CN113160943B - Electrocardiogram waveform display method, electrocardiograph and computer storage medium - Google Patents

Abstract

The application discloses an electrocardiograph waveform display method, an electrocardiograph and a computer storage medium. The display method comprises the following steps: when electrocardiographic data are acquired, displaying a plurality of partial electrocardiographic waveforms corresponding to a plurality of preset leads in a set time period in a first display area of a display interface; and in response to the preset operation, displaying the complete electrocardio waveform of the selected at least one partial electrocardio waveform in a second display area of the display interface. Through the mode, the application can realize the rapid display of the complete electrocardio waveform corresponding to the lead.

Description

Electrocardiogram waveform display method, electrocardiograph and computer storage medium

Technical Field

The present application relates to the field of electrocardiograph technologies, and in particular, to a method for displaying an electrocardiograph waveform, an electrocardiograph, and a computer storage medium.

Background

The electrocardiogram records the physiological activities of the heart of a human body, contains rich physiological and pathological information reflecting the heart rhythm and the electrical conductivity thereof, and can be used by medical staff for diagnosing heart diseases of the patient or evaluating heart functions through the electrocardiograph.

Because the electrocardiograph needs to display the acquired electrocardiograph data in real time, only part of electrocardiograph waveforms can be displayed in the display area of the electrocardiograph. The recording paper of the electrocardiograph continuously moves according to the preset speed, so that the medical staff can only watch part of electrocardiographic waveforms containing the set time period of the current time from the display area of the electrocardiograph at the same time. If medical staff needs to watch the complete electrocardiographic waveform, the complete electrocardiographic waveform can be printed out only after the acquisition is completed, and the mode is low in efficiency and does not meet the paperless office requirement.

Disclosure of Invention

The application mainly solves the technical problem of providing a display method of an electrocardiograph waveform, an electrocardiograph and a computer storage medium, which can realize the rapid display of the complete electrocardiograph waveform corresponding to the lead and save the time for medical staff to acquire the complete electrocardiograph waveform.

In order to solve the technical problems, the application adopts a technical scheme that: provided is a display method of an electrocardiographic waveform, the display method including:

when electrocardiographic data are acquired, displaying a plurality of partial electrocardiographic waveforms corresponding to a plurality of preset leads in a set time period in a first display area of a display interface;

and responding to a preset operation, and displaying the complete electrocardio waveform of the selected at least one partial electrocardio waveform in a second display area of the display interface.

According to an embodiment of the present application, the displaying, in a first display area of a display interface, a plurality of partial electrocardiographic waveforms corresponding to a preset plurality of leads within a set time period includes:

detecting part of electrocardio waveforms of each lead;

if the partial electrocardiographic waveform of the target lead is detected to meet the preset requirement, displaying the partial electrocardiographic waveform of the target lead in a set time period including the current time in a first display area of a display interface;

if the detected partial electrocardio waveforms of the target leads do not meet the preset requirement, stopping displaying the electrocardio waveforms corresponding to the target leads.

According to an embodiment of the present application, the step of displaying, in response to a preset operation, the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface includes:

and in response to a first selection operation of at least one of the plurality of partial electrocardiographic waveforms, displaying a complete electrocardiographic waveform corresponding to the at least one partial electrocardiographic waveform in a second display area of the display interface.

Wherein the first selection operation is clicking or framing at least one portion of the electrocardiographic waveforms in the first display region.

According to an embodiment of the present application, the step of displaying, in response to a first selection operation of at least one of the plurality of partial electrocardiographic waveforms, a complete electrocardiographic waveform corresponding to the at least one partial electrocardiographic waveform in a second display area of the display interface includes:

responsive to a first selection operation of at least one of the plurality of partial electrocardiographic waveforms;

detecting whether the selected part of the electrocardiographic waveforms are in the acquisition process or not;

and if not, displaying the selected complete electrocardio waveform corresponding to the partial electrocardio waveform in a second display area of the display interface.

According to an embodiment of the present application, the detecting whether the selected part of the electrocardiographic waveforms is after the step of the acquisition process further includes:

if yes, displaying a first lead list in a second display area of the display interface, wherein the first lead list comprises at least one lead for completing the acquisition process;

and in response to a second selection operation of at least one lead in the first lead list, displaying a complete electrocardiographic waveform corresponding to the selected lead in a second display area of the display interface.

According to an embodiment of the present application, in response to the preset operation, the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface, the method further includes:

responding to long-press operation or double-click operation in a preset area, and displaying the complete electrocardiographic waveform of at least one selected partial electrocardiographic waveform in a second display area of the display interface;

the preset area is an area in the second display area.

According to an embodiment of the present application, the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface in response to the long-press operation or the double-click operation in the preset area includes:

presetting the display sequence of the plurality of leads;

and responding to long-press operation or double-click operation in a preset area, and displaying the complete electrocardio waveform of at least one part of electrocardio waveform in a second display area of the display interface according to the display sequence.

According to an embodiment of the present application, the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface in response to the long-press operation or the double-click operation in the preset area includes:

responding to long-press operation or double-click operation in a preset area, and displaying a second lead list in a second display area of the display interface, wherein the second lead list comprises at least one lead for completing the acquisition process;

and in response to a third selection operation of at least one lead in the second lead list, displaying the complete electrocardiographic waveform corresponding to the selected lead in a second display area of the display interface.

To solve the above technical problems, the present application provides an electrocardiograph, which includes a memory and a processor coupled to the memory;

wherein the memory is configured to store program data, and the processor is configured to execute the program data to implement the method for displaying an electrocardiographic waveform according to any one of the above.

In order to solve the above technical problem, the present application further provides a computer storage medium for storing program data, where the program data is used to implement the method for displaying an electrocardiographic waveform according to any one of the above claims when the program data is executed by a processor.

Compared with the prior art, the application has the beneficial effects that: when electrocardiograph collects electrocardiograph data, displaying a plurality of partial electrocardiograph waveforms corresponding to a plurality of preset leads in a set time period in a first display area of a display interface; and in response to the preset operation, displaying the complete electrocardio waveform of the selected at least one partial electrocardio waveform in a second display area of the display interface. Through the mode, the application can realize the rapid display of the complete electrocardio waveform corresponding to the lead.

Drawings

FIG. 1 is a flowchart of a first embodiment of a method for displaying an electrocardiographic waveform according to the present application;

FIG. 2 is a flowchart of a second embodiment of a method for displaying an electrocardiographic waveform according to the present application;

FIG. 3 is a flowchart of a third embodiment of a method for displaying an electrocardiographic waveform according to the present application;

FIG. 4 is a schematic diagram of a frame of an embodiment of an electrocardiograph provided by the present application;

FIG. 5 is an exploded view of another embodiment of an electrocardiograph provided by the present application;

fig. 6 is a schematic structural diagram of an embodiment of a computer storage medium according to the present application.

Detailed Description

The following describes embodiments of the present application in detail with reference to the drawings.

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, interfaces, techniques, etc., in order to provide a thorough understanding of the present application.

The terms "system" and "network" are often used interchangeably herein. The term "and/or" is herein merely an association relationship describing an associated object, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship. Further, "a plurality" herein means two or more than two.

The application provides a method for displaying an electrocardiographic waveform, and particularly referring to fig. 1, fig. 1 is a flow chart of a first embodiment of the method for displaying an electrocardiographic waveform. The electrocardiograph waveform display method of the present embodiment can be applied to an electrocardiograph. This embodiment will be described with reference to an electrocardiograph. The electrocardiograph waveform display method of the embodiment specifically includes the following steps:

s101: when the electrocardiograph data are acquired, a plurality of partial electrocardiograph waveforms corresponding to a plurality of leads preset in a set time period are displayed in a first display area of a display interface.

The display interface of the electrocardiograph at least comprises a first display area and a second display area, and the proportion and the relative position of the first display area and the second display area in the display interface can be adjusted according to actual conditions. For example, the ratio of the first display area to the second display area in the display interface is 2:1, and the first display area and the second display area may be arranged up and down or left and right. In a specific embodiment, in order to make the electrocardiographic waveforms displayed in the first display region and the second display region highly observable, the relative positions of the first display region and the second display region disposed one above the other are optimal. The proportion and the relative position of the first display area and the second display area in the display interface are not limited in the embodiment.

It will be appreciated that the first display area is configured to display a portion of the electrocardiographic waveforms of all the predetermined leads within the set time period, and the second display area is configured to display the complete electrocardiographic waveform. In a specific embodiment, the first display area may be used to display the complete electrocardiographic waveform, and the second display area may be used to display all of the partial electrocardiographic waveforms of the preset leads, which will not be described herein.

Further, the electrocardiograph can also detect whether each part of the electrocardiograph waveform is acquired or displayed in error when displaying a plurality of parts of electrocardiograph waveforms of which a plurality of leads are preset in a set time.

Specifically, the electrocardiograph detects part of the electrocardiograph waveforms of each lead, and if the part of electrocardiograph waveforms of the target leads meet the preset requirement, part of electrocardiograph waveforms of the target leads in a set time period including the current time are displayed in a first display area of the display interface; if the detected partial electrocardio waveforms of the target leads do not meet the preset requirement, stopping displaying the electrocardio waveforms corresponding to the target leads. The preset requirement can be a preset voltage range, and the preset voltage range refers to medical routine parameters. When the voltage data in the electrocardiograph data exceeds the preset voltage range, the electrocardiograph waveform corresponding to the electrocardiograph data does not meet the preset requirement.

S102: and in response to the preset operation, displaying the complete electrocardio waveform of the selected at least one partial electrocardio waveform in a second display area of the display interface.

The preset operation in this embodiment may be a selection operation of at least one part of the electrocardiograph waveform in the first display area of the electrocardiograph, or may be an operation of a preset area in the display interface of the electrocardiograph. In response to the preset operation of S102, the electrocardiograph displays a complete electrocardiograph waveform of at least one partial electrocardiograph waveform corresponding to the preset operation in a second display area of the display interface.

For example, when the preset operation is a selection operation of at least one partial electrocardiograph waveform, the electrocardiograph displays a complete electrocardiograph waveform corresponding to the selected at least one partial electrocardiograph waveform in the second display area of the display interface. When the preset operation is the operation of a preset area in a display interface of the electrocardiograph, the electrocardiograph displays the complete electrocardiograph waveform corresponding to at least one partial electrocardiograph waveform according to a preset display lead or randomly.

In the embodiment, when electrocardiograph acquires electrocardiograph data, displaying a plurality of partial electrocardiograph waveforms corresponding to a plurality of preset leads in a set time period in a first display area of a display interface; and in response to the preset operation, displaying the complete electrocardio waveform of the selected at least one partial electrocardio waveform in a second display area of the display interface. By the mode, the embodiment can realize rapid display of the complete electrocardio waveform corresponding to the lead.

On the basis of the first embodiment, the present application further provides another specific method for displaying an electrocardiographic waveform, and referring to fig. 2 specifically, fig. 2 is a schematic flow chart of a second embodiment of the method for displaying an electrocardiographic waveform.

As shown in fig. 2, the method for displaying an electrocardiographic waveform of the present embodiment specifically includes the following steps:

s201: when the electrocardiograph data are acquired, a plurality of partial electrocardiograph waveforms corresponding to a plurality of leads preset in a set time period are displayed in a first display area of a display interface.

The technical content of S201 in this embodiment is identical to that of S101 in the foregoing embodiment, and will not be described herein.

S202: in response to a first selection operation of at least one of the plurality of partial electrocardiographic waveforms, a complete electrocardiographic waveform corresponding to the at least one partial electrocardiographic waveform is displayed in a second display area of the display interface.

Wherein, in response to a first selection operation of at least one of the plurality of partial electrocardiograph waveforms, the electrocardiograph displays a complete electrocardiograph waveform corresponding to the at least one partial electrocardiograph waveform in a second display area of the display interface. The first selection operation may be clicking or framing a portion of the electrocardiographic waveform of any of the leads in the first display region. When the user clicks or frames part of the electrocardiograph waveform of any lead in the first display area, the selection operation can be realized through a touch screen function of the electrocardiograph or electronic equipment with an indication function.

In this embodiment, if the user selected lead is not acquired, the electrocardiograph cannot display the complete electrocardiographic waveform. Thus, when the user selects a portion of the electrocardiographic waveform of any of the leads, the electrocardiograph needs to detect whether the portion of the electrocardiographic waveform is in the process of acquisition. If the part of the electrocardiograph waveforms are not in the acquisition process but are acquired, the electrocardiograph displays the complete electrocardiograph waveforms corresponding to the part of the electrocardiograph waveforms in a second display area of the display interface.

If the partial electrocardiograph waveform is still in the acquisition process, it is indicated that the partial electrocardiograph waveform does not have a corresponding complete electrocardiograph waveform, at this time, the electrocardiograph may not display any electrocardiograph waveform in the second display area, so as to inform the user that the selected partial electrocardiograph waveform is still in the acquisition process.

Further, the electrocardiograph can detect the acquisition states of all the leads one by one, and display a first lead list on a second display area of the display interface, wherein the first lead list comprises at least one lead for completing the acquisition process. At this time, the user may select the complete electrocardiographic waveform corresponding to the lead desired to be viewed in the first lead list. In response to a second selection operation of at least one lead in the first lead list by the user, the electrocardiograph displays a complete electrocardiograph waveform corresponding to the selected lead in a second display area of the display interface.

On the basis of the first embodiment, the present application further provides another specific method for displaying an electrocardiographic waveform, and referring specifically to fig. 3, fig. 3 is a schematic flow chart of a third embodiment of the method for displaying an electrocardiographic waveform.

As shown in fig. 3, the method for displaying an electrocardiographic waveform of the present embodiment specifically includes the following steps:

s301: when the electrocardiograph data are acquired, a plurality of partial electrocardiograph waveforms corresponding to a plurality of leads preset in a set time period are displayed in a first display area of a display interface.

The technical content of S301 in this embodiment is identical to that of S101 in the foregoing embodiment, and will not be described herein.

S302: and in response to the long-press operation or the double-click operation in the preset area, displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in a second display area of the display interface.

The preset area may be set as a partial area in the second display area or as all areas in the second display area.

One way may be: the method comprises the steps of presetting a display sequence of a plurality of leads in an electrocardiograph, and displaying a complete electrocardiograph waveform of at least one partial electrocardiograph waveform in a second display area of a display interface according to the preset display sequence by the electrocardiograph in response to long-press operation or double-click operation in a preset area. Specifically, in response to a long press operation or a double click operation in a preset area, the electrocardiograph detects whether a first lead in a display sequence is acquired or not, if not, a complete electrocardiograph waveform corresponding to the first lead is displayed, and if so, a second lead in the display sequence is detected until a certain lead is detected to finish acquisition.

Another way may be: and responding to long-press operation or double-click operation in a preset area, and displaying a second lead list on a second display area of the display interface by the electrocardiograph, wherein the second lead list comprises at least one lead for completing the acquisition process. At this time, the user may select the complete electrocardiographic waveform corresponding to the lead desired to be viewed in the second lead list. In response to a third selection operation of at least one lead in the second lead list by the user, the electrocardiograph displays a complete electrocardiographic waveform corresponding to the selected lead in a second display area of the display interface.

In order to realize the method for displaying the electrocardiographic waveform in the embodiment, the application also provides an electrocardiograph. With continued reference to fig. 4, fig. 4 is a schematic diagram illustrating a frame of an electrocardiograph according to an embodiment of the present application. The electrocardiograph 40 comprises a processor 41 and a memory 42 coupled to each other, the processor 41 being configured to execute program data stored in the memory 42 to implement the steps of any of the method embodiments described above or the steps performed correspondingly by the electrocardiograph 40 in any of the method embodiments described above. The electrocardiograph 40 may include a touch screen, a printing unit, a communication circuit, and the like as required in addition to the above-described processor 41 and memory 42, and is not limited thereto.

Specifically, the processor 41 is configured to control itself and the memory 42 to implement the steps in the embodiment of the method for displaying an electrocardiographic waveform described above. The processor 41 may also be referred to as a CPU (Central Processing Unit ). The processor 41 may be an integrated circuit chip with signal processing capabilities. The processor 41 may also be a general purpose processor, a digital signal processor (Digital Signal Processor, DSP), an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a Field programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components. The general purpose processor may be a microprocessor or the processor 41 may be any conventional processor or the like. In addition, the processor 41 may be commonly implemented by a plurality of integrated circuit chips.

Referring to fig. 5, fig. 5 is an exploded view of another embodiment of an electrocardiograph according to the present application. As shown in fig. 5, the electrocardiograph includes a host 10, the host 10 includes a housing 11 and a display screen 12 embedded in the housing 11, the host 10 may further include a processor 41 and a memory 42 shown in fig. 4, and may further include a communication circuit for communication by an external device, wherein the communication circuit may include at least one of: wifi communication circuitry, bluetooth communication circuitry, cellular mobile communication circuitry, and the like.

In one implementation, the display 12 is a touch-sensitive display so that a user can interact with the electrocardiograph by touching the display 12. For example, a data acquisition icon is displayed on a touch display screen display interface of an electrocardiograph, and electrocardiograph data acquisition is performed when a touch signal of a user to the data acquisition icon is detected. The electrocardiograph can also utilize the touch display screen to realize the interactive operation with the user in any of the above embodiments.

The housing 11 includes first and second oppositely disposed sides 111, 112, the first side 111 for connection with a peripheral device, which in one implementation scenario may include any of the handle 20, the printing assembly 30. In a specific implementation scenario, when the peripheral device is connected to the first side 111, the second side 112 and the peripheral device are simultaneously abutted against the supporting surface, so that a predetermined angle is formed between the plane where the display screen 12 is located and the supporting surface, so that a user can observe an interface displayed on the display screen 12 conveniently, or touch the display screen 12, the predetermined angle can be set to 30 degrees, 35 degrees, and the like, which is not limited in this embodiment.

In addition, in order to conveniently and rapidly realize the connection between the host 10 and the peripheral device, connectors matched with each other can be arranged on the host 10 and the peripheral device. Taking the example that the peripheral device comprises a handle 20, positioning grooves 113 are formed in two sides, close to the first side portion 111, of the host computer 10, the handle 20 comprises two first positioning arms 21 which are arranged oppositely, the first positioning arms 21 are matched with the positioning grooves 113, and therefore the first positioning arms 21 can be inserted into the positioning grooves 113, and detachable connection between the host computer 10 and the handle 20 is achieved. In one implementation scenario, the first side 111 may further be provided with a plurality of fastening holes (not shown), and the handle 20 further includes a first mounting portion 22 disposed between the two first positioning arms 21, where the first mounting portion 22 is provided with a first fastening post 221 that matches the fastening holes. In one implementation scenario, in order to facilitate the user carrying the host 10 by the handle 20, the handle 20 further includes a handle 23, and the handle 23, the two first positioning arms 21, and the first mounting portion 22 enclose to form a through slot 24 for the user to hold, so that the user can conveniently carry the host 10. Alternatively, when the peripheral device includes the printing assembly 30, the printing assembly 30 may include two second positioning arms 31 disposed opposite to each other, similar to the handle 20, and the second positioning arms 31 are matched with the positioning grooves 113, so that the second positioning arms 31 may be inserted into the positioning grooves 113 to achieve the detachable connection between the host computer 10 and the printing assembly 30. In one implementation scenario, the printing assembly 30 further includes a second mounting portion 32 disposed between the two second positioning arms 31, and a second clamping post 321 that matches the clamping hole is disposed on the second mounting portion 32.

In addition, the host 10 further includes a first collecting interface 114, a second collecting interface 115, a switch button 116, which are disposed on the housing 11, and the second side 112 is further provided with an acoustic hole 1121, and a scan head 1122 for scanning a barcode. The host 10 may further include at least one of a power adapter interface, an ethernet port, a USB (Universal Serial Bus ) interface, an SD (Secure Digital) memory card slot, a SIM (Subscriber Identification Module, user identification) card slot, and an NFC (Near Field Communication ) identifier.

Further, an Operating System (OS) of the host 10 may be based on Linux, windows or the like, and the embodiment is not particularly limited herein.

The handle 20 and the printing assembly 30 can be configured according to actual needs. For example, for a scenario that is often carried and used outdoors, the handle 20 and the printing assembly 30 may be additionally configured on the basis of the host computer 10, while for a scenario that is used inside a hospital, the printing assembly 30 may be additionally configured on the basis of the host computer 10, or when the host computer 10 is connected to an external printing apparatus through a network, the printing assembly 30 may not be additionally configured, which is not exemplified here.

It will be appreciated that the electrocardiograph described above may also be selectively provided with at least one of the following components: the camera shooting component is used for collecting images or videos and is matched with a communication circuit to realize video interaction with a far end, the GPS positioning group is used for acquiring the position of an electrocardiograph, and the biological characteristic collecting component is used for collecting biological characteristics of a user (such as a fingerprint collecting component for collecting fingerprints, a camera shooting component for collecting pupils and the like).

Referring to fig. 6, fig. 6 is a schematic structural diagram of an embodiment of a computer storage medium 600, where program data 601 is stored in the computer storage medium 600, and when the program data 601 is executed by a processor, the steps of any of the embodiments are implemented.

The computer storage medium 600 may be a medium such as a usb (universal serial bus), a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, which may store the program data 601, or may be a server storing the program data 601, and the server may send the stored program data 601 to another device for running, or may also run the stored program data 601 itself.

In the several embodiments provided in the present application, it should be understood that the disclosed method and apparatus may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of modules or units is merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical, or other forms.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the embodiment.

In addition, each functional unit in the embodiments of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to execute all or part of the steps of the methods of the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The foregoing is only illustrative of the present application and is not to be construed as limiting the scope of the application, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present application and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the application.

Claims (9)

1. A display method of an electrocardiograph waveform, wherein the display method is applied to an electrocardiograph, the display method comprising:

when electrocardiographic data are acquired, displaying a plurality of partial electrocardiographic waveforms corresponding to a plurality of preset leads in a set time period in a first display area of a display interface;

responding to a preset operation, and displaying the complete electrocardio waveform of at least one selected partial electrocardio waveform in a second display area of the display interface;

the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface in response to the preset operation comprises the following steps:

in response to a first selection operation of at least one partial electrocardiographic waveform of the plurality of partial electrocardiographic waveforms, displaying a complete electrocardiographic waveform corresponding to the at least one partial electrocardiographic waveform in a second display area of the display interface;

the step of displaying a complete electrocardiographic waveform corresponding to at least one partial electrocardiographic waveform in a second display area of the display interface in response to a first selection operation of the at least one partial electrocardiographic waveform of the plurality of partial electrocardiographic waveforms, comprises:

responsive to a first selection operation of at least one of the plurality of partial electrocardiographic waveforms;

detecting whether the selected part of the electrocardiographic waveforms are in the acquisition process or not;

and if not, displaying the selected complete electrocardio waveform corresponding to the partial electrocardio waveform in a second display area of the display interface.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the displaying, in a first display area of the display interface, a plurality of partial electrocardiograph waveforms corresponding to a plurality of preset leads in a set time period, including:

detecting part of electrocardio waveforms of each lead;

if the partial electrocardiographic waveform of the target lead is detected to meet the preset requirement, displaying the partial electrocardiographic waveform of the target lead in a set time period including the current time in a first display area of a display interface;

if the detected partial electrocardio waveforms of the target leads do not meet the preset requirement, stopping displaying the electrocardio waveforms corresponding to the target leads.

3. The method of claim 1, wherein the step of determining the position of the substrate comprises,

wherein the first selection operation is clicking or framing at least one portion of the electrocardiographic waveforms in the first display region.

4. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the method further comprises the steps of detecting whether the selected part of the electrocardiographic waveforms are in the acquisition process or not:

if yes, displaying a first lead list in a second display area of the display interface, wherein the first lead list comprises at least one lead for completing the acquisition process;

and in response to a second selection operation of at least one lead in the first lead list, displaying a complete electrocardiographic waveform corresponding to the selected lead in a second display area of the display interface.

5. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface in response to the preset operation, and the method further comprises:

responding to long-press operation or double-click operation in a preset area, and displaying the complete electrocardiographic waveform of at least one selected partial electrocardiographic waveform in a second display area of the display interface;

the preset area is an area in the second display area.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface in response to the long-press operation or the double-click operation in the preset area comprises the following steps:

presetting the display sequence of the plurality of leads;

and responding to long-press operation or double-click operation in a preset area, and displaying the complete electrocardio waveform of at least one part of electrocardio waveform in a second display area of the display interface according to the display sequence.

7. The method of claim 5, wherein the step of determining the position of the probe is performed,

the step of displaying the complete electrocardiographic waveform of the selected at least one partial electrocardiographic waveform in the second display area of the display interface in response to the long-press operation or the double-click operation in the preset area comprises the following steps:

responding to long-press operation or double-click operation in a preset area, and displaying a second lead list in a second display area of the display interface, wherein the second lead list comprises at least one lead for completing the acquisition process;

and in response to a third selection operation of at least one lead in the second lead list, displaying the complete electrocardiographic waveform corresponding to the selected lead in a second display area of the display interface.

8. An electrocardiograph, comprising a memory and a processor coupled to the memory;

wherein the memory is configured to store program data, and the processor is configured to execute the program data to implement the method for displaying an electrocardiographic waveform according to any one of claims 1 to 7.

9. A computer storage medium for storing program data which, when executed by a processor, is adapted to carry out the method of displaying an electrocardiographic waveform according to any one of claims 1 to 7.