CN115240836A - Method, device, system, equipment and program product for controlling running state - Google Patents

Abstract

The application provides a method, a device, a system, equipment and a program product for controlling an operation state. The operation state control method includes: responding to a control instruction about an operation state component of the equipment, and displaying a state switching button matched with the operation state displayed by the operation state component; responding to an operation instruction about the state switching button, and switching the running state of the equipment according to the operation instruction; and updating the running state displayed by the running state component according to the switching result. The state switching buttons related to the current running state are displayed to the user only when the user switches the running state, so that the number of the displayed state switching buttons is reduced, and the convenience and the efficiency of state switching are improved.

Description

Method, device, system, equipment and program product for controlling running state

Technical Field

The present application relates to the field of device control technologies, and in particular, to a method, an apparatus, a system, a device, and a program product for controlling an operating state.

Background

In Vitro Diagnostics (IVD) devices include a variety of operational states, such as idle, in-service, paused, stopped, etc., and when an operator performs a sample analysis based on the IVD device, the current operational state of the IVD device may be viewed via a display screen of the IVD device.

Some extracorporeal diagnosis apparatuses are provided with a physical state switching button. Still other in vitro diagnostic devices have a virtual status switch button on the display screen, which is fixedly displayed on one side of the interface. When the operator needs to switch the running state of the equipment, the operator can switch the running state of the equipment through the state switching button.

However, the current in vitro diagnostic apparatus simultaneously displays all the status switching buttons, and the operator needs to distinguish the available switching buttons when switching the operation status, which may result in failure of status switching if the unavailable switching button is selected. These state switching methods make the operator time-consuming and labor-consuming in switching the states, and are inefficient.

Disclosure of Invention

The application provides a method, a device, a system, equipment and a program product for controlling the running state, and the efficiency of running state switching is improved by only displaying a state switching button matched with the running state.

In a first aspect, the present application provides an operation state control method, including:

responding to a control instruction about an operation state component of the equipment, and displaying a state switching button matched with the operation state displayed by the operation state component;

responding to an operation instruction about the state switching button, and switching the running state of the equipment;

and updating the running state displayed by the running state component according to the switching result.

Optionally, in response to a control instruction about an operation state component of the device, displaying a state switching button matching an operation state displayed by the operation state component, including:

responding to a control instruction of an operation state component of the equipment, and determining a target state switching button according to a preset corresponding relation and an operation state displayed by the operation state component;

displaying the target state switching button;

and the preset corresponding relation is used for describing the state switching button corresponding to each running state.

Optionally, in response to a control instruction about an operation state component of the device, displaying a state switching button matching the operation state displayed by the operation state component, including:

in response to a control instruction about an operating state component of the equipment, acquiring a plurality of target state switching buttons, wherein the target state switching buttons are state switching buttons matched with the operating states displayed by the operating state component;

determining the display attribute of each target state switching button according to the use attribute of the state switching button;

and displaying the target state switching buttons according to the display attribute.

Optionally, the method further includes:

detecting an operation failure of equipment;

switching the operation state displayed by the operation state component into a fault operation state according to the detected first type of operation fault; and/or the presence of a gas in the atmosphere,

and switching the running state displayed by the running state component to a stopping state according to the detected second type running fault.

Optionally, the method further includes:

and if the operation fault is detected to be relieved, switching the operation state displayed by the operation state component into a normal operation state.

Optionally, the method further includes:

and generating and displaying first prompt information according to the detected fault information.

Optionally, the apparatus is an in vitro diagnostic apparatus, and the method further comprises:

responding to a starting instruction of starting a test button, and acquiring sample configuration information, wherein the sample configuration information comprises a sample serial number, a sample position and a sample detection item;

and according to the sample configuration information, carrying out sample test, and switching the running state displayed by the running state component into a running state.

In a second aspect, the present application provides an operating condition control apparatus including:

the button display module is used for responding to a control instruction about an operation state component of the equipment and displaying a state switching button matched with the operation state displayed by the operation state component;

the running state switching module is used for responding to an operation instruction about the state switching button and switching the running state of the equipment;

and the component display updating module is used for updating the running state displayed by the running state component according to the switching result.

Optionally, the button display module is specifically configured to:

responding to a control instruction of an operation state component of the equipment, and determining a target state switching button according to a preset corresponding relation and an operation state displayed by the operation state component;

displaying the target state switching button;

and the preset corresponding relation is used for describing the state switching button corresponding to each running state.

Optionally, the button display module is specifically configured to:

acquiring a plurality of target state switching buttons in response to a control instruction about an operating state component of the equipment, wherein the target state switching buttons are state switching buttons matched with the operating state displayed by the operating state component;

determining the display attribute of each target state switching button according to the use attribute of the state switching button;

and displaying the target state switching buttons according to the display attributes.

Optionally, the apparatus further comprises:

the fault detection module is used for detecting the operation fault of the equipment;

the first switching module is used for switching the running state displayed by the running state component into a fault running state according to the detected first type of running fault; and/or the presence of a gas in the atmosphere,

and the second switching module is used for switching the running state displayed by the running state component into a stopping state according to the detected second type of running faults.

Optionally, the apparatus further comprises:

and the third switching module is used for switching the running state displayed by the running state component into a normal running state if the running fault is detected to be removed.

Optionally, the apparatus further comprises:

and the reminding message generating module is used for generating and displaying first reminding information according to the detected fault information.

Optionally, the apparatus is an in vitro diagnostic device, and the apparatus further includes:

the test starting module is used for responding to a starting instruction for starting the test button and acquiring sample configuration information, wherein the sample configuration information comprises a sample serial number, a sample position and a sample detection item; and according to the sample configuration information, carrying out sample test, and switching the running state displayed by the running state component into a running state.

In a third aspect, the present application provides an operating state control system, including a processor, and a memory communicatively coupled to the processor; the memory stores computer-executable instructions; the processor executes the computer-executable instructions stored by the memory to implement the operation state control method as provided in the first aspect of the present application.

In a fourth aspect, the present application provides a medical detection apparatus, which includes a detection device and the operation state control system provided in the third aspect of the present application.

In a fifth aspect, the present application provides a computer-readable storage medium having stored thereon computer-executable instructions for implementing the method of operating state control as provided in the first aspect of the present application when executed by a processor.

In a sixth aspect, the present application provides a computer program product comprising a computer program which, when executed by a processor, implements the method of run state control as provided in the first aspect of the present application.

According to the running state control method, the running state control device, the running state control system, the running state control device and the program product, the state switching button is not displayed by default on the display page of the equipment, when the running state of the equipment needs to be switched by a user, the control instruction of the running state component can be issued, and after the control instruction of the running state component is detected, one or more state switching buttons matched with the running state displayed by the running state component are displayed to the user on the display page, so that the user can switch the running state of the equipment based on the displayed state switching button. The operation interface is simplified by hiding the state switching button; by only displaying the state switching buttons matched with the current running state, the number of the displayed state switching buttons is reduced, the state switching buttons needing to be operated can be quickly determined by a user, and the equipment state switching efficiency is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Fig. 1 is a schematic diagram of an application scenario provided in an embodiment of the present application;

fig. 2 is a schematic flowchart of an operation state control method according to an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating a display position of a status switch button according to the embodiment of FIG. 2;

FIG. 4 is a schematic flowchart of step S201 in the embodiment shown in FIG. 2 of the present application;

FIG. 5 is a schematic layout diagram of a state switch button according to an embodiment of the present application;

fig. 6 is a schematic flow chart of an operation state control method according to another embodiment of the present application;

FIG. 7 is a schematic illustration of a display page of an in vitro diagnostic apparatus provided in an embodiment of the present application;

fig. 8 is a schematic structural diagram of an operation state control system according to an embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

Fig. 1 is a schematic diagram of an application scenario provided in an embodiment of the present application, and as shown in fig. 1, an in-vitro diagnostic apparatus 100 is composed of a display terminal 110 and a detection terminal 120. The detection terminal 120 is used for detecting the in vitro sample, and the display terminal 110 is used for displaying information such as the operation state, the operation result, the consumable remaining amount and the like of the detection terminal 120.

In order to facilitate the user to connect the operation state (also referred to as the complete machine state) of the detection terminal 120, the display terminal 110 may display the operation state, such as the operation state, the pause state and the stop state, of the detection terminal 120. The display terminal 110 is also provided with a plurality of state switching buttons such as a run button, a pause button, a stop button, and an initialization button in fig. 1.

In one embodiment, the display terminal 110 is a touch screen, and the detection person may switch the operation state of the detection terminal 120 through a state switching button displayed on the touch display terminal 110.

In the related art, all the state switching buttons are generally displayed by default on the side, such as the lower side, of the display page of the display terminal 110. Since the effective state switching buttons in different operating states are different, if the initialization button is effective in the fault state, and the pause button and the stop button are effective in the operating state, the effective buttons can switch the operating state of the detection terminal 120. The adoption of default display of all state switching buttons will result in the failure of the detection personnel to accurately and quickly determine the state switching buttons to be operated, resulting in low overall state switching efficiency.

The data transmission method provided by the application aims to solve the technical problems in the prior art. According to the method and the device, the running state displayed on the display page is adjusted to be the controllable running state component, when the running state component is controlled by a user, one or more state switching buttons matched with or associated with the running state currently displayed by the running state component are displayed to the user, dynamic association of the state switching buttons and the running state component is realized, the user operation friendliness degree is improved by only displaying the effective state switching buttons under the corresponding running state, and the whole machine state switching efficiency is improved.

The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 2 is a schematic flow diagram of an operation state control method provided in this embodiment, where the operation state control method provided in this embodiment may be executed by an operation state control system, and the operation state control system may be any device having a data processing function.

As shown in fig. 2, the operation state control method provided in this embodiment includes the following steps:

step S201, responding to a control instruction about an operation state component of the equipment, and displaying a state switching button matched with the operation state displayed by the operation state component.

The operation state component is a component capable of being operated, such as a button, a drop-down list and the like. The operation state component is used for displaying the operation state of the equipment. The state switching button is used for switching the running state of the equipment. The device can be any controllable device with a display device, such as an in vitro diagnostic instrument, an industrial personal computer and the like.

For example, the operation state of the device may include an in-operation state, a pause state, and a stop state, and may further include an initialization state. The state switching buttons may include a start button, a pause button, and a stop button, and may further include an initialization button. The start button is used for switching the running state of the equipment to the running state, the pause button is used for switching the running state of the equipment to the pause state, the stop button is used for switching the running state of the equipment to the stop state, and the initialization button is used for switching the running state of the equipment from the stop state to the initialization state.

Specifically, when the device state needs to be switched, a user may control the operation state component displayed on the device display apparatus through an input device, such as a touch screen or a mouse, and further generate a control instruction of the operation state component. When a control instruction of the operation state component is detected, a state switching button matched with or associated with the operation state currently displayed by the operation state component is displayed for a user.

The state switching button matching the operating state may be a state switching button that is valid in the operating state.

For example, a user may call up a state switching button matching the currently displayed operation state of the operation state component through the operation state component displayed on the touch interface.

The state switching button is hidden or not displayed in a default state, and when a user issues a control instruction of the operation state component, such as a click instruction and a touch instruction, the corresponding state switching button is displayed for the user.

The state switching button may be displayed near the operation state component, such as below, right side or around the operation state component, and may be set according to actual conditions, which is not limited in the present application.

Illustratively, the state switch button may be displayed as a pull-down menu of the operation state component.

Illustratively, the status switch buttons may be displayed as peer components of the operational status component, such as displaying a matching one or more status switch buttons on one side of the operational status component. The status switch button and the run status component may be disposed within the same row of the interface, such as both at the head or bottom of the interface, or may be disposed within the same column of the interface, such as both at the left or right side of the interface.

Fig. 3 is a schematic diagram of a display position of a state switching button in the embodiment shown in fig. 2 of the present application, as shown in fig. 3, a current displayed state of an operating state component is "in operation", that is, an operating state, and the state switching button matched with the operating state includes a stop button and a pause button, as shown in fig. 3, a pull-down menu taking the state switching button as an example of the operating state component is shown in fig. 3, and a User can click or touch the operating state component, so that a list composed of the matched state switching buttons, such as the pause button and the stop button in fig. 3, is displayed below the operating state component, and "User02" in fig. 3 is a currently logged-in User name.

Optionally, in response to a control instruction about an operation state component of the device, displaying a state switching button matching an operation state displayed by the operation state component, including:

responding to a control instruction of an operation state component of the equipment, and determining a target state switching button according to a preset corresponding relation and an operation state displayed by the operation state component; and displaying the target state switching button.

And the preset corresponding relation is used for describing the state switching button corresponding to each running state. The target state switching button is a state switching button matched with the operating state displayed by the operating state component.

Specifically, the valid state switching buttons in each operating state may be counted in advance, and the preset correspondence may be established based on the statistical result.

When a click event about the running state component is detected, the running state displayed by the running state component is acquired, one or more target state switching buttons matched with the running state displayed by the running state component are determined based on the running state displayed by the running state component and a preset corresponding relation established in advance, and the one or more target state switching buttons are displayed for a user.

Illustratively, table 1 is a preset correspondence table, taking five states of an operating state of a device including an operating state, an idle state, a pause state, a stop state and an initialization state as an example, where the preset correspondence is as shown in table 1, "none" indicates that there is no matching state switching button, that is, in the idle state and the initialization state, there is no corresponding state switching button; in the operating state, the matched state switching buttons comprise pause and stop buttons; in the paused state, the matched state switch button comprises a start button; in the stop state, the matched state switch button includes an initialization button. The starting button is used for switching the running state of the equipment from a pause state to a running state, the pause button is used for switching the running state of the equipment from the running state to the pause state, the stop button is used for switching the running state of the equipment from the running state to the stop state, and the initialization button is used for switching the running state of the equipment from the stop state to the initialization state.

TABLE 1 Preset correspondence Table

Operating state	Matched state switching button
		Free up	Is composed of
Initialization	Is composed of
		In operation	Pause and stop
Pausing	Start of
		Stop	Initialization

In one embodiment, the state switch button that matches the initialized state may comprise a start button.

In one embodiment, the state switch button matching the pause state may further include a stop button.

The running state of the equipment can also comprise other states, such as a fault state, a maintenance state and the like, and the state switching button can also comprise a fault removing button, a maintenance stopping button and the like.

The target state switching button is determined through the pre-established preset corresponding relation, the response speed is high, and the display efficiency of the target state switching button is improved.

Step S202, responding to the operation instruction of the state switching button, and switching the running state of the equipment.

After the state switching buttons associated with the current running state of the equipment are displayed, a user can click one of the displayed state switching buttons so as to issue a corresponding operating instruction, and then the running state of the equipment is switched based on the operating instruction.

For example, taking the running state displayed by the running state component as the running state, the user may click the running state component, so as to display the matched state switching button in a pull-down menu manner, and click one state switching button in the pull-down menu, for example, a pause button, to switch the running state of the device from the running state to the pause state.

Step S203, updating the running state displayed by the running state component according to the switching result.

If the switching is successful, updating the running state displayed by the running state component of the equipment to be the switched running state; and if the switching fails, keeping the operation state displayed by the operation state component unchanged. Further, if the handover fails, a failure reason and the like may be further presented.

In the operating state control method provided in this embodiment, a default non-display state switching button is provided on a display page of the device, when a user needs to switch the operating state of the device, a control instruction of the operating state component may be issued, and after the control instruction of the operating state component is detected, one or more state switching buttons matching the operating state displayed by the operating state component are displayed to the user on the display page, so that the user switches the operating state of the device based on the displayed state switching button. The operation interface is simplified by hiding the state switching button; by only displaying the state switching buttons matched with the current running state, the number of the displayed state switching buttons is reduced, the state switching buttons needing to be operated can be quickly determined by a user, and the equipment state switching efficiency is improved.

Optionally, fig. 4 is a schematic flowchart of the step S201 in the embodiment shown in fig. 2 of this application, and this embodiment is directed to a case where there are a plurality of state switching buttons associated with the current operating state of the device (i.e., the operating state displayed by the operating state component), as shown in fig. 4, the step S201 may include the following steps:

in step S401, a plurality of target state switching buttons are acquired in response to a control instruction regarding the operation state components of the apparatus.

Wherein the target state switching button is a state switching button matched with the running state displayed by the running state component.

Specifically, when a control instruction of the operation state component is detected, such as a touch instruction, a double-click instruction, and the like, a plurality of target state switching buttons matched with the operation state component are determined based on the operation state currently displayed by the operation state component, that is, the current operation state of the device.

Taking the operating state displayed by the operating state component as the fault state as an example, the acquired target state switching button may include: stop, pause, trouble release, etc.

Step S402, determining the display attribute of each target state switching button according to the button attribute of the state switching button.

The button attributes of the state switching button may include the frequency of use, priority, and the like, and the display attributes may include one or more of a display position, a display hierarchy, a display color, a display shape, and the like.

The display position of each target switching button may be determined based on the frequency of use of the state switching button. The higher the use frequency is, the more convenient the corresponding display position is, so as to improve the convenience of user operation. The display position of each target switching button may also be determined based on the priority. The higher the priority, the more convenient the corresponding display position is, so as to improve the convenience of user operation.

Of course, the display attributes such as the display position, the display hierarchy, and the display color of each target state switching button may be determined according to the priority and the use frequency of the state button, and the higher the priority and the use frequency are, the more convenient the display position of the corresponding target state switching button is, and the more prominent the display color is as the display hierarchy is forward.

Further, it is also possible to determine a button score of each target state switching button based on a weighted average of the priority and the frequency of use, and determine a display attribute of each target state switching button based on the button score.

Taking the example that the operating status component is disposed at the upper left of the interface and the target status switching button is displayed below the status switching component, the target status switching buttons may be arranged in a row, and the higher the usage frequency, the closer the display position of the target status switching button is, that is, the closer to the operating status component.

The display attribute may further include a display hierarchy, and the target state switching button may be displayed in a tree structure, where the display hierarchy is a hierarchy of the target state switching button in the tree structure. The display hierarchy of the target switching button may be determined according to the frequency of use of the state switching button. The higher the frequency of use, the smaller the numerical value of the corresponding display hierarchy, and taking two display hierarchies, one for example, the display hierarchy of the target state switching button with the higher frequency of use is one level, and the lower frequency of use is two levels.

In one embodiment, the primary goal state switching button may be a primary pull-down menu of the run state component, the secondary goal state switching button may be a secondary pull-down menu of the run state component, and so on.

Specifically, the display position or the display hierarchy of the target state switching button may be determined according to the section in which the frequency of use is located.

Specifically, a plurality of frequency thresholds may be set, and the display position and/or the display hierarchy of the target state switching button may be determined according to the result of comparing the usage frequency with the plurality of frequency thresholds.

Further, the display hierarchy of each target state switching button may be determined according to the section in which the use frequency is located, and the display position of the target state switching button of the display hierarchy in the display hierarchy may be determined for the target state switching button of each display hierarchy according to the use frequency.

For example, at each display level, the corresponding target state switching buttons may be sequentially arranged in the order from high to low, from top to bottom, or from left to right.

For example, fig. 5 is a layout diagram of State switching buttons provided in an embodiment of the present application, as shown in fig. 5, an operating State1 corresponds to 7 State switching buttons b1 to b7, the 7 State switching buttons sequentially include b5, b2, b3, b4, b1, b6, and b7 according to a use frequency sequence, and one possible layout manner of the 7 State switching buttons is as shown in fig. 5, fig. 5 takes 3 display levels as an example, in each display level, the switching buttons are arranged in a row, the button with a higher use frequency is arranged on the left side of the row, in fig. 5, the State switching buttons displaying all the corresponding display levels are taken as an example, and in some embodiments, only the State switching button of the corresponding first display level may be displayed by default.

In one embodiment, the user may call up the state switching button of the next display level by clicking the container corresponding to the state switching button of the previous display level.

Step S403, displaying the target state switching buttons according to the display attributes.

And displaying a plurality of target state switching buttons to the user in the area set by the interface equipment according to the display attribute of each target state switching button.

In one embodiment, when the target state switching button is in multiple display levels, only a portion of the display levels of the target state switching button may be shown, such as only one level of the target state switching button.

When only the target state switching buttons of a part of the display levels are displayed, the user can display the target state switching buttons of at least one display level which is folded or hidden by clicking or hovering a mouse on a preset button on the display component corresponding to the target state switching buttons to expand the target state switching buttons of the rest of the display levels which are not displayed. The preset button may be set at the lowest display level of the current display. Taking only the first-stage target state switching button and the second-stage target state button as an example, a preset button may be provided at the end of the second-stage target state button, and when the user clicks the preset button, the hidden third-stage target state button is displayed to the user. The configuration of the display attributes of the state switching buttons to be displayed is carried out on the basis of the button attributes, so that the state switching buttons with high use frequency and higher priority can be displayed at the position convenient for operation or displayed in a striking mode, and the convenience of state switching control of a user is improved.

Fig. 6 is a schematic flow diagram of an operation state control method according to another embodiment of the present application, where in this embodiment, for a scenario where a device is an in vitro diagnostic apparatus, on the basis of the embodiment shown in fig. 2, a step related to starting a test is added before step S201, and as shown in fig. 6, the operation state control method according to this embodiment may include the following steps:

step S601, in response to a start instruction to start the test button, acquires sample configuration information.

Wherein the start test button is used to start a sample test, thereby adjusting the operating state of the in vitro diagnostic apparatus to an in-operation state. The sample configuration information includes a sample serial number, a sample position, and a sample detection item.

The launch test button may be displayed in the sample configuration interface by default. The operation state component can be used as a global component, and is displayed on the top of a page when a display device of the in-vitro diagnostic apparatus, such as a touch screen, displays each interface.

For example, the display page of the display device of the in vitro diagnostic apparatus may include a main interface, a test interface, and a management interface, where the test interface includes three pages, a sample configuration interface, a work list interface, and an abnormal situation interface. The operation status component may be displayed at a head of each of the interfaces. The main interface comprises a display device for displaying a device operation container including a device icon, a device model, a sample location (drawer serial number) and the like, a working list preview container corresponding to the working list interface, an abnormal information list, a consumable material allowance container and the like. The user can open the interface (if any) corresponding to the container by clicking the corresponding container.

Specifically, the tester can configure each item of the sample on a sample configuration interface of the in-vitro diagnostic apparatus, and after the configuration is completed, the tester clicks a start test button on the sample configuration interface, so that the in-vitro diagnostic apparatus starts to test the loaded sample, and the state displayed by the operation state component is switched to the operation state.

In one embodiment, the test button may be activated to the enabled state when the in vitro diagnostic apparatus is in the off state, the idle state, or the initialization state.

Illustratively, the in vitro diagnostic instrument may be a blood type analyzer, a thromboelastogram, or the like.

Fig. 7 is a schematic diagram of a display page of an extracorporeal diagnostic apparatus according to an embodiment of the present application, as shown in fig. 7, the display page of the extracorporeal diagnostic apparatus includes a header 710, a bottom 720 and a content 730, the header 710 is provided with a user container 711 and an operation status component 712, the user container 711 is used to display a user name, and the operation status displayed by the operation status component 711 is an idle status in fig. 7. The header 710 may also be provided with a time container 713 for displaying time, such as 24-hour system time, the time shown in fig. 7 with the time container 713 being 11:53 for example. The bottom 720 is provided with a function navigation area, in this example, the function navigation area is provided with four buttons of a menu, a home page, a test and a management, the menu button corresponds to a list menu, the home page, the test and the management button correspond to a main interface, a test interface and a management interface respectively, and the selected test button is taken as an example in fig. 7. When the test button is selected, a test interface is displayed above the test button, the test interface may include multiple pages, such as a sample configuration interface, a work list interface, and an abnormal condition interface, in fig. 7, the currently displayed page is taken as the sample configuration interface 740 as an example, three buttons of starting testing, deleting, and editing are provided on the right side of the sample configuration interface 740, a user of the delete button deletes the selected sample, the edit button is used to edit sample configuration information, and the edit button may specifically be an edit cross-matching button used to edit information of cross-matching of the sample. The sample configuration interface further includes a drawer list 741 and a configuration list 742, each item in the drawer list 741 corresponds to a drawer for storing an in-vitro sample, and the drawer list may display whether a sample is stored in each drawer of the device, for example, whether a sample is stored in a cell corresponding to the drawer is indicated by an in-place icon, the in-place icon is taken as an example in fig. 7, the in-place icon may also be a circle center icon or another icon, for example, samples are stored in drawers corresponding to three cells E1, E2, and E3 in fig. 7, and the configuration list is used to store sample configuration information of each sample, such as a detection item, a position, a serial number, a sample ID, and the like.

Step S602, according to the sample configuration information, performing a sample test, and switching the operating state displayed by the operating state component to an operating state.

When a user clicks a start test button, sample detection and fault detection can be performed to judge whether a sample to be tested exists and whether configuration information of the sample is completely set, and judge whether equipment has a fault, if the sample detection and the fault detection both pass, corresponding sample test is started according to the acquired sample configuration information, the running state of the equipment is switched to be a running state, and the running state displayed by a running state component is switched to be a running state.

When the equipment has a fault, the running state of the equipment is determined to be a fault state, the running state displayed by the running state component is switched to be the fault state, and prompt information is generated according to the fault type, so that the fault is solved, and the smooth running of the equipment is ensured.

In the failure state, the matched operation state switching buttons may include a pause button, a stop button, and a failure release button. After the fault is removed, the user can click a fault removal button, so that the running state of the equipment is switched from the fault state to the running state. If the failure is difficult to be resolved in a short time, or cannot be automatically recovered to normal, or for other reasons, the user may click a pause button or a stop button to switch the operation state of the device to a pause state or a stop state.

When the running state of the device is updated to the running state, the currently displayed interface can be updated to the device running interface from the sample configuration interface, and the running condition of the device can be displayed on the device running interface. The equipment operation interface can correspond to the equipment operation container of the main interface.

Step S603, in response to a control instruction regarding the operation status component of the in vitro diagnostic apparatus, displaying a status switching button matching the operation status displayed by the operation status component.

Specifically, when a control instruction about the operation state component is detected, the type of the operation state displayed by the operation state component may be determined first, and if the type of the operation state component is the first type, the control instruction is not responded, and if the type of the operation state component is the second type, the control instruction is responded, and a state switching button matched with the operation state displayed by the operation state component is displayed.

Wherein the first type of operating state does not have a matching state switch button, or the matching state switch button is null. The second type of operating state has a state switch button matching it.

The first type of operating state may include an initialization state and an idle state. When the device is in the initialization state or the idle state, the state of the device can be switched to the running state through a starting test button on the sample configuration interface.

Of course, the first and second types may be configured according to the operational needs of a particular device.

The operation state may even include a third type or more, etc. Further, the setting of the operation status type may also be set in association with one or more of the current login user, the user type, the operation mode, and the like.

When a control instruction about the operation state component is detected, the type of the operation state displayed by the operation state component is a third type, and the control instruction can be responded on the premise that a condition corresponding to the third type is met. The condition corresponding to the third type may be that the level of the current login user is higher than a preset level, the user type of the current login user is a preset type, and the operation mode of the device does not belong to one or more of the set modes and the like.

For example, the third type of operation state may include an in-operation state, and when a control command regarding the operation state component is detected, the operation state component displays an operation state of the in-operation state, and does not respond to the control command if the operation mode of the apparatus is the performance mode or if the user level is lower than the secondary level.

Step S604, in response to an operation instruction on the state switching button, switches the operating state of the apparatus.

And step S605, updating the running state displayed by the running state component according to the switching result.

In the embodiment, the starting test button is arranged on the sample display page based on the common use scene of the starting test button, so that a user directly controls the equipment to enter the running state by starting the test button after configuring the sample, and the logic of equipment state control is simplified; meanwhile, the starting test button is separated from other state switching buttons, so that the relation between the state switching buttons and the running state component is weakened, a user can quickly determine the button to be operated, and the state switching efficiency of the equipment is improved.

Further, it is also possible to detect a fault existing in the equipment in real time to update the operation state of the equipment based on the fault detection result.

Specifically, whether the drawer is tightly closed or not can be detected through a sensor arranged on each drawer of the equipment, and if not, the fault existing in the equipment is determined to be the fault that the drawer is not tightly closed; whether the consumable allowance of the equipment can be detected through the consumable detection device is sufficient, if not, the fault of the equipment is determined to be the consumable insufficient fault. Other faults, such as electrical faults, network faults, etc., may also be detected by other detection means.

Optionally, the method further includes:

and generating and displaying first prompt information according to the detected fault information.

The fault information includes a fault type, and may also include information such as a fault location and a fault time. The first prompt message is used for prompting the related personnel that the equipment has a fault.

And according to the first prompt message, performing fault alarm in the form of one or more of pictures, texts, sound, light and the like.

After the equipment is started, whether the equipment has operation faults or not is detected in real time regularly or irregularly, and if yes, first prompt information is generated based on fault information of the existing operation faults.

In one embodiment, the detection of operational failure may be performed only when the device is in a set state, e.g., in an operational state, etc.

And fault warning is carried out through fault prompt information, so that relevant personnel can repair the fault in time, and the running smoothness and safety of the equipment are improved.

Of course, the detection timing of the operation failure may also be set in association with one or more of the currently used user, the user type, the operation mode, and the like.

For example, different fault alarm forms may be adopted by different users or in different operation modes, and a user may set a fault alarm form corresponding to the user according to the user's preference. The operating mode may include a silent operating mode in which a fault alarm in the form of a sound, such as a buzzer, may be disabled.

Optionally, the method further includes:

detecting an operation fault of equipment; switching the operation state displayed by the operation state component into a fault operation state according to the detected first type of operation fault; and switching the running state displayed by the running state component to a stopping state according to the detected second type running fault.

The operation faults are classified into a first type of operation faults and a second type of operation faults according to fault grades. The first type of operation failure may include a consumable failure due to a shortage of consumables, a drawer failure due to a drawer not being in place, and other failures of lower grade. The second type of operation failure may include operation failures with higher failure levels, such as electrical failures, communication failures, and the like.

When the equipment is in a normal operation state, detecting the operation fault of the equipment; if the first type of operation fault is detected, the equipment is kept to continue to operate, and the operation state displayed by the operation state component is switched to a fault operation state, so that the smoothness of the operation of the equipment is improved; and if the second type of operation fault is detected, the control equipment stops operating, and the operation state displayed by the operation state component is switched to a stop state, so that the operation safety of the equipment is ensured.

The operation state of the equipment comprises a normal operation state and a fault operation state, wherein the equipment has no fault in the normal operation state, and the equipment has at least one first-class operation fault in the fault operation state. The state switching buttons matched with the fault running state comprise a pause button, a stop button and a fault release button, and the state switching buttons matched with the normal running state comprise a pause button and a stop button. The fault release button is used for switching the running state of the equipment from the fault running state to the normal running state when the fault is released.

When the equipment is in a fault operation state, namely the operation state displayed by the operation state component is in a fault operation state, if the control instruction of the operation state component is detected, a pause button, a stop button and a fault release button are displayed.

When detecting a click event of a fault release button or an operation instruction caused by the click event, detecting whether a first-class operation fault existing in history is released or not; if so, switching the running state of the equipment to a normal running state, and switching the running state displayed by the running state display part to the normal running state; if not, the operation state displayed by the operation state display component is kept unchanged, namely, the operation state is kept to be a fault operation state, and a second prompt message is generated and displayed to prompt that the fault existing in the history of the related personnel is not released so that the related personnel can conveniently check the fault related component.

Optionally, the method further includes:

and if the operation fault is detected to be relieved, switching the operation state displayed by the operation state component into a normal operation state.

When the equipment is in a fault operation state, if the first type operation fault which exists historically is detected to be removed, the operation state displayed by the equipment operation state display part is switched to a normal operation state.

When the equipment is in a stop state due to the existence of the second type operation fault, if the existence of the second type operation fault is detected to be relieved, the operation state displayed by the equipment operation state display part is switched to a normal operation state.

Furthermore, the level of the fault alarm can be determined according to the duration of the equipment in the stop state due to the existence of the second type of operation fault, the alarm level can be upgraded along with the increase of the duration of the fault, and the alarm forms corresponding to the fault alarms in different levels are different.

In one embodiment, the higher the level of the malfunction warning, the easier the warning form to be found, such as the louder the buzzer, the higher the frequency of the flashing of the indicator light, or a combination of the warning forms.

By detecting the fault and detecting the fault removal, the equipment state is automatically switched, so that the automation degree and the intelligent degree of equipment state switching are improved, the user operation is reduced, and the convenience of equipment control is improved.

An embodiment of the present application provides an apparatus, including: the device comprises a button display module, an operation state switching module and a component display updating module.

The button display module is used for responding to a control instruction of an operation state component of the equipment and displaying a state switching button matched with the operation state displayed by the operation state component; the running state switching module is used for responding to an operation instruction about the state switching button and switching the running state of the equipment; and the component display updating module is used for updating the running state displayed by the running state component according to the switching result.

Optionally, the button display module is specifically configured to:

responding to a control instruction of an operation state component of the equipment, and determining a target state switching button according to a preset corresponding relation and an operation state displayed by the operation state component;

displaying the target state switching button;

and the preset corresponding relation is used for describing the state switching button corresponding to each running state.

Optionally, the button display module is specifically configured to:

acquiring a plurality of target state switching buttons in response to a control instruction about an operating state component of the equipment, wherein the target state switching buttons are state switching buttons matched with the operating state displayed by the operating state component;

determining the display attribute of each target state switching button according to the button attribute of the state switching button;

and displaying the target state switching buttons according to the display attribute.

Optionally, the apparatus further comprises:

the fault detection module is used for detecting the operation fault of the equipment;

the first switching module is used for switching the running state displayed by the running state component into a fault running state according to the detected first type of running fault; and/or the presence of a gas in the gas,

and the second switching module is used for switching the running state displayed by the running state component into a stopping state according to the detected second type of running fault.

Optionally, the apparatus further comprises:

and the third switching module is used for switching the running state displayed by the running state component into a normal running state if the running fault is detected to be relieved.

Optionally, the apparatus further comprises:

and the reminding message generating module is used for generating and displaying first reminding information according to the detected fault information.

Optionally, the apparatus is an in vitro diagnostic apparatus, and the apparatus further includes:

the test starting module is used for responding to a starting instruction for starting the test button and acquiring sample configuration information, wherein the sample configuration information comprises a sample serial number, a sample position and a sample detection item; and according to the sample configuration information, carrying out sample test, and switching the running state displayed by the running state component into a running state.

The operation state control device provided in the embodiment of the present application may be used to execute the operation state control method in any method embodiment described above, and the implementation principle and the technical effect are similar, which are not described herein again.

Fig. 8 is a schematic structural diagram of an operation state control system according to an embodiment of the present application, where the operation state control system shown in fig. 8 includes: a processor 820, and a memory 810 communicatively coupled to the processor 820.

Wherein memory 810 stores computer-executable instructions; processor 820 executes computer-executable instructions stored by memory 810 to implement a run state control method as provided by any of the embodiments of the present application.

Wherein the memory 810 and the processor 820 are coupled by a bus 830.

The relevant description may be understood by referring to the relevant description and effect corresponding to the steps provided in the embodiment corresponding to the operation state control method of the present application, and the description is not repeated here.

The embodiment of the application also provides medical detection equipment, which comprises a detection device and the running state control system provided by the embodiment of the application.

Wherein, the detection device is used for carrying out in vitro sample detection.

Illustratively, the medical detection device may be an in vitro diagnostic instrument.

The embodiment of the present application further provides a computer-readable storage medium, in which computer execution instructions are stored, and when the computer execution instructions are executed by a processor, the computer execution instructions are used to implement the running state control method provided in any embodiment of the present application.

Embodiments of the present application further provide a computer program product, including a computer program, where the computer program is used to implement the operation state control method provided in any embodiment of the present application when executed by a processor.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements that have been described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (11)

1. An operation state control method characterized by comprising:

responding to a control instruction about an operation state component of the equipment, and displaying a state switching button matched with the operation state displayed by the operation state component;

responding to an operation instruction about the state switching button, and switching the running state of the equipment;

and updating the running state displayed by the running state component according to the switching result.

2. The method of claim 1, wherein presenting a status toggle button that matches the operational status displayed by the operational status component in response to a control instruction regarding the operational status component of the device comprises:

responding to a control instruction of an operation state component of the equipment, and determining a target state switching button according to a preset corresponding relation and an operation state displayed by the operation state component;

displaying the target state switching button;

and the preset corresponding relation is used for describing the state switching button corresponding to each running state.

3. The method of claim 1, wherein presenting a status toggle button that matches the operational status displayed by the operational status component in response to a control instruction regarding the operational status component of the device comprises:

in response to a control instruction about an operating state component of the equipment, acquiring a plurality of target state switching buttons, wherein the target state switching buttons are state switching buttons matched with the operating states displayed by the operating state component;

determining the display attribute of each target state switching button according to the button attribute of the state switching button;

and displaying the target state switching buttons according to the display attributes.

4. The method of claim 1, further comprising:

detecting an operation failure of equipment;

switching the running state displayed by the running state component into a fault running state according to the detected first type of running fault; and/or the presence of a gas in the gas,

and switching the running state displayed by the running state component to a stopping state according to the detected second type running fault.

5. The method of claim 4, further comprising:

and if the operation fault is detected to be relieved, switching the operation state displayed by the operation state component into a normal operation state.

6. The method according to claim 4 or 5, further comprising:

and generating and displaying first prompt information according to the detected fault information.

7. The method of any one of claims 1-5, wherein the device is an in vitro diagnostic apparatus, the method further comprising:

responding to a starting instruction of starting a test button, and acquiring sample configuration information, wherein the sample configuration information comprises a sample serial number, a sample position and a sample detection item;

and according to the sample configuration information, carrying out sample testing, and switching the running state displayed by the running state component into a running state.

8. An operation state control device characterized by comprising:

the button display module is used for responding to a control instruction of an operation state component of the equipment and displaying a state switching button matched with the operation state displayed by the operation state component;

the running state switching module is used for responding to an operation instruction about the state switching button and switching the running state of the equipment;

and the component display updating module is used for updating the running state displayed by the running state component according to the switching result.

9. An operating condition control system, comprising:

a processor, and a memory communicatively coupled to the processor;

the memory stores computer-executable instructions;

the processor executes computer-executable instructions stored by the memory to implement the method of any of claims 1-7.

10. A medical examination apparatus comprising an examination device and the operation state control system according to claim 9.

11. A computer program product comprising a computer program, characterized in that the computer program, when executed by a processor, implements the method of any one of claims 1-7.

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