unit firstly acquires the device information of the electronic stethoscope and whether unsynchronized new data exist or not in a handshaking mode and records the new data, if the unsynchronized new data are found to be stored in the electronic stethoscope after the electronic stethoscope is successfully handshaking, the data stored in the electronic stethoscope is called to be synchronized, and the electronic stethoscope adds a flag bit to the data which is synchronized.

6. The electronic auscultation system convenient for connecting with a hospital HIS system of claim 5, wherein the interfaces of the charging management unit and the network communication unit are both disposed in the card slot structure.

7. The electronic auscultation system convenient for connecting with hospital HIS system of claim 5, wherein the data interaction unit communicates with the electronic stethoscope by means of infrared IrDA.

8. A data transmission method for facilitating connection of an electronic auscultation system of a hospital HIS system according to any one of claims 1 to 7, characterized in that the method comprises:

s1, acquiring auscultation data of the electronic stethoscope, and classifying and storing the auscultation data according to the ID code of the patient to form file archive data;

and S2, reading the file archive data stored in the electronic stethoscope, connecting the file archive data with the hospital HIS through a network, and associating the file archive data with the ID information of each patient in the hospital HIS.

9. The data transmission method according to claim 8, wherein the step S2 specifically includes:

s21, the data interaction unit acquires the device information of the electronic stethoscope and whether new data which is not synchronized exists or not in a handshaking mode and records the new data;

s22, after the handshake is successful, if the electronic stethoscope is found to store unsynchronized new data, the data interaction unit calls the data stored in the electronic stethoscope to synchronize;

s23, after the data synchronization is completed, the electronic stethoscope increases the flag bit of the data synchronized at the time;

s24, the data storage unit archives the data synchronized by the data interaction unit from the electronic stethoscope;

and S25, associating the data stored in the data storage unit with the ID information of each patient in the HIS system through the network according to the patient ID code.

10. The data transmission method according to claim 9, further comprising a data verification process by the verification code when the electronic stethoscope exchanges data with the data interaction unit.

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