CN112345122A - Industrial instrument equipment and interface operation method thereof - Google Patents

Abstract

The invention provides an industrial instrument device and an interface operation method thereof, wherein the industrial instrument device comprises: at least 2 channels for measuring, outputting or controlling physical quantities; the touch display screen can display information and a user operation interface of at least 2 channels; and the control unit can control the display and the user operation interface of the touch display screen, the touch display screen can display a main display operation area and a status bar area, the main display operation area can display current information and command buttons of at least 2 channels, the status bar area can display channel display buttons of at least 2 channels, the channel display buttons can switch the display and non-display of the corresponding channels, and the control unit can divide the main display operation area into a channel area with a larger area of at least 1 and a channel area with a smaller area of at least 1 according to the use frequency and/or importance of the at least 2 channels or according to the instruction of a user.

Description

Industrial instrument equipment and interface operation method thereof

Technical Field

The present invention relates to an industrial instrument device and an interface operation method thereof, and more particularly, to a pressure instrument, a temperature instrument calibration device and an interface operation method thereof.

Background

The existing intelligent pressure instrument and temperature instrument calibration equipment fixes two channels or two area display modes on a system interface according to most conditions of functions and use environments. Next, a display mode of an interface of a conventional intelligent pressure instrument calibration device will be described by taking the example as an example.

Fig. 1 is a diagram illustrating division of a main screen display area of a conventional intelligent pressure meter verification apparatus. As shown in fig. 1, in the use process of the existing intelligent pressure instrument calibration device, a main display area is divided into two fixed channels for display, wherein the first channel is a pressure measurement channel, the second channel is a pressure control channel, and the two channels are displayed in equal areas.

Similarly, the conventional intelligent temperature meter calibration device divides the main display area into two fixed areas, wherein the area is a temperature measurement area including two channels, and the area is a temperature control area including two channels. With respect to the above-mentioned smart temperature meter calibration device, although each zone includes two channels, the channel allocation is fixed and the two zones are not adjustable up and down. The user can only operate in a fixed proportion of the area.

Disclosure of Invention

Problems to be solved by the invention

With the popularization and application of industrial intelligent equipment and the development of display screen technology, the functions of instruments are more and more abundant, the resolution of screens is continuously increased, the operation habits of users are gradually changed, and the interface mode of fixing the dead plate is not suitable for the requirements of modern industrial users and future products. Therefore, the prior art causes that the product function expansibility is limited, the service performance is poor, and the requirements and implicit requirements of users are difficult to meet. For example, the number of channels and functions of pressure and temperature meter verification equipment are increasing, and the fixed channel display mode is difficult to cope with the increasing number of channels and functions.

Specifically, the main display area is not divided into primary and secondary display areas, and thus it is difficult to reasonably display more channels in the main display area as the number of channels increases with the increase in functions.

In addition, use external socket in the pressure instrument with this instrument equipment interconnect use or open the enabling state of function channel in the use of other orders can't be known in real time.

On the other hand, the existing product only divides two fixed operation channels according to functions, does not consider flexible collocation and use among the multifunctional channels, and is not very flexible in selection of the detected types and collocation among the channels. For complex function operation, the user can only select and match the complex function operation by using a key.

The user is required to enter the channel for selection or editing through different levels of operation modes. The operation mode is to realize the operation of different functional channels and the operation of commands through layer-by-layer commands, and the process is complicated. Multi-level command selection reduces work efficiency.

The present invention provides an industrial instrument and an interface operation method thereof, which can make the operation and display of interfaces of intelligent pressure instruments and temperature instruments become flexible and convenient, and improve the usability of the instruments and the working efficiency of users.

Means for solving the problems

In order to solve the above technical problem, the present invention provides an industrial instrumentation, comprising: at least 2 channels for measuring, outputting or controlling physical quantities; the touch display screen can display the information of the at least 2 channels and a user operation interface; and a control unit capable of controlling display and a user operation interface of the touch display screen, wherein the touch display screen is capable of displaying a main display operation area and a status bar area, the main display operation area is capable of displaying current information and command buttons of the at least 2 channels, the status bar area is capable of displaying channel display buttons of the at least 2 channels, the channel display buttons are capable of switching display and non-display of the channels corresponding to the channel display buttons, and the control unit is capable of dividing the main display operation area into a channel area with a larger area of at least 1 and a channel area with a smaller area of at least 1 according to frequency and/or importance of the at least 2 channels or according to an instruction of a user. The status bar area is arranged and the channel display button is arranged in the status bar area, so that a user can switch the enabling state of the channel by triggering the channel display button in the status bar, the user can intuitively match functions at the same level, and the operation efficiency is improved. Since the main display operation area is divided into at least 1 channel area with a large area and at least 1 channel area with a small area, the information and command buttons of the channels can be clearly displayed according to the priority order by fully utilizing the display space of the display screen.

Preferably, the large area passage region is a main operation passage region, the small area passage region is an auxiliary operation passage region or a monitor passage region, and when the areas of the main operation passage region, the auxiliary operation passage region and the monitor passage region are set to S1, S2 and S3, respectively, the relationship of S1 > S2 > S3 is satisfied when the main operation passage region, the auxiliary operation passage region and the monitor passage region are simultaneously displayed.

Preferably, the control unit may further be capable of causing the main display operation region to display only one channel region in its entire area, or may be capable of causing the main display operation region to display at least two channel regions in respective equal areas. Therefore, flexible and changeable display operation functions of the industrial instrument can be realized.

Preferably, the control unit controls such that when any one of the at least 2 channels is displayed in the main display operation area, the channel display button corresponding to the channel is displayed in a first display state indicating that the channel is in an enabled state, and when the any one channel is not displayed in the main display operation area, the channel display button corresponding to the channel is displayed in a second display state indicating that the channel is in a non-enabled state. The corresponding channel can be represented in an enabled state, a non-enabled state and the like by using different display states of the channel display buttons in the status bar, so that the channel display buttons in the status bar can be used as a navigation tool, a user can clearly know the current state of each channel, and other functions can be efficiently and conveniently monitored and operated. Therefore, the display operation function and the use flexibility of the instrument product are improved, and the operation efficiency of the instrument product is improved.

Preferably, the external interface further includes an expansion interface for connecting with an external module, and the control unit controls the external interface to display a channel region including a channel of the expansion interface in the main display operation region and display a channel display button corresponding to the channel in the status bar region in a first display state indicating that the channel is in an enabled state when it is determined that the external interface is in the operating state. The corresponding channel area and the enabling state of the channel area can be automatically displayed according to the working state of the expansion interface, so that the display operation function and the use flexibility of the instrument product are further improved, and the operation efficiency of the instrument product is improved.

Preferably, at least 1 specific command key is further displayed in the status bar region, and the main display operation region can be brought into a display screen of a specific function or a display screen of a specific operation mode by operating the specific command key. The user can enter a specific function operation interface or enter a next-level interface by one key by triggering a specific command key, and can return to the previous level by clicking the key again. Compared with the existing industrial instrument equipment, the operation mode is optimized, the operation of a user is simplified, and the complex function collocation and use become more flexible.

Further, the present invention provides an interface operation method of an industrial instrument, characterized in that the industrial instrument includes: at least 2 channels for measuring, outputting or controlling physical quantities; the touch display screen can display the information of the at least 2 channels and a user operation interface; and a control unit capable of controlling display of the touch display screen and a user operation interface, the interface operation method including: a step of displaying a main display operation area and a status bar area on the touch display screen, wherein the main display operation area can display current information and command buttons of the at least 2 channels, the status bar area comprises channel display buttons of the at least 2 channels, and the channel display buttons can switch between display and non-display of the corresponding channels; judging the use frequency and/or importance of the at least 2 channels, or receiving the instruction of a user; and displaying a channel region with a larger area of at least 1 and a channel region with a smaller area of at least 1 in the main display operation region according to the frequency and/or importance of the use of the at least 2 channels or according to the instruction of a user.

Technical effects

The invention breaks through the original mode of fixing two channels or displaying two areas, provides the industrial instrument equipment and the interface operation method thereof for the user, enables the user to visually match the functions at the same level, and can clearly display the information and the command buttons of the channels according to the priority sequence by fully utilizing the display space of the display screen. In addition, the channel display buttons in the status bar can be used as navigation tools, so that a user can clearly know the current state of each channel, and other functions can be efficiently and conveniently monitored and operated. By triggering a specific command key, a specific function operation interface or a next-level interface can be entered by one key. Compared with the existing industrial instrument equipment, the operation mode is optimized, the operation of a user is simplified, and the complex function collocation and use become more flexible.

Therefore, the invention improves the use flexibility of the industrial instrument product, improves the product operation efficiency and improves the satisfaction and experience of users.

Drawings

Fig. 1 is a diagram illustrating division of a main screen display area of a conventional intelligent pressure meter verification apparatus.

Fig. 2 is a block diagram of an industrial instrumentation device according to an embodiment of the present invention.

Fig. 3 is a schematic diagram showing an operation interface layout according to an embodiment of the present invention.

Fig. 4 is a schematic diagram showing an example of the separation of the interface operation function of the industrial instrumentation device according to the present invention.

FIG. 5 is a schematic diagram showing an example of the layout area method of the channels with different attributes according to the present invention.

Fig. 6 is a flowchart showing an example of an interface operation method of the industrial instrumentation and control device according to the present invention.

Fig. 7 is a block diagram showing a gas pressure verification apparatus as an example of the industrial instrumentation device of the present invention.

Fig. 8 is a view showing one display screen of the touch display panel of the gas pressure verification apparatus shown in fig. 7.

Fig. 9 is a view showing a relationship between a channel state of the gas pressure check meter and a channel switching display.

Fig. 10 is a diagram showing a change in screen display when the user clicks the specific operation command key a.

Fig. 11 is a diagram showing a change in screen display when the user clicks the specific operation command key B.

Fig. 12 is a diagram showing a change in screen display when the user clicks the specific operation command key C.

Detailed Description

Next, embodiments of the industrial instrumentation and the interface operation method thereof according to the present invention will be described.

Fig. 2 is a block diagram of an industrial instrumentation device according to an embodiment of the present invention.

As shown in fig. 2, an industrial instrumentation device 1 according to an embodiment of the present invention includes: two channels 10 for measuring, outputting or controlling physical quantities; a touch display screen 11 capable of displaying information and a user operation interface of the 2 channels 10; and a control unit 12 capable of controlling the display and user operation interface of the touch display screen 11, and physical quantity measurement, physical quantity output, or physical quantity control operation of each channel 10. Here, the industrial instrumentation 1 shown in fig. 2 includes two channels 10 for measuring, outputting, or controlling physical quantities, but the number of channels in the industrial instrumentation 1 is not limited to 2, and may be 3 or more. The display of the touch display screen 11 and the user operation interface may be controlled by the control unit 12, and the physical quantity measurement, physical quantity output, or physical quantity control operation of each channel 10 may be controlled by another control unit.

A specific example of the industrial instrumentation of the present invention is a gas pressure gauge, and a specific configuration thereof will be described in the following embodiment with reference to fig. 7. When the channel 10 is a channel for measuring a physical quantity, such as a current, it includes a measuring circuit board or the like for measuring a current. When the passage 10 is a passage for controlling a physical quantity, for example, a gas pressure, it includes a micro gas pressure generating mechanism and the like. The channel that controls the physical quantity, for example, the channel that controls the gas pressure, includes not only a member that generates and controls the gas pressure but also a pressure interface for outputting the gas pressure to the device under test.

The touch display screen 11 may be any display screen with a touch panel, such as a liquid crystal display screen with a touch panel, or an OLED display screen with a touch panel.

The control unit 12 may be, for example, a microcomputer device including a CPU and a memory, and functions of controlling the display of the touch display screen 11 and the user operation interface and controlling the operation of each channel 10 are realized by running an appropriate program on the computer device.

Next, an industrial instrumentation and an interface operation method thereof according to an embodiment of the present invention will be described with reference to fig. 3 to 6.

(Main display operation area and status bar area)

In the industrial instrumentation device 1 according to one embodiment of the present invention, the touch display panel 11 can display a main display operation area and a status bar area. Wherein, the main display operation area can display the current information, operation command and command (function) buttons of the plurality of channels 10, and the status bar area can display the channel display buttons of the plurality of channels 10, which can switch the display and non-display of the channel 10 corresponding thereto.

In the present invention, the operation command may include some command areas that are not patterned and that may trigger the generation function. For example, the displayed numerical value, a target value of the numerical value, or the like may be set after it is triggered. Command (function) buttons refer to graphics or symbols representing the meaning of a command, such as: evacuation, measurement, control buttons (as shown in fig. 8, etc.), which may be activated by the user to generate some command instructions, etc.

Fig. 3 is a schematic diagram showing an operation interface layout according to an embodiment of the present invention. As shown in fig. 3, the operation interface of the touch display screen 11 includes a status bar area and a main display operation area. The status bar region comprises a plurality of channelsLane display button "n₁/n₂/n₃/n_5……n_x", the channel corresponding to it is" N₁/N₂/N₃/N₄/N_5……N_x". The channel display button is used for giving consideration to channel display and switching corresponding to the channel display button. The status bar area may also include a plurality of specific command keys. The specific command keys, also called shortcut keys, may be symbols or icons, and the following description refers to each specific command key as "a/B/C". The main display operation area displays current information of a plurality of channels, such as numerical values and units of physical quantities, and command buttons, etc., described below as "N₁/N₂/N₃/N₄/N_5……N_x"number" indicates each channel. Since the main operation display area is an area where current information, operation commands, command (function) buttons, and the like of a plurality of channels are displayed, the main operation display area occupies most of the area of the operation interface of the entire touch display panel 11 as shown in fig. 3.

Fig. 4 is a schematic diagram showing an example of the separation of the interface operation function of the industrial instrumentation device according to the present invention.

As shown in fig. 4, the interface operation function according to an embodiment of the present invention is split into: the triggerable channels in the status bar area (referred to simply as the status bar area in FIG. 4) display buttons, specific command keys. ② a main operation channel, an auxiliary operation channel and a monitor channel in the main operation display area (simply referred to as main display area in fig. 4). As described later, the main operation channel, the auxiliary operation channel, and the monitor channel may be channels of different attributes (attributes called "main operation channel" and the like as channels) that are distinguished according to the frequency of use by the user and/or the number of operation commands (buttons) containing influence on the whole instrument, and the like.

In the invention, the status bar area is arranged and the channel display button is arranged in the status bar area, so that a user can switch the enabling state of the channels and the sequence of channel display by triggering the channel display button in the status bar. Because the triggering channel display button can switch the enabling state of the channel display button, a user can intuitively match functions at the same level, and the operation efficiency is improved.

(layout of channel areas of different Properties)

In industrial instrumentation, each channel contains a different number of numeric values, text messages, and icons as command buttons. When a user uses a finger or other equipment (such as a touch pen or other tools) to act on a screen and interacts with an interface function, a space large enough to bear the motion of a finger tip needs to be reserved, and especially in the field of industrial instruments and meters, the proportion of fingers of users in different countries is different, and the user may wear gloves according to different working environments. Therefore, the space between the triggerable command and the command interval needs to have a large enough bearing area, so as to avoid the misoperation of a user and the difficulty in triggering the functional command, for example, the adjacent operating commands need to be kept with a minimum distance to ensure the mutual exclusion function between the commands. To this end, the industrial instrumentation of the invention determines the proportion of area occupied by the channel in the main display area, depending on, for example, the number of commands and/or the frequency of operation that have an effect on the overall operation.

Specifically, the control unit 12 can divide the main display operation area into at least a 1-area large channel area and at least a 1-area small channel area according to the frequency and/or importance of use of the plurality of channels 10 or according to an instruction of the user. Preferably, the main operation passage region is a region having a large area, and the auxiliary operation passage region or the monitor passage region is a region having a small area. That is, in the present invention, the main display operation area is divided into display areas of channels having different attributes, such as "main operation channel area", "auxiliary operation channel area", and "monitor channel area".

The importance of the channel on which the control unit 12 determines the channel attribute is, for example, the number of operation commands (buttons) included in the channel and having an effect on the entire instrument, the physical size of the included buttons, the degree of the effect of a certain function in the channel on other functions, and the like. A channel having a large number of operation commands (buttons) that affect the entire instrument, a large physical size of the included buttons, or a large degree of influence of a certain function on other functions is determined as a channel having a high importance.

The main operation channel usually contains more operation commands which have an influence on the whole instrument, the auxiliary operation channel contains fewer functions and commands than the main operation channel, and the monitor channel is used as a numerical value display channel for a user to monitor. Therefore, in a preferred embodiment, when the main operation passage region, the auxiliary operation passage region, and the monitor passage region are simultaneously displayed, the area of the main operation passage region > the area of the auxiliary operation passage region > the area of the monitor passage region.

FIG. 5 is a schematic diagram showing an example of the layout area method of the channels with different attributes according to the present invention. In the operation interface layout shown in fig. 5, N is displayed in the main operation display area₁～N₅These 5 channels. Wherein N is₃Is a main operation channel region with the largest area; n is a radical of₄And N₅Are secondary operating channel regions that are equal in area to each other and smaller than the main operating channel region. N is a radical of₁And N₂Is a monitor channel region, since the monitor channel only plays a monitoring role and only contains the function operation buttons and/or command buttons that act on the channel, their areas are smaller than the area of the auxiliary operation channel and equal to each other.

The following examples can be given as the area layout of the channels with different attributes in the present invention: n is displayed in the main operation display area₃、N₄And N₅These 3 channels. Wherein N is₃And N₄Are all main operating channel regions with equal and larger area, N₅Is an auxiliary operation channel, and the area of the auxiliary operation channel is smaller. That is, in this example, there are two main operation channel regions in the main operation display region, and there is no monitor channel region.

The user can open and close the corresponding display channel by triggering the channel display button, and the number of the channels is customized according to the requirements of the product, the use mode of the user and the user. In the process that a user triggers the channel display button, the control unit of the instrument equipment identifies and divides the main display area by judging the importance of the channel or receiving a command instruction.

The user can manually adjust or customize the position of the status bar, and the status bar is placed around the screen for the user to use in different scenes.

In addition, the display mode can be switched to a full screen display mode of a single channel according to requirements in different field use processes. That is, the control unit 12 can cause the main display operation region to display only one channel region in its entire area in accordance with an instruction of the user. In addition, the main display operation region may be switched to display at least two channel regions in respective equal areas as needed.

The invention breaks through the original mode of fixing two channels or displaying two areas, provides a convenient switching entrance for users, and the users can match the channels by themselves to complete the function use. The invention divides the main display operation area into the display areas of the channels with different attributes, such as the main operation channel area, the auxiliary operation channel area and the monitor channel area, and the display mode can clearly display the function information of the channels according to the priority sequence by fully utilizing the display space of the display screen. Further, the main display operation region may be caused to display only one channel region in its entire area, or may be switched to cause the main display operation region to display at least two channel regions in respective equal areas, as necessary. Therefore, flexible and changeable display functions of the industrial instrument can be realized.

In addition, the operation interface layout manner of the present invention is not limited to the landscape screen arrangement shown in fig. 3 and 5. According to the setting mode of the touch display screen 11, the control unit 12 can automatically or according to the instruction of the user display the operation interface layout in a vertical screen arrangement. Under the condition of vertical screen arrangement, the technical effect of the invention can be achieved.

Next, an interface operation method of the industrial instrumentation device of the present invention will be described with reference to fig. 6.

Fig. 6 is a flowchart showing an interface operation method of the industrial instrumentation device of the present invention.

As shown in fig. 6, in step 10, a step of causing the touch display screen 11 to display a main display operation area capable of displaying current information and command buttons of at least 2 channels and a status bar area including channel display buttons of at least 2 channels capable of switching display and non-display of the channels corresponding thereto. In step 20, the frequency and/or importance of the usage of at least 2 channels is determined, or an indication from the user is accepted. In step 30, at least 1 channel region having a large area and at least 1 channel region having a small area are displayed in the main display operation area according to the determination result in step 20 or according to the user's instruction. Preferably, the passage area with a larger area is a main operation passage area, and the passage area with a smaller area is an auxiliary operation passage area or a monitor passage area.

The instruction by the user in the step is not particularly limited as long as the attribute of the channel can be indicated. For example, the user may click a channel display button displayed in the status bar region, and determine the attribute of the channel according to the click order, for example, determine the channel corresponding to the channel display button that is clicked first as the main operation channel. The industrial instrumentation of the invention may further comprise a voice input unit and a voice recognition unit to accept a user's indication of the attribute of the channel by inputting and recognizing a user's voice.

By adopting the interface operation method of the industrial instrument device, the touch display screen 11 can display the main display operation area and the status bar area, the status bar area comprises a plurality of channel display buttons, and the channel display buttons can switch the display and non-display of the corresponding channels, so that a user can switch the enabling state of the channels and the display sequence of the channels by triggering the channel display buttons in the status bar. Because the triggering channel display button can switch the enabling state of the channel display button, a user can intuitively match functions at the same level, and the operation efficiency is improved. Because the main operation channel area with larger display area and the auxiliary operation channel area and/or the monitor channel area with smaller area are/is displayed in the main display operation area, the display space of the display screen can be fully utilized to clearly display the function information of the channels according to the priority sequence.

(examples)

Next, an embodiment of the industrial instrumentation of the present invention will be described by taking a gas pressure checker as an example.

Fig. 7 is a block diagram showing a gas pressure verification apparatus as an example of the industrial instrumentation device of the present invention.

As shown in fig. 7, a gas pressure verification apparatus 1' according to an example of the industrial instrumentation device of the present invention includes: a touch display screen 71 capable of displaying information of a plurality of channels and a user operation interface; a control unit 72 capable of controlling display and a user operation interface of the touch display screen 11, and physical quantity measurement, physical quantity output, or physical quantity control operation of each channel; a measurement unit 73 including a measurement circuit board and other members for measuring physical quantities such as voltage and current; an air passage control unit 74 including a micro gas pressure generating mechanism and the like; 2 external expansion interfaces 75, each capable of connecting with an external module 3; an electrical signal measurement interface 76; an electric signal output interface 77; and a pressure interface 78. The electrical signal measurement interface 76, the electrical signal output interface 77, and the pressure interface 78 can be connected to the device 2 to be inspected.

The gas pressure calibrator 1 shown in fig. 7 includes 5 channels, and the 5 channels are respectively: the device comprises a current (mA) measuring channel, a current (mA) output channel, a pressure control channel and 2 external module channels.

The correspondence between the "channel" in the present invention and each part in fig. 7 will be described by taking the current measurement channel and the external module channel as an example. The relevant part in the measurement unit 73, the electrical signal measurement interface 76 and the connected relevant part in the device under test 2 together constitute an electrical signal measurement channel. The add-on module channel, also called an expansion module channel, is formed by the relevant parts in the measurement unit 73, the add-on expansion interface 75 and the add-on module 3, for example, for range expansion and accuracy improvement.

Fig. 8 is a view showing one display screen of the touch display panel of the gas pressure verification apparatus shown in fig. 7. In the display screen shown in fig. 8, in addition to the main display operation area and the status bar area, a title bar area is displayed. In the title bar area, a title and other information can be displayed. For example, the title bar area displays the title name of the current function interface (e.g., "Main interface"), and other information such as date, time, Bluetooth connection, WiFi connection, Ethernet connection, etc.

As shown in FIG. 8, a total of 5 channels are displayed in the main display operation area, where N is₁、N₂、N₄For monitor function channels, for example: n is a radical of₁For the current (mA) measurement channel, N₂And N₄Is an external module channel. N is a radical of₁、N₂、N₄The channel comprises a digital value, a measuring range and a function selection button, and only part of self function options are contained in the channel, so that the area ratio is minimum. N is a radical of₅For the auxiliary operation channel, for example, the current (mA) output channel, the function which partially affects the whole machine and the self function options (such as the automatic step function and the function menu option) are contained, so that the area ratio is slightly larger than that of the monitor function channel. N is a radical of₃The main operating function channel, in this case the pressure control channel, includes a number of important and whole-engine-affecting operating commands, own function options such as drain, measure, control buttons, and auto-step functions and function menu options.

Step button in pressure control channel shown in FIG. 8

Is an example of a command button that affects other functions or other commands. By clicking the up arrow in the button

Or down arrow

Pressure target capable of changing pressure control channelThe value, and thus the actual pressure value in the pressure control channel, changes accordingly. The pressure target value belongs to the other command with respect to the actual pressure value in the pressure control channel.

In the present invention, the manner of adjusting the pressure target value is not limited to clicking a step button in the pressure control channel, but may also be directly clicking a pressure display value displayed in the pressure control channel. Therefore, the value displayed in the pressure control channel is not the current actual pressure value any more, but becomes the current pressure target value, and the user can directly adjust the value to quickly obtain the pressure target value desired by the user.

The "…" button shown in each channel in fig. 8 is briefly explained. The "…" button includes a plurality of functional operation buttons and/or command buttons, including: details of the current channel, command buttons to close the monitor channel, etc., all of which affect only that channel.

In the status bar region, n₁Measuring channel N for current (mA)₁Channel display button of n₂For external module channel N₂Channel display button of n₃For controlling the passage N₃Channel display button of n₄For external module channel N₄Channel display button of n₅For the current (mA) output channel N₅The channel of (2) displays a button.

Is a specific command key. In the embodiment shown in figure 8 of the drawings,

enter/exit another operating mode-View running information "shortcut key, click

The information content of the industrial instrument is displayed.

"enter/close MenuSelecting a shortcut key of the mode-diagnostic centre', clicking

And displaying the problems of the industrial instrument or a popup window requiring the system to report errors.

Enter/exit specific command key-global menu ", click

When the method is used, a certain specific function or operation can be entered by one key, and the channel entrance is quickly used for carrying out function collocation such as a 'task' mode or a calibrator mode. The function and effect of the specific command keys will be explained in more detail later with reference to fig. 10-12.

The control unit of the present invention can control such that when any one of a plurality of channels is displayed in the main display operation area, the channel display button corresponding to the channel is displayed in a first display state indicating that the channel is in an enabled state, and when any one of the channels is not displayed in the main display operation area, the channel display button corresponding to the channel is displayed in a second display state indicating that the channel is in a non-enabled state.

Preferably, the first display state is a first display luminance or a bold display, and the second display state is a second display luminance lower in luminance than the first display luminance or a non-bold display.

Fig. 9 is a view showing a relationship between a channel state of the gas pressure check meter and a channel switching display. In fig. 9, the channel display status button n₁、n₃、n₄Is highlighted (first display brightness), which indicates the corresponding functional channel N₁、N₃、N₄To enable the states, they are displayed in the main display operation area. Channel display button

Displayed as gray (second display brightness)) This means that the corresponding functional channel N is₂In a non-enabled state, it is hidden from display in the main display operation area; channel display button

For a state not shown in the status bar, this indicates the corresponding functional channel N₅Is not enabled, the function channel is not displayed in the main display operation area.

As described above, since the corresponding channel can be represented in the enabled state, the disabled state, or the disabled state by the different display states of the channel display buttons in the status bar, the channel display buttons in the status bar can be used as a navigation tool to allow a user to clearly understand the current state of each channel. Therefore, the flexibility of the use function of the instrument product is improved, the product operation efficiency is improved, and the satisfaction degree and the experience feeling of a user are improved.

The gas pressure verifier 1' shown in fig. 7 comprises also 2 external expansion interfaces 75, each connectable to an external module 3. The control unit 72 is capable of controlling so that, when it is determined that the external expansion interface 75 is in the operating state, a channel region including a channel of the external expansion interface is displayed in the main display operation region, and a channel display button corresponding to the channel is displayed in the status bar region in a first display state indicating that the channel is in the enabled state.

The corresponding channel area and the enabling state of the channel area can be automatically displayed according to the working state of the external expansion interface, so that the display operation function and the use flexibility of the instrument product are further improved, and the operation efficiency of the instrument product is improved.

Next, the operation and effect of the specific command key in the present invention will be described with reference to fig. 10 to 12.

The user can bring the main display operation area into a display screen of a specific function or a display screen of a specific operation mode by activating a specific command key (e.g., a/B/C shown in fig. 3, 5, etc.). After triggering a specific command key, the interface jumps to the next level or is displayed in a popup window, and the user can enter, for example, a check meter mode or a custom collocation mode.

In the examples shown in fig. 10 to 12, the specific operation command keys A, B, C are short-cut keys for "enter/exit another operation mode", "enter/close menu selection mode", and "enter/exit custom collocation mode", respectively.

Fig. 10 shows a change in screen display when the user clicks a specific operation command key a. When the user clicks a specific operation command key a, N, which is a main display operation region, in the display screen shown in the upper panel of fig. 10₁To N₅As shown in the lower large view of fig. 10, the interface of the mode corresponding to the specific operation command key a is displayed, and thereby the "another operation mode" corresponding to the specific operation command key a is entered. When the specific operation command key a is clicked again, the "another operation mode" is exited and the previous display state is returned.

Fig. 11 shows a change in screen display when the user clicks the specific operation command key B. When the user clicks the specific operation command key B, instead of jumping to the menu selection interface corresponding to the specific operation command key B displayed in the next interface like clicking the specific operation command key a, a window pops up in the current interface to display the menu selection interface. The area occupied by the popup window may be just the size covering the main display operation area, or may be the size smaller than the main display operation area. When the specific operation command key B is clicked again, the popup display is closed to exit the "menu selection mode".

Fig. 12 shows a change in screen display when the user clicks the specific operation command key C. When the user clicks the specific operation command key C, N, which is the main display operation area, in the display screen shown in the upper panel of fig. 12₁To N₅As shown in the lower large view of fig. 12, the interface of the mode corresponding to the specific operation command key C is displayed, so that the "custom collocation mode" corresponding to the specific operation command key C is entered. When the specific operation command key C is clicked again, the "custom collocation mode" is exited and the interface displayed before is returned.

According to the above embodiment of the present invention, the user can quickly enter different operation modes by triggering the specific command button. Specifically, a specific command button is displayed in the status bar area, and the user can manually trigger the button, enter a specific function operation interface or enter the next level interface, and can return to the previous level by clicking the button again. Compared with the existing industrial instrument equipment, the operation mode is optimized, the operation of a user is simplified, and the complex function collocation and use become more flexible.

In the above embodiments, the industrial instrumentation and the operation method of the interface thereof according to the present invention are described by taking a gas pressure calibrator as an example. However, the industrial instrument device of the invention is not limited to a gas pressure calibrator, and the invention can be applied to a handheld full-automatic pressure calibrator, a field full-automatic pressure calibrator, an intelligent dry body furnace, an intelligent multi-channel super thermodetector, an intelligent process calibrator, a multifunctional temperature calibrator and the like.

Claims (11)

1. An industrial instrumentation device comprising:

at least 2 channels for measuring, outputting or controlling physical quantities;

the touch display screen can display the information of the at least 2 channels and a user operation interface; and

a control unit capable of controlling display of the touch display screen and a user operation interface,

characterized in that the touch display screen is capable of displaying a main display operation area and a status bar area,

the main display operation area is capable of displaying current information and command buttons for the at least 2 channels,

the status bar area is capable of displaying channel display buttons of the at least 2 channels, the channel display buttons are capable of switching between display and non-display of the channels corresponding thereto,

the control unit can divide the main display operation area into a channel area with a larger area of at least 1 area and a channel area with a smaller area of at least 1 area according to the use frequency and/or importance of the at least 2 channels or according to the instruction of a user.

2. Industrial meter device according to claim 1,

the channel region with larger area is a main operation channel region, the channel region with smaller area is an auxiliary operation channel region or a monitor channel region,

when the areas of the main operation channel region, the auxiliary operation channel region, and the monitor channel region are respectively set to S1, S2, and S3, the relationship of S1 > S2 > S3 is satisfied when the main operation channel region, the auxiliary operation channel region, and the monitor channel region are simultaneously displayed.

3. Industrial meter device according to claim 1,

the control unit may cause the main display operation region to display only one channel region in its entire area, or may cause the main display operation region to display at least two channel regions in respective equal areas.

4. Industrial meter device according to any one of claims 1 to 3,

the control unit controls so that when any one of the at least 2 channels is displayed in the main display operation area, a channel display button corresponding to the channel is displayed in a first display state indicating that the channel is in an enabled state, and when the any one channel is not displayed in the main display operation area, the channel display button corresponding to the channel is displayed in a second display state indicating that the channel is in a non-enabled state.

5. Industrial meter device according to claim 4,

the first display state is first display brightness or bold display, and the second display state is second display brightness lower than the first display brightness or no bold display.

6. Industrial meter device according to any one of claims 1 to 5,

also comprises an expansion interface used for connecting with an external module,

the control unit controls so that when it is determined that the external interface is in the operating state, a channel region including a channel of the expansion interface is displayed in the main display operation region, and a channel display button corresponding to the channel is displayed in the status bar region in a first display state indicating that the channel is in the enabled state.

7. Industrial meter device according to any one of claims 1 to 6,

and at least 1 specific command key is further displayed in the status bar area, and the main display operation area can enter a display picture of a specific function or a display picture of a specific operation mode by operating the specific command key.

8. An interface operation method of industrial instrument equipment is characterized in that,

the industrial instrumentation includes:

at least 2 channels for measuring, outputting or controlling physical quantities;

the touch display screen can display the information of the at least 2 channels and a user operation interface; and

a control unit capable of controlling display of the touch display screen and a user operation interface,

the interface operation method comprises the following steps:

a step of displaying a main display operation area and a status bar area on the touch display screen, wherein the main display operation area can display current information and command buttons of the at least 2 channels, the status bar area comprises channel display buttons of the at least 2 channels, and the channel display buttons can switch between display and non-display of the corresponding channels;

judging the use frequency and/or importance of the at least 2 channels, or receiving the instruction of a user; and

and displaying a channel area with at least 1 area being larger and a channel area with at least 1 area being smaller in the main display operation area according to the use frequency and/or importance of the at least 2 channels or according to the instruction of a user.

9. The interface operating method of claim 8,

the channel region with larger area is a main operation channel region, the channel region with smaller area is an auxiliary operation channel region or a monitor channel region,

when the areas of the main operation channel region, the auxiliary operation channel region, and the monitor channel region are set to S1, S2, and S3, respectively, the relationship of S1 > S2 > S3 is satisfied when the main operation channel region, the auxiliary operation channel region, and the monitor channel region are simultaneously displayed.

10. The interface operating method according to claim 8 or 9,

and when the channel display button is operated by the user to prevent any channel from being displayed in the main display operation area, displaying the channel display button corresponding to the channel in a first display state indicating that the channel is in an enabled state, and when the channel display button is operated by the user to prevent any channel from being displayed in the main display operation area, displaying the channel display button corresponding to the channel in a second display state indicating that the channel is in a non-enabled state.

11. The interface operating method according to any one of claims 8 to 10,

and at least 1 specific command key is further displayed in the status bar area, and the main display operation area can enter a display picture of a specific function or a display picture of a specific operation mode by operating the specific command key.

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