CN112822980A

CN112822980A - Touch operation responding method applied to monitoring equipment and monitoring equipment

Info

Publication number: CN112822980A
Application number: CN201880098470.2A
Authority: CN
Inventors: 袁微微; 谈琳
Original assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd
Current assignee: Shenzhen Mindray Bio Medical Electronics Co Ltd
Priority date: 2018-11-09
Filing date: 2018-11-09
Publication date: 2021-05-18
Also published as: WO2020093363A1

Abstract

A touch operation responding method applied to a monitoring device and the monitoring device comprise the following steps: displaying a first touch display area on a display interface, wherein the first touch display area is used for displaying monitoring information corresponding to at least one physiological parameter of a monitored object; acquiring a first touch operation instruction input by a user through a first touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point; acquiring a first distance between a first starting point and a second distance between a first end point and a second end point based on a first touch operation instruction; if the second distance is greater than the first distance, displaying a second touch display area; and amplifying and displaying the monitoring information corresponding to the first touch operation instruction in the second touch display area.

Description

Touch operation responding method applied to monitoring equipment and monitoring equipment

Technical Field

The invention relates to the field of monitoring equipment, in particular to a touch operation responding method applied to the monitoring equipment and the monitoring equipment.

Background

A monitor is a device or system that measures and controls physiological parameters of a patient and compares them to known settings to generate an alarm if an excessive level is present. The monitor can synchronously and continuously monitor the electrocardio, blood pressure, respiration, body temperature and other parameters of the patient, and provides a good means for medical care personnel to comprehensively, intuitively and timely master the illness state of the patient.

With the wide application of touch display screens, touch display screen technology is also gradually adopted in medical monitoring equipment at present. In order to facilitate medical staff to know the health condition of the monitored object more intuitively and comprehensively, monitoring information displayed on the display interface of the monitor is more and more abundant.

However, since the size of the monitor screen is limited, if more monitoring information is to be displayed, the size of each monitoring information on the monitor display interface needs to be reduced correspondingly, which is inconvenient for the user to further view each monitoring information and affects the user experience.

Disclosure of Invention

According to a first aspect of the present invention, there is provided a method of responding to touch operation applied to a monitoring device, comprising:

generating printing information corresponding to the physiological parameters of the monitored object according to the user instruction;

displaying the printing information in a printing touch display area suspended on a display interface;

acquiring a first touch operation instruction input by a user through the printing touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point;

acquiring a first distance between the first starting point and the second starting point and a second distance between the first termination point and the second termination point based on the first touch operation instruction;

and if the second distance is greater than the first distance, the printing information is displayed in the printing touch display area in an enlarged mode.

According to a second aspect of the present invention, there is provided a method of responding to touch operation applied to a monitoring device, comprising:

displaying a first touch display area on a display interface, wherein the first touch display area is used for displaying monitoring information corresponding to at least one physiological parameter of a monitored object;

acquiring a first touch operation instruction input by a user through the first touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point;

if the second distance is greater than the first distance, displaying a second touch display area;

and amplifying and displaying the monitoring information corresponding to the first touch operation instruction in the second touch display area.

According to a third aspect of the invention, there is provided a monitoring device comprising:

a display configured to display information; and

a processor executing program instructions to implement the steps of:

According to a fourth aspect of the invention, there is provided a monitoring device comprising:

a display configured to display information; and

a processor executing program instructions to implement the steps of:

According to a fifth aspect of the present invention, there is provided a computer-readable storage medium comprising instructions which, when run on a computer, cause the computer to perform the method provided above according to the first aspect of the present invention.

Drawings

FIG. 1 is a flow chart illustrating a method for responding to a touch operation applied to a monitoring device;

FIG. 2 is a schematic diagram illustrating a gesture of a user inputting a first touch operation command;

fig. 3 is a schematic diagram of a first touch trajectory and a second touch trajectory in a first touch operation instruction;

FIG. 4 is a schematic diagram of a first touch display area on a display interface of a monitoring device;

FIG. 5 is a schematic diagram of a monitoring device display interface including a first touch display area and a second touch display area;

FIG. 6 is a schematic diagram illustrating a gesture of a user inputting a fifth touch operation command;

FIG. 7 is a schematic diagram of a global historical waveform of a physiological parameter on a display interface of a monitoring device;

FIG. 8 is a schematic diagram of a local historical waveform of a physiological parameter on a display interface of a monitoring device;

FIG. 9 is a flow chart illustrating another method for responding to a touch operation applied to a monitoring device;

FIG. 10 is a schematic view of printed information on a display interface of a monitoring device;

FIG. 11 is a schematic view of detailed data or waveforms of physiological parameters corresponding to printed information on a display interface of a monitoring device;

fig. 12 is a schematic structural diagram of a monitoring device.

Detailed Description

The monitoring device mentioned in the embodiment of the invention is not limited to a monitor, and can also be an invasive/noninvasive ventilator with a monitoring function, an anesthesia machine, a nurse station, a central station and other devices.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Referring to fig. 1, a method for responding to a touch operation applied to a monitoring device in an embodiment of the present invention is described in detail below, and includes:

step 101, displaying a first touch display area on a display interface.

In this embodiment, a first touch display area may be displayed on a display interface of the monitoring device, and the first touch display area may display monitoring information corresponding to at least one physiological parameter of the monitored subject. It can be understood that the first touch display area may display monitoring information of each physiological parameter, and may also support a user to perform a touch operation.

It should be noted that the monitoring device may acquire the acquisition signal of each physiological parameter through a sensor connected to a human body, and then the monitoring device may convert the acquired acquisition signal of each physiological parameter into an electrical signal, perform preprocessing such as interference suppression, signal filtering and amplification, and finally acquire the monitoring information of each physiological parameter.

And 102, acquiring a first touch operation instruction input by a user through a first touch display area.

In this embodiment, the monitoring device may acquire, in the first touch display area, a first touch operation instruction input by the user, where the first touch operation instruction at least includes a first touch trajectory and a second touch trajectory, the first touch trajectory includes a first start point and a first end point, and the second touch trajectory includes a second start point and a second end point. It is to be understood that the at least two touch tracks included in the first touch operation instruction may be generated by two fingers of the user sliding in the first touch display area at the same time.

Step 103, acquiring a first distance between the first starting point and the second starting point and a second distance between the first ending point and the second ending point based on the first touch operation instruction.

In this embodiment, the monitoring device may obtain a first distance between the first start point and the second start point and a second distance between the first end point and the second end point based on the first touch operation instruction input by the user.

And 104, if the second distance is greater than the first distance, displaying a second touch display area.

In this embodiment, after the monitoring device obtains the first distance and the second distance, the monitoring device compares the first distance and the second distance, and if the second distance is greater than the first distance, it indicates that two fingers of the user perform outward touch sliding, and then the monitoring device may display the second touch display area.

And 105, amplifying and displaying the monitoring information corresponding to the first touch operation instruction in the second touch display area.

In this embodiment, the monitoring device may display the monitoring information corresponding to the first touch operation instruction in the second touch display area in an enlarged manner. It should be noted that the magnification factor for magnifying and displaying the monitoring information may be directly proportional to the length of the first touch trajectory, may also be directly proportional to the length of the second touch trajectory, or may be directly proportional to the sum of the lengths of the first touch trajectory and the second touch trajectory, and the specific description is not limited herein.

In the embodiment of the present invention, a monitoring device displays a first touch display area on a display interface, where the first touch display area is used to display monitoring information corresponding to at least one physiological parameter of a monitored subject, and then the monitoring device obtains a first touch operation instruction input by a user through the first touch display area, where the first touch operation instruction at least includes a first touch trajectory and a second touch trajectory, the first touch trajectory includes a first start point and a first end point, and the second touch trajectory includes a second start point and a second end point, and further, based on the first touch operation instruction, the monitoring device obtains a first distance between the first start point and the second start point and a second distance between the first end point and the second end point, and if the second distance is greater than the first distance, the monitoring device displays the second touch display area and displays the monitoring information corresponding to the first touch operation instruction in the second touch display area in an amplified manner. By the mode, the monitoring equipment can amplify and display part of monitoring information selected by the user according to the touch operation instruction of the user, so that the user can know the corresponding monitoring information more intuitively and accurately, and the user experience is improved.

The manner of touch operation in the present invention is further described below with reference to the accompanying drawings:

referring to fig. 2, an operation gesture of the user inputting the first touch operation instruction in the first touch display area may be specifically as shown in fig. 2, that is, two fingers of the user perform touch sliding outwards at the same time.

Referring to fig. 3, a distance between two fingers before the touch slide is a first distance, and a distance between two fingers after the touch slide is a second distance.

The display area in the display interface of the present invention is further described with reference to the accompanying drawings:

referring to fig. 4, the first touch display area may be as shown in fig. 4, and the first touch display area includes at least one of a waveform touch display area, a numerical touch display area, and a trend touch display area. The monitoring information comprises at least one of waveform monitoring information, numerical monitoring information and first trend monitoring information in a first time period corresponding to at least one physiological parameter of a monitored object. It can be understood that the waveform touch display area is used for displaying waveform monitoring information, the numerical touch display area is used for displaying numerical monitoring information, and the trend touch display area is used for displaying first trend monitoring information in a first time period.

Optionally, N dedicated touch display areas corresponding to N physiological parameters are divided in the waveform touch display area, the numerical touch display area and the trend touch display area according to different types of the physiological parameters, where N is an integer greater than or equal to 1. As shown in fig. 4, the digital touch display area includes waveform monitoring information of three different physiological parameters, namely blood oxygen, heart rate and blood pressure, and the above 3 physiological parameters respectively correspond to the 3 dedicated touch display areas. It is understood that, a user may input a first touch operation instruction through one of the dedicated touch display areas, and then the monitoring information displayed in the dedicated touch display area will be displayed in an enlarged manner in the second touch display area.

Optionally, the second touch-control area may be suspended on a display interface of the monitoring device. As shown in fig. 5, when the user inputs a first touch operation instruction in the dedicated touch display area corresponding to the heart rate, the monitoring device generates a second touch display area suspended on the display interface for displaying the heart rate value in an enlarged manner. The second touch area is suspended on the display interface of the monitoring device, and partial monitoring information can be displayed in an amplifying mode on the premise that the original display interface of the monitoring device is not changed.

It should be noted that, the user may drag the second touch display area suspended on the display interface through touch operation, so that the user may view a part of the monitoring information blocked by the second touch display area while displaying the second touch display area according to the selection of the user.

It should be noted that, there may be various ways for the monitoring device to determine that the user inputs the first touch operation instruction in one of the dedicated touch display areas, for example, if the first touch trajectory and the second touch trajectory are both located in the dedicated touch display area, the monitoring device determines that the user inputs the first touch operation instruction in the dedicated touch display area, or if the first start point and the second start point are both located in the dedicated touch display area, the monitoring device determines that the user inputs the first touch operation instruction in the dedicated touch display area, which is not limited herein.

Optionally, after the monitoring device performs amplification display on the monitoring information selected by the user in the second touch display area, the monitoring device may further obtain a fifth touch operation instruction input by the user through the second touch display area, where the fifth touch operation instruction includes a seventh touch track and an eighth touch track, the seventh touch track includes a seventh start point and a seventh end point, and the eighth touch track includes an eighth start point and an eighth end point; the monitoring device further acquires a seventh distance between the seventh starting point and the eighth starting point and an eighth distance between the seventh terminating point and the eighth terminating point based on the fifth touch operation instruction; if the seventh distance is greater than the eighth distance, the monitoring device closes the second touch display area and displays the first touch display area. Specifically, the operation gesture of the fifth touch operation instruction may be as shown in fig. 6, that is, two fingers of the user slide inward at the same time, the monitoring device closes the second touch display area according to the fifth touch operation instruction, returns to the previously displayed first touch display area, and does not amplify and display the monitoring information selected by the previous user any more.

Optionally, if the user is a first touch operation instruction input in the trend touch display area, the monitoring device may display, in addition to the first trend monitoring information within the first time period in the enlarged display portion in the second touch area, second trend monitoring information within a second time period in the first touch display area, where a time length of the second time period is greater than the first time period. For example, the first time period is 9 shown in fig. 4: 00 to 11:00 for 2 hours, then the second time period may be 9: for 4 hours from 00 to 13: 00. Namely, the monitoring device can amplify the trend graph according to the first touch operation instruction input by the user, and expand the short trend graph into the long trend graph, so that the user can conveniently check monitoring data in a longer time period.

Optionally, the display interface of the monitoring device may further include a third touch display area, where the third touch display area is used to display an entry of a historical waveform corresponding to the physiological parameter of the monitored subject, the monitoring device may obtain a second touch operation instruction input by the user through the third touch display area, and further display a fourth touch display area based on the second touch operation instruction, where the fourth touch display area is a display area displaying the historical waveform corresponding to the physiological parameter, and then the monitoring device obtains a third touch operation instruction input by the user through the fourth touch display area, where the third touch operation instruction includes a third touch trajectory and a fourth touch trajectory, the third touch trajectory includes a third start point and a third end point, and the fourth touch trajectory includes a fourth start point and a fourth end point; the monitoring equipment also acquires a third distance between a third starting point and a fourth distance between a third termination point and a fourth termination point; if the fourth distance is greater than the third distance, the monitoring device displays the historical waveform of the physiological parameter in a fourth time period in a fourth touch display area, wherein the time length of the fourth time period is less than the third time period.

It should be noted that the monitoring device may first display the global historical waveform of the physiological parameter according to a second touch operation instruction input by the user at the historical waveform entry, and then, if the user wishes to further view details in the global historical waveform, the monitoring device may further display a local historical waveform in the global historical waveform corresponding to the physiological parameter according to a third touch operation instruction input by the user. The global history waveform may be as shown in fig. 7, and the local history waveform may be as shown in fig. 8, and it is understood that the fourth time period corresponding to the local history waveform is less than the third time period corresponding to the entire history waveform. The user can switch between the global historical waveform and the local historical waveform of the physiological parameter through the amplified or reduced touch gesture, so that the operation of the user is facilitated, and the experience of the user is improved.

Optionally, the monitoring device may further switch an operating mode of the monitoring device in response to an operation instruction input by an operator, specifically, the operating mode may include one or more of setting information of display content and/or display layout of a display interface of the monitoring device, setting information of a monitoring process of the monitored subject, and alarm setting information of the physiological sign parameter.

Optionally, the display interface of the monitoring device may further include a fifth touch display area, where the fifth touch display area is used to display print information corresponding to the physiological parameter of the monitored subject, and the monitoring device may acquire a fourth touch operation instruction input by the user through the fifth touch display area, where the fourth touch operation instruction includes a fifth touch trajectory and a sixth touch trajectory, the fifth touch trajectory includes a fifth start point and a fifth end point, and the sixth touch trajectory includes a sixth start point and a sixth end point; the monitoring device further acquires a fifth distance between the fifth starting point and the sixth starting point and a sixth distance between the fifth terminating point and the sixth terminating point based on the fourth touch operation instruction; and if the sixth distance is greater than the fifth distance, the monitoring device enlarges and displays the display information in the fifth touch display area.

The following describes an application scenario of the monitoring device for performing enlarged display on the print information by using a specific embodiment:

referring to fig. 9, a method for responding to a touch operation applied to a monitoring device in an embodiment of the present invention includes:

and step 901, generating printing information corresponding to the physiological parameters of the monitored object according to the user instruction.

In this embodiment, the monitoring device may freeze a real-time display screen of the monitoring device according to a user instruction and generate print information corresponding to a physiological parameter of a monitored object, that is, the print information may include monitoring data of the physiological parameter of the monitored object.

And step 902, displaying printing information in a printing touch display area suspended on the display interface.

In this embodiment, the monitoring device may generate a printing touch display area suspended on the display interface for displaying the printing information, and the printing touch display area may be specifically as shown in fig. 10.

Step 903, acquiring a first touch operation instruction input by a user through the printing touch display area.

In this embodiment, the first touch operation instruction at least includes a first touch trajectory and a second touch trajectory, where the first touch trajectory includes a first start point and a first end point, and the second touch trajectory includes a second start point and a second end point. It is to be understood that the at least two touch tracks included in the first touch operation instruction may be generated by two fingers of the user sliding in the first touch display area at the same time. The operation gesture of the first touch operation instruction may be specifically as shown in fig. 2, and is not described herein again.

Step 904, based on the first touch operation instruction, obtaining a first distance between the first starting point and the second starting point and a second distance between the first ending point and the second ending point.

In this embodiment, the monitoring device may obtain a first distance between the first start point and the second start point and a second distance between the first end point and the second end point based on the first touch operation instruction input by the user. The description of the first distance and the second distance is similar to the description corresponding to fig. 3, and is not repeated here.

And 905, if the second distance is greater than the first distance, amplifying and displaying the printing information in the printing touch display area.

In this embodiment, after the monitoring device obtains the first distance and the second distance, the monitoring device compares the first distance and the second distance, and if the second distance is greater than the first distance, it indicates that two fingers of the user perform outward touch sliding, and then the monitoring device may enlarge and display the print information in the print touch display area. It should be noted that the magnification factor for magnifying and displaying the print information may be directly proportional to the length of the first touch trajectory, may also be directly proportional to the length of the second touch trajectory, or may also be directly proportional to the sum of the lengths of the first touch trajectory and the second touch trajectory, and the specific details are not limited herein.

In the embodiment, the monitoring device supports amplification of the printing information, so that a user can conveniently check and modify details in the printing information as required, and the user experience is improved.

Optionally, if the second distance is greater than the first distance, that is, if the user performs a gesture operation of zooming in on the print touch display area, the monitoring device may further display at least one of monitoring data of the physiological parameter and a waveform of the physiological parameter in the print touch display area. For example, when the user performs a gesture operation of zooming in on the printed touch display area shown in fig. 10, the monitoring data and the waveform of the relevant physiological parameter may be displayed in the printed touch display area shown in fig. 11.

Optionally, after the monitoring device amplifies the print information, the monitoring device may further obtain a second touch operation instruction input by the user through the print touch display area, where the second touch operation instruction at least includes a third touch trajectory and a fourth touch trajectory, the third touch trajectory includes a third start point and a third end point, and the fourth touch trajectory includes a fourth start point and a fourth end point; the monitoring device acquires a third distance between a third starting point and a fourth distance between a third terminating point and a fourth terminating point based on the second touch operation instruction; if the fourth distance is greater than the third distance, the monitoring device restores the amplified printing information in the printing touch display area.

The following describes in detail a monitoring device of the invention:

referring to fig. 12, the monitoring device has a separate housing with a sensor interface area on the housing panel, in which a plurality of sensor interfaces are integrated for connecting to external physiological parameter sensor accessories 111, a small display area, a display 119, an input interface circuit 122, and an alarm circuit 120 (e.g., an LED alarm area). The parameter processing module is used for communicating with the host and getting electricity from the host, and is used for an external communication and power interface. The parameter processing module also supports an external parameter insertion module, a plug-in monitoring device host can be formed by inserting the parameter insertion module and is used as a part of the monitoring device, the plug-in monitoring device host can also be connected with the host through a cable, and the external parameter insertion module is used as an external accessory of the monitoring device.

The internal circuit of the parameter processing module is disposed in the housing, as shown in fig. 5, and includes at least two signal acquisition circuits 112 corresponding to physiological parameters, a front-end signal processing circuit 113 and a processor 115, the signal acquisition circuits 112 may be selected from an electrocardiograph circuit, a respiration circuit, a body temperature circuit, a blood oxygen circuit, a non-invasive blood pressure circuit, an invasive blood pressure circuit, and the like, the signal acquisition circuits 112 are respectively electrically connected to corresponding sensor interfaces for electrically connecting to the sensor accessories 111 corresponding to different physiological parameters, an output end of the signal acquisition circuit is coupled to the front-end signal processor, a communication port of the front-end signal processor is coupled to the processor, and the processor is electrically connected to an external communication and power interface. The various physiological parameter measuring circuits can adopt a common circuit in the prior art, a front-end signal processor completes the sampling and analog-to-digital conversion of the output signal of the signal acquisition circuit and outputs a control signal to control the measuring process of the physiological signal, and the parameters include but are not limited to: electrocardio, respiration, body temperature, blood oxygen, noninvasive blood pressure and invasive blood pressure parameters. The front-end signal processor can be realized by adopting a singlechip or other semiconductor devices. The front-end signal processor may be powered by an isolated power supply, and the sampled data may be sent to the processor through an isolated communication interface after being simply processed and packaged, for example, the front-end signal processor circuit may be coupled to the processor 115 through the isolated power supply and communication interface 114. The reason that the front-end signal processor is supplied with power by the isolation power supply is that the DC/DC power supply is isolated by the transformer, which plays a role in isolating the patient from the power supply equipment, and mainly aims at: 1. isolating the patient, and floating the application part through an isolation transformer to ensure that the leakage current of the patient is small enough; 2. the voltage or energy when defibrillation or electrotome is applied is prevented from influencing board cards and devices of intermediate circuits such as a main control board and the like (guaranteed by creepage distance and electric clearance). The processor completes the calculation of the physiological parameters and sends the calculation results and waveforms of the parameters to a host (such as a host with a display, a PC, a central station, etc.) through an external communication and power interface 116, which may be one or a combination of an Ethernet (Ethernet), a Token Ring (Token Ring), a Token Bus (Token Bus) and a local area network interface composed of a backbone Fiber Distributed Data Interface (FDDI) as the three networks, one or a combination of wireless interfaces such as infrared, bluetooth, wifi, WMTS communication, etc., or one or a combination of wired data connection interfaces such as RS232, USB, etc. The external communication and power interface 116 may also be one or a combination of a wireless data transmission interface and a wired data transmission interface. The host can be any computer equipment of a host machine, an electrocardiograph, an ultrasonic diagnostic apparatus, a computer and the like of the monitoring equipment, and matched software is installed to form the monitoring equipment. The host can also be communication equipment such as a mobile phone, and the parameter processing module sends data to the mobile phone supporting Bluetooth communication through the Bluetooth interface to realize remote transmission of the data.

Specifically, the display 119 is used to configure display information according to instructions of the processor 115;

the processor 115 executes program instructions to implement the following steps:

acquiring printing information corresponding to physiological parameters according to the physiological parameters of a monitored object;

In one embodiment, the processor 115 is configured to:

and if the second distance is greater than the first distance, displaying at least one of the monitoring data of the physiological parameter and the waveform of the physiological parameter in the printing touch display area.

In one embodiment, the processor 115 is configured to:

acquiring a second touch operation instruction input by a user through the printing touch display area, wherein the second touch operation instruction at least comprises a third touch track and a fourth touch track, the third touch track comprises a third starting point and a third ending point, and the fourth touch track comprises a fourth starting point and a fourth ending point;

acquiring a third distance between the third starting point and the fourth starting point and a fourth distance between the third terminating point and the fourth terminating point based on the second touch operation instruction;

and if the fourth distance is greater than the third distance, restoring the amplified printing information in the printing touch display area.

Further, the processor 115 may execute program instructions to implement the steps of:

In an embodiment, the monitoring information includes at least one of waveform monitoring information, numerical monitoring information and first trend monitoring information corresponding to at least one physiological parameter of the monitored subject in a first time period.

In an embodiment, the first touch display area includes at least one of a waveform touch display area, a numerical touch display area and a trend touch display area, where the waveform touch display area is configured to display the waveform monitoring information, the numerical touch display area is configured to display the numerical monitoring information, and the trend touch display area is configured to display first trend monitoring information in the first time period.

In an embodiment, the waveform touch display area, the numerical touch display area and the trend touch display area are divided into N dedicated touch display areas corresponding to N physiological parameters according to different types of the physiological parameters, where N is an integer greater than or equal to 1.

In one embodiment, the processor 115 is configured to:

acquiring a first touch operation instruction input by a user through one of the N special touch display areas;

and amplifying and displaying the monitoring information corresponding to the physiological parameters displayed in the special touch display area in the second touch area.

In one embodiment, if the monitoring information is the trend monitoring information, the processor 115 is configured to:

and displaying second trend monitoring information in a second time period in the first touch display area, wherein the time length of the second time period is greater than the first time period.

In an embodiment, the second touch display area is suspended on the display interface.

In one embodiment, the processor 115 is configured to:

switching an operating mode of the monitoring device, the operating mode determining one or more of:

setting information of display content and/or display layout of the display interface of the monitoring equipment;

setting information of a monitoring process of the monitored object;

and alarm setting information of the physiological sign parameters.

In an embodiment, the display interface further includes a third touch display area, the third touch display area is used for displaying an entry of a historical waveform corresponding to the physiological parameter of the monitored subject, and the processor 115 is configured to:

acquiring a second touch operation instruction input by a user through the third touch display area;

displaying a fourth touch display area based on the second touch operation instruction;

displaying a historical waveform of the physiological parameter in a third time period in the fourth touch display area;

acquiring a third touch operation instruction input by a user through the fourth touch display area, wherein the third touch operation instruction comprises a third touch track and a fourth touch track, the third touch track comprises a third starting point and a third ending point, and the fourth touch track comprises a fourth starting point and a fourth ending point;

acquiring a third distance between the third starting point and the fourth starting point and a fourth distance between the third terminating point and the fourth terminating point;

if the fourth distance is greater than the third distance, displaying a historical waveform of the physiological parameter in a fourth time period in the fourth touch display area, wherein the time length of the fourth time period is less than the third time period.

In an embodiment, the display interface further includes a fifth touch display area, where the fifth touch display area is used to display print information corresponding to the physiological parameter of the monitored subject, and the processor 115 is configured to:

acquiring a fourth touch operation instruction input by a user through the fifth touch display area, wherein the fourth touch operation instruction comprises a fifth touch track and a sixth touch track, the fifth touch track comprises a fifth starting point and a fifth ending point, and the sixth touch track comprises a sixth starting point and a sixth ending point;

acquiring a fifth distance between the fifth starting point and the sixth starting point and a sixth distance between the fifth terminating point and the sixth terminating point based on the fourth touch operation instruction;

and if the sixth distance is greater than the fifth distance, enlarging and displaying the display information in the fifth touch display area.

In one embodiment, the processor 115 is configured to:

acquiring a fifth touch operation instruction input by a user through the second touch display area, wherein the fifth touch operation instruction comprises a seventh touch track and an eighth touch track, the seventh touch track comprises a seventh starting point and a seventh ending point, and the eighth touch track comprises an eighth starting point and an eighth ending point;

acquiring a seventh distance between the seventh starting point and the eighth starting point and an eighth distance between the seventh terminating point and the eighth terminating point based on the fifth touch operation instruction;

if the seventh distance is greater than the eighth distance, closing the second touch display area and displaying the first touch display area.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

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

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to 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), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims

A method for responding to touch operation applied to a monitoring device, comprising:

generating printing information corresponding to the physiological parameters of the monitored object according to the user instruction;

displaying the printing information in a printing touch display area suspended on a display interface;

acquiring a first touch operation instruction input by a user through the printing touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point;

acquiring a first distance between the first starting point and the second starting point and a second distance between the first termination point and the second termination point based on the first touch operation instruction;

and if the second distance is greater than the first distance, the printing information is displayed in the printing touch display area in an enlarged mode.
The method of claim 1, further comprising:

and if the second distance is greater than the first distance, displaying at least one of the monitoring data of the physiological parameter and the waveform of the physiological parameter in the printing touch display area.
The method of claim 1, wherein after the print touch display area displays the print information in an enlarged manner, the method further comprises:

acquiring a second touch operation instruction input by a user through the printing touch display area, wherein the second touch operation instruction at least comprises a third touch track and a fourth touch track, the third touch track comprises a third starting point and a third ending point, and the fourth touch track comprises a fourth starting point and a fourth ending point;

acquiring a third distance between the third starting point and the fourth starting point and a fourth distance between the third terminating point and the fourth terminating point based on the second touch operation instruction;

and if the fourth distance is greater than the third distance, restoring the amplified printing information in the printing touch display area.
A method for responding to touch operation applied to a monitoring device, comprising:

displaying a first touch display area on a display interface, wherein the first touch display area is used for displaying monitoring information corresponding to at least one physiological parameter of a monitored object;

acquiring a first touch operation instruction input by a user through the first touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point;

acquiring a first distance between the first starting point and the second starting point and a second distance between the first termination point and the second termination point based on the first touch operation instruction;

if the second distance is greater than the first distance, displaying a second touch display area;

and amplifying and displaying the monitoring information corresponding to the first touch operation instruction in the second touch display area.
The method according to claim 4, wherein the monitoring information includes at least one of waveform monitoring information, numerical monitoring information and first trend monitoring information in a first time period corresponding to at least one physiological parameter of the monitoring subject, and the first touch display area includes at least one of a waveform touch display area, a numerical touch display area and a trend touch display area, wherein the waveform touch display area is used for displaying the waveform monitoring information, the numerical touch display area is used for displaying the numerical monitoring information, and the trend touch display area is used for displaying the first trend monitoring information in the first time period.
The method according to claim 5, wherein the waveform touch display area, the numerical touch display area and the trend touch display area are divided into N dedicated touch display areas corresponding to N physiological parameters according to different types of the physiological parameters, wherein N is an integer greater than or equal to 1.
The method of claim 6, wherein obtaining a first touch operation instruction input by a user through the first touch display area comprises:

acquiring a first touch operation instruction input by a user through one of the N special touch display areas;

the amplifying and displaying of the monitoring information in the second touch display area comprises:

and amplifying and displaying the monitoring information corresponding to the physiological parameters displayed in the special touch display area in the second touch area.
The method of claim 5, wherein if the monitoring information is the trend monitoring information, the method further comprises:

and displaying second trend monitoring information in a second time period in the first touch display area, wherein the time length of the second time period is greater than the first time period.
The method according to any one of claims 4 to 8, wherein the second touch display area is suspended on the display interface.
The method according to any one of claims 4 to 8, further comprising:

switching an operating mode of the monitoring device, the operating mode determining one or more of:

setting information of display content and/or display layout of the display interface of the monitoring equipment;

setting information of a monitoring process of the monitored object;

and alarm setting information of the physiological sign parameters.
The method of claim 4, wherein the display interface further comprises a third touch display area for displaying an entry of a historical waveform corresponding to the physiological parameter of the monitored subject, and the method further comprises:

acquiring a second touch operation instruction input by a user through the third touch display area;

displaying a fourth touch display area based on the second touch operation instruction;

displaying a historical waveform of the physiological parameter in a third time period in the fourth touch display area;

acquiring a third touch operation instruction input by a user through the fourth touch display area, wherein the third touch operation instruction comprises a third touch track and a fourth touch track, the third touch track comprises a third starting point and a third ending point, and the fourth touch track comprises a fourth starting point and a fourth ending point;

acquiring a third distance between the third starting point and the fourth starting point and a fourth distance between the third terminating point and the fourth terminating point;

if the fourth distance is greater than the third distance, displaying a historical waveform of the physiological parameter in a fourth time period in the fourth touch display area, wherein the time length of the fourth time period is less than the third time period.
The method according to claim 4, wherein the display interface further includes a fifth touch display area, and the fifth touch display area is used for displaying the print information corresponding to the physiological parameter of the monitored subject, and the method further includes:

acquiring a fourth touch operation instruction input by a user through the fifth touch display area, wherein the fourth touch operation instruction comprises a fifth touch track and a sixth touch track, the fifth touch track comprises a fifth starting point and a fifth ending point, and the sixth touch track comprises a sixth starting point and a sixth ending point;

acquiring a fifth distance between the fifth starting point and the sixth starting point and a sixth distance between the fifth terminating point and the sixth terminating point based on the fourth touch operation instruction;

and if the sixth distance is greater than the fifth distance, enlarging and displaying the display information in the fifth touch display area.
The method of claim 4, further comprising:

acquiring a fifth touch operation instruction input by a user through the second touch display area, wherein the fifth touch operation instruction comprises a seventh touch track and an eighth touch track, the seventh touch track comprises a seventh starting point and a seventh ending point, and the eighth touch track comprises an eighth starting point and an eighth ending point;

acquiring a seventh distance between the seventh starting point and the eighth starting point and an eighth distance between the seventh terminating point and the eighth terminating point based on the fifth touch operation instruction;

if the seventh distance is greater than the eighth distance, closing the second touch display area and displaying the first touch display area.
A monitoring device, comprising:

a display configured to display information; and

a processor executing program instructions to implement the steps of:

generating printing information corresponding to the physiological parameters of the monitored object according to the user instruction;

displaying the printing information in a printing touch display area suspended on a display interface;

acquiring a first touch operation instruction input by a user through the printing touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point;

acquiring a first distance between the first starting point and the second starting point and a second distance between the first termination point and the second termination point based on the first touch operation instruction;

and if the second distance is greater than the first distance, the printing information is displayed in the printing touch display area in an enlarged mode.
The monitoring device of claim 14, wherein the processor is configured to:

and if the second distance is greater than the first distance, displaying at least one of the monitoring data of the physiological parameter and the waveform of the physiological parameter in the printing touch display area.
The monitoring device of claim 14, wherein the processor is configured to:

acquiring a second touch operation instruction input by a user through the printing touch display area, wherein the second touch operation instruction at least comprises a third touch track and a fourth touch track, the third touch track comprises a third starting point and a third ending point, and the fourth touch track comprises a fourth starting point and a fourth ending point;

acquiring a third distance between the third starting point and the fourth starting point and a fourth distance between the third terminating point and the fourth terminating point based on the second touch operation instruction;

and if the fourth distance is greater than the third distance, restoring the amplified printing information in the printing touch display area.
A monitoring device, comprising:

a display configured to display information; and

a processor executing program instructions to implement the steps of:

displaying a first touch display area on a display interface, wherein the first touch display area is used for displaying monitoring information corresponding to at least one physiological parameter of a monitored object;

acquiring a first touch operation instruction input by a user through the first touch display area, wherein the first touch operation instruction at least comprises a first touch track and a second touch track, the first touch track comprises a first starting point and a first ending point, and the second touch track comprises a second starting point and a second ending point;

acquiring a first distance between the first starting point and the second starting point and a second distance between the first termination point and the second termination point based on the first touch operation instruction;

if the second distance is greater than the first distance, displaying a second touch display area;

and amplifying and displaying the monitoring information corresponding to the first touch operation instruction in the second touch display area.
The monitoring device of claim 17, wherein the monitoring information includes at least one of waveform monitoring information, numerical monitoring information and first trend monitoring information during a first time period corresponding to at least one physiological parameter of the monitored subject, and the first touch display area includes at least one of a waveform touch display area, a numerical touch display area and a trend touch display area, wherein the waveform touch display area is configured to display the waveform monitoring information, the numerical touch display area is configured to display the numerical monitoring information, and the trend touch display area is configured to display the first trend monitoring information during the first time period.
The monitoring device of claim 18, wherein the waveform touch display area, the numerical touch display area, and the trend touch display area are divided into N dedicated touch display areas corresponding to N physiological parameters according to different types of physiological parameters, where N is an integer greater than or equal to 1.
The monitoring device of claim 19, wherein the processor is configured to:

acquiring a first touch operation instruction input by a user through one of the N special touch display areas;

and amplifying and displaying the monitoring information corresponding to the physiological parameters displayed in the special touch display area in the second touch area.
The monitoring device of claim 18, wherein if the monitoring information is the trend monitoring information, the processor is configured to:

and displaying second trend monitoring information in a second time period in the first touch display area, wherein the time length of the second time period is greater than the first time period.
The monitoring device of any one of claims 17-21, wherein the second touch-sensitive display area is suspended on the display interface.
The monitoring device of any one of claims 17 to 21, wherein the processor is configured to:

switching an operating mode of the monitoring device, the operating mode determining one or more of:

setting information of display content and/or display layout of the display interface of the monitoring equipment;

setting information of a monitoring process of the monitored object;

and alarm setting information of the physiological sign parameters.
The monitoring device of claim 17, wherein the display interface further comprises a third touch-sensitive display area for displaying an entry of a historical waveform corresponding to the physiological parameter of the monitored subject, and wherein the processor is configured to:

acquiring a second touch operation instruction input by a user through the third touch display area;

displaying a fourth touch display area based on the second touch operation instruction;

displaying a historical waveform of the physiological parameter in a third time period in the fourth touch display area;

acquiring a third touch operation instruction input by a user through the fourth touch display area, wherein the third touch operation instruction comprises a third touch track and a fourth touch track, the third touch track comprises a third starting point and a third ending point, and the fourth touch track comprises a fourth starting point and a fourth ending point;

acquiring a third distance between the third starting point and the fourth starting point and a fourth distance between the third terminating point and the fourth terminating point;

if the fourth distance is greater than the third distance, displaying a historical waveform of the physiological parameter in a fourth time period in the fourth touch display area, wherein the time length of the fourth time period is less than the third time period.
The monitoring device of claim 17, wherein the display interface further comprises a fifth touch display area for displaying printed information corresponding to the physiological parameter of the monitored subject, and the processor is configured to:

acquiring a fourth touch operation instruction input by a user through the fifth touch display area, wherein the fourth touch operation instruction comprises a fifth touch track and a sixth touch track, the fifth touch track comprises a fifth starting point and a fifth ending point, and the sixth touch track comprises a sixth starting point and a sixth ending point;

acquiring a fifth distance between the fifth starting point and the sixth starting point and a sixth distance between the fifth terminating point and the sixth terminating point based on the fourth touch operation instruction;

and if the sixth distance is greater than the fifth distance, enlarging and displaying the display information in the fifth touch display area.
The monitoring device of claim 17, wherein the processor is configured to:

acquiring a fifth touch operation instruction input by a user through the second touch display area, wherein the fifth touch operation instruction comprises a seventh touch track and an eighth touch track, the seventh touch track comprises a seventh starting point and a seventh ending point, and the eighth touch track comprises an eighth starting point and an eighth ending point;

acquiring a seventh distance between the seventh starting point and the eighth starting point and an eighth distance between the seventh terminating point and the eighth terminating point based on the fifth touch operation instruction;

if the seventh distance is greater than the eighth distance, closing the second touch display area and displaying the first touch display area.
A computer-readable storage medium comprising instructions that, when executed on a computer, cause the computer to perform the method of any of claims 1 to 13.