CN215272821U - Calibrating device of electrocardio diagnosis and analysis system - Google Patents

Abstract

The utility model discloses a calibrating installation of electrocardio diagnostic analysis system, include: the system comprises a central processing module, a power supply module, a man-machine communication module, a calibration module, a weak signal module and a communication module; the power supply module, the man-machine communication module and the calibration module are all connected with the central processing module; the central processing module is connected with an external electrocardio diagnosis and analysis system through the weak signal module; the central processing module is respectively connected with an external intelligent terminal device or an electrocardio diagnosis and analysis system through the communication module. The utility model realizes the automation of the verification process through the program design, eliminates the problems of low efficiency, artificial errors and the like caused by manual measurement in the past verification, and greatly improves the verification efficiency and the accuracy of corresponding projects; and the anti-cheating algorithm module is arranged, so that the condition that a manufacturer of bad electrocardio diagnosis and analysis equipment handles the verification requirement through technical cheating can be prevented.

Description

Calibrating device of electrocardio diagnosis and analysis system

Technical Field

The utility model belongs to the technical field of medical instrument detects, especially, relate to an electrocardio diagnostic analysis system's calibrating installation.

Background

An electrocardio diagnostic analysis system is an instrument used for recording physiological electric signals generated during heart activity. The diagnostic technique of the electrocardio diagnostic analysis system is mature and reliable, the operation is simple and convenient, the price is moderate, no damage is caused to patients, and the electrocardio diagnostic analysis system becomes a medical electronic instrument which is commonly used for clinical diagnosis and scientific research. In order to ensure the accuracy and reliability of clinical diagnosis and prevent misdiagnosis caused by the performance abnormality of an electrocardio diagnosis and analysis system, the state brings the electrocardio diagnosis and analysis system into the category of compulsorily detecting a measuring instrument.

The existing calibrating instrument of the electrocardio diagnosis and analysis system needs to print corresponding waveforms item by item through the electrocardio diagnosis and analysis system, then calibrating personnel manually measure and contrast item by item, the workload is large (hurting eyes, neck and shoulder syndrome and lumbar disc herniation), the calibrating efficiency is low, and human errors are easily caused. In addition, with the national compulsory verification non-collection verification fee policy and the rapid development of medical services, the detection quantity of the electrocardio diagnosis and analysis system is in a rapid rising trend, and the pressure of first-line verification personnel is multiplied. The contradiction between a time verification task, verification quality and verification personnel configuration is increasingly prominent, and in order to solve the problems, a set of automatic verification device of the electrocardio diagnosis and analysis system needs to be explored and developed urgently.

However, the calibration items in the conventional calibration method for the electrocardiographic diagnostic analysis system are all the attributes of outputting fixed waveforms and loading an intelligent system, so that illegal manufacturers have opportunities of cheating in the automatic calibration of the electrocardiographic diagnostic analysis system, and therefore, a set of automatic calibration device/system with an anti-cheating function needs to be developed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a calibrating device of an electrocardio diagnosis and analysis system, which realizes the automation of the calibrating process through the program design, eliminates the problems of low efficiency, artificial errors and the like caused by the manual measurement in the past calibration, and greatly improves the working efficiency; and the anti-cheating algorithm module is arranged, so that the condition that a manufacturer of bad electrocardio diagnosis and analysis equipment handles the verification requirement through technical cheating can be prevented.

In order to achieve the above object, the utility model provides a calibrating installation of electrocardio diagnosis analytic system, include:

the central processing module is used for controlling the whole automatic verification process after receiving the instruction of the user;

the power supply module is connected with the central processing module and is used for providing a required power supply and reference voltage for the whole verification process;

the human-computer communication module is connected with the central processing module and is used for inputting user instruction signals and presenting verification results;

the calibration module is connected with the central processing module and used for providing a calibration basis for generating high-precision weak analog signals by detecting necessary analog signals;

the central processing module is connected with an external electrocardio diagnosis and analysis system through the weak signal module and is used for providing a weak analog signal to the electrocardio diagnosis and analysis system under the control of the central processing module;

and the central processing module is respectively connected with the electrocardio diagnosis and analysis system or an external intelligent terminal device through the communication module and is used for transmitting signals among the central processing module, the electrocardio diagnosis and analysis system and the intelligent terminal device.

Preferably, the central processing module includes:

the first controller is respectively connected with the weak signal module and the communication module, and is used for transmitting the signal sent by the central processing module to an external electrocardio diagnosis and analysis system and receiving a ready signal, a waveform data signal and relevant information of the electrocardio diagnosis and analysis system generated by the electrocardio diagnosis and analysis system;

the first anti-cheating algorithm module is connected with the first controller and is used for carrying out anti-cheating algorithm analysis on the waveform data signals to obtain a conclusion whether cheating behaviors exist or not;

the first image data analysis module is connected with the first controller and is used for carrying out image data analysis on the waveform data signal;

and the power management module is connected with the power module and is used for carrying out charging and discharging intelligent management on the power module.

Preferably, the power module includes: the power supply high-voltage module is used for generating a power supply; the power supply low-voltage module is used for generating reference voltage;

the power supply high-voltage module and the power supply low-voltage module are connected with the power supply module.

Preferably, the intelligent terminal device includes:

the second controller is connected with the electrocardio diagnosis and analysis system through the communication module, and is used for transmitting the control signal sent by the intelligent terminal device to the external electrocardio diagnosis and analysis system and receiving a ready signal, a waveform data signal and relevant information of the electrocardio diagnosis and analysis system generated by the electrocardio diagnosis and analysis system;

the second anti-cheating algorithm module is connected with the second controller and is used for carrying out anti-cheating algorithm analysis on the waveform data signals to obtain a conclusion whether cheating behaviors exist or not;

and the second image data analysis module is connected with the second controller and is used for analyzing and processing the waveform data signal.

Preferably, an image acquisition module is further connected between the intelligent terminal device and the electrocardiographic diagnostic analysis system, and is configured to convert a waveform data signal of the electrocardiographic diagnostic analysis system into image data and send the image data to the second image data analysis module, and the second image data analysis module analyzes and processes the image data.

Preferably, the image acquisition module is installed in an image acquisition instrument, and the image acquisition instrument can be embedded in the intelligent terminal device for use or is independently externally connected to the intelligent terminal device for use in cooperation.

The beneficial effects of the utility model reside in that:

(1) the utility model realizes the automation of the verification process through the program design, eliminates the problems of low efficiency, artificial errors and the like caused by manual measurement in the past verification, greatly improves the verification efficiency and the accuracy of corresponding projects, has more time to develop new projects while lightening the pressure of first-line personnel, enhances the social performance of a measurement institute, further enlarges the coverage surface of quality control, improves the quality control efficiency, ensures the effectiveness of electrocardio medical measurement instruments, and indirectly promotes the improvement of the medical level;

(2) the utility model discloses have wireless or wired communication function, can be with data transmission to intelligent terminal equipment (for example: notebook computer, cell-phone, panel computer etc.) or remote server to dispose anti-cheating algorithm module, can prevent that bad electrocardio diagnostic analysis system producer from answering the verification requirement through technological cheating.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and 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 these drawings without inventive labor.

Fig. 1 is a schematic diagram of a calibrating apparatus module of the electrocardiographic diagnostic analysis system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Example 1

Referring to fig. 1, the utility model provides a calibrating device of electrocardio diagnosis analytic system, include: the system comprises a central processing module, a power supply module, a man-machine communication module, a calibration module, a weak signal module and a communication module;

the central processing module is used for controlling the whole automatic verification process after receiving the instruction of the user; the power supply module is connected with the central processing module and is used for providing a required power supply and reference voltage for the whole verification process; the human-computer communication module is connected with the central processing module and is used for inputting user command signals and presenting verification results; the calibration module and the calibration module are connected with the central processing module and used for providing a calibration basis for generating high-precision weak analog signals by detecting necessary analog signals; the central processing module is connected with an external electrocardio diagnosis and analysis system through the weak signal module and is used for providing a weak analog signal to the electrocardio diagnosis and analysis system under the control of the central processing module; the central processing module is respectively connected with the electrocardio diagnosis and analysis system or an external intelligent terminal device through the communication module and is used for transmitting signals among the central processing module, the electrocardio diagnosis and analysis system and the intelligent terminal device.

The central processing module comprises: the system comprises a first controller, a first anti-cheating algorithm module, a first image data analysis module and a power management module; the first controller is respectively connected with the weak signal module and the communication module, and is used for transmitting the signal sent by the central processing module to an external electrocardio diagnosis and analysis system and receiving a ready signal, a waveform data signal and relevant information of the electrocardio diagnosis and analysis system generated by the electrocardio diagnosis and analysis system; the first anti-cheating algorithm module is connected with the first controller and is used for carrying out anti-cheating algorithm analysis on the waveform data signal to obtain a conclusion whether cheating behaviors exist or not; the first image data analysis module is connected with the first controller and is used for carrying out image data analysis on the waveform data signal; and the power management module is connected with the power module and used for carrying out charging and discharging intelligent management on the power module.

The power module includes: the power supply high-voltage module and the power supply low-voltage module; the power supply high-voltage module is used for generating a power supply; the power supply low-voltage module is used for generating reference voltage; the power supply high-voltage module and the power supply low-voltage module are connected with the power supply module.

The intelligent terminal device comprises: the system comprises a second controller, a second anti-cheating algorithm module and a second image data analysis module; the second controller is connected with the electrocardio diagnosis and analysis system through the communication module, and is used for transmitting the control signal sent by the intelligent terminal device to the external electrocardio diagnosis and analysis system and receiving a ready signal, a waveform data signal and relevant information of the electrocardio diagnosis and analysis system generated by the electrocardio diagnosis and analysis system; the second anti-cheating algorithm module is connected with the second controller and is used for carrying out anti-cheating algorithm analysis on the waveform data signal to obtain a conclusion whether cheating behaviors exist or not; and the second image data analysis module is connected with the second controller and is used for analyzing and processing the waveform data signal.

An image acquisition module is further connected between the intelligent terminal device and the electrocardio diagnosis analysis system and used for converting waveform data signals of the electrocardio diagnosis analysis system into image data and sending the image data to the second image data analysis module, and the second image data analysis module analyzes and processes the image data. The image acquisition module is installed in an image acquisition instrument, and the image acquisition instrument can be embedded in the intelligent terminal equipment for use or is independently externally connected with the intelligent terminal equipment for use in a matched mode.

The utility model discloses a work flow does:

(before leaving factory or after maintenance, the calibration module provides calibration basis for generating high-precision weak analog signals by detecting necessary analog signals and meeting precision requirements.)

S1, firstly, the power supply module and the power supply management module provide a required power supply and reference voltage for the whole verification process, then the device is started, a user inputs instruction signals through the man-machine communication module, and configuration parameters of the verification device of the electrocardio diagnosis and analysis system and the intelligent terminal equipment are set; the selection is then entered by manual input into either an automatic certification mode or a manual certification mode, which is specifically set for certification device (system) traceability or some other need.

S2, after receiving an instruction signal of a user, a first controller in the central processing module or a second controller in the intelligent terminal device sends a control signal, and the control signal is transmitted to the electrocardio diagnosis and analysis system through the communication module, and after receiving the control signal, the electrocardio diagnosis and analysis system makes corresponding adjustment settings on filtering, sensitivity, speed and the like;

s3, after the adjustment and setting are completed, the ecg diagnostic analysis system generates a ready signal and related information (such as a brand, a model, a device number, a hardware version number, a software version number, etc.) of the ecg diagnostic analysis system, and transmits the ready signal and the related information back to the central processing module or the intelligent terminal device through the communication module. The intelligent terminal device transmits a ready signal to the central processing module through the communication module;

s4, after receiving the ready signal, the central processing module device sends a control signal corresponding to a waveform to the weak signal module, and meanwhile, reserves a data for standby, and sends the data to the first anti-cheating algorithm module or the second anti-cheating algorithm module for use when needed; the weak signal module outputs a corresponding weak analog signal to the electrocardio diagnosis and analysis system according to the control signal corresponding to the waveform;

s5, the ecg diagnostic analysis system analyzes the weak analog signal to obtain a waveform data signal, and transmits the waveform data signal back to the central processing module or the intelligent terminal device through the communication module, or converts the waveform data signal into image data through the image acquisition module and transmits the image data back to the intelligent terminal device;

s6, the central processing module or the intelligent terminal performs anti-cheating algorithm processing and image data algorithm analysis on the waveform data signal or the image data, determines whether the electrocardiographic diagnostic analysis system has a cheating behavior, determines whether the waveform data signal or the image data analysis result meets a requirement, and finally presents the result through the human-computer communication module, and transmits the result to the intelligent terminal device or uploads the result to a remote server through the intelligent terminal device as needed.

In the existing verification, a fixed waveform is output to an electrocardiogram diagnosis and analysis system, and then whether the result is qualified or not is judged according to manual measurement and analysis of a printed electrocardiogram; one of the automatic verification mentioned in the application is automatic verification through a communication module, but the process is very easy to enable the cheating idea of a bad manufacturer to be possible without interference;

therefore, the utility model discloses a to some parameters of wave form in amplitude, time carry out random change in certain extent can solve this problem, for example according to current examination rule JJJG 1041-2008, to the judgement of interior calibration voltage error item, through exporting 2.5Hz, the square wave of 1mV gives the electrocardiograph, and in this application, can change fixed 2.5Hz,1mV into (2 ~ 3) Hz, (0.9 ~ 1.1) mV, other examination items also can be done similar adjustment. Therefore, cheating behaviors of bad manufacturers, which are carried out by simply outputting corresponding values of 1.0mV or (0.95-1.05) mV internal voltage, can be killed in the idea; the utility model discloses still strengthen the anti-cheating method, carry out the comparison of image analysis result through the wave form information data that returns electrocardio diagnosis analytic system at random and the heart electrograph of printing promptly, if the result difference is outside reasonable scope, also can judge to cheat.

Therefore, the utility model randomly changes the control signal parameters sent by the central processing module, and analyzes and compares the returned waveform data signals with the previously reserved data through the first anti-cheating algorithm module or the second anti-cheating algorithm module, and judges whether the analysis and comparison result is in the allowable range; or the analysis result of the image data and the analysis result of the waveform data signal are analyzed and compared through a second anti-cheating algorithm module, and whether the analysis and comparison result is within an allowable range or not is judged. (the anti-cheating algorithm of the present invention is used to explain the invention but not limited to the above two ways.)

If the analysis result of the waveform data signal or the image data is within the allowable range, the detection item is qualified, the judgment of the next item is continued, and otherwise, the detection item is not qualified;

if all the project results are qualified, the total result is qualified, and a verification certificate is issued according to the output verification data information; otherwise, outputting an option box whether to continue verification or not to be selected manually;

if not, issuing a verification result notice according to the current verification data, if so, continuing the verification of the next project until the completion of the verification, and issuing the verification result notice according to the verification data of all the projects.

To sum up, the utility model discloses bring a series of technological effect, social and economic benefits: the technical effects are as follows: (1) the automation of the verification process is realized through program design, the problems of low efficiency, manual errors and the like caused by manual measurement in the past verification are eliminated, and the efficiency is greatly improved; (2) the wireless or wired communication function is achieved, and data can be transmitted to intelligent terminal equipment (such as a notebook computer, a mobile phone, a tablet computer and the like) or a remote server. (3) The method prevents the poor electrocardio diagnosis and analysis system manufacturer from responding to the verification requirement through technical cheating.

Social benefits are as follows: (1) measurement yard: the verification efficiency and accuracy of corresponding projects are greatly improved, the pressure of first-line personnel is reduced, meanwhile, more time is provided for developing new projects, and the social acting capacity of a measurement yard is enhanced; (2) hospital: the coverage of quality control is enlarged, the quality control efficiency is improved, the effectiveness of the electrocardio medical measuring instrument is ensured, and the improvement of the medical level is indirectly promoted; (3) medical devices company: the factory detection range is enlarged, the quality control level is effectively improved, the product reliability is improved, and a better public praise is obtained; (4) the quality level of the whole electrocardio industry is improved, and the accurate diagnosis of the electrocardio diseases is effectively ensured.

Economic benefits are as follows: after the project is finished, certain economic benefits are achieved.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (6)

1. A calibrating device of an electrocardio diagnosis and analysis system is characterized by comprising:

the central processing module is used for controlling the whole automatic verification process after receiving the instruction of the user;

the power supply module is connected with the central processing module and is used for providing a required power supply and reference voltage for the whole verification process;

the human-computer communication module is connected with the central processing module and is used for inputting user instruction signals and presenting verification results;

the calibration module is connected with the central processing module and used for providing a calibration basis for generating high-precision weak analog signals by detecting necessary analog signals;

the central processing module is connected with an external electrocardio diagnosis and analysis system through the weak signal module and is used for providing a weak analog signal to the electrocardio diagnosis and analysis system under the control of the central processing module;

and the central processing module is respectively connected with the electrocardio diagnosis and analysis system or an external intelligent terminal device through the communication module and is used for transmitting signals among the central processing module, the electrocardio diagnosis and analysis system and the intelligent terminal device.

2. The calibrating apparatus for electrocardiographic diagnostic analysis according to claim 1, wherein said central processing module comprises:

the first controller is respectively connected with the weak signal module and the communication module, and is used for transmitting the signal sent by the central processing module to an external electrocardio diagnosis and analysis system and receiving a ready signal, a waveform data signal and relevant information of the electrocardio diagnosis and analysis system generated by the electrocardio diagnosis and analysis system;

the first anti-cheating algorithm module is connected with the first controller and is used for carrying out anti-cheating algorithm analysis on the waveform data signals to obtain a conclusion whether cheating behaviors exist or not;

the first image data analysis module is connected with the first controller and is used for carrying out image data analysis on the waveform data signal;

and the power management module is connected with the power module and used for carrying out charging and discharging intelligent management on the power module.

3. The calibrating apparatus for electrocardiographic diagnostic analysis according to claim 1, wherein said power module comprises: the power supply high-voltage module is used for generating a power supply; the power supply low-voltage module is used for generating reference voltage;

the power supply high-voltage module and the power supply low-voltage module are connected with the power supply module.

4. The calibrating apparatus for the electrocardiographic diagnostic analysis system according to claim 1, wherein the intelligent terminal device comprises:

the second controller is connected with the electrocardio diagnosis and analysis system through the communication module, and is used for transmitting the control signal sent by the intelligent terminal device to the external electrocardio diagnosis and analysis system and receiving a ready signal, a waveform data signal and relevant information of the electrocardio diagnosis and analysis system generated by the electrocardio diagnosis and analysis system;

the second anti-cheating algorithm module is connected with the second controller and is used for carrying out anti-cheating algorithm analysis on the waveform data signals to obtain a conclusion whether cheating behaviors exist or not;

and the second image data analysis module is connected with the second controller and is used for analyzing and processing the waveform data signal.

5. The calibrating apparatus for the electrocardiographic diagnostic analysis system according to claim 4, wherein an image acquisition module is further connected between the intelligent terminal device and the electrocardiographic diagnostic analysis system, and is configured to convert a waveform data signal of the electrocardiographic diagnostic analysis system into image data and send the image data to the second image data analysis module, and the second image data analysis module analyzes and processes the image data.

6. The calibrating apparatus for the electrocardiographic diagnostic analysis system according to claim 5, wherein the image acquisition module is installed in an image acquisition instrument, and the image acquisition instrument can be embedded in the intelligent terminal device for use or separately externally connected to the intelligent terminal device for use.

Images