CN115343461A - Sample analysis system and display interface switching method - Google Patents

Abstract

The embodiment of the application discloses a sample analysis system and a display interface switching method, which enable a user to click a skip button to switch a conventional system interface into an information integration center interface, and monitor a sample detection state or an equipment state anytime and anywhere. The embodiment of the application comprises the following steps: when the system conventional interface is displayed, the control device is used for receiving clicking operation of a user on a skip key in the system conventional interface, the skip key is associated with the information integration center interface, and the display device is controlled to switch the system conventional interface to the information integration center interface, so that the user can directly view state overview information in the information integration center interface, quickly acquire information needing attention of the user, and monitor a sample detection state or an equipment state anytime and anywhere. The state overview information displayed on the interface of the information integration center conveys the state overview of the sample analyzer, so that a user does not need to search the information needing attention from the complicated information, and the user can conveniently check the information.

Description

Sample analysis system and display interface switching method

Technical Field

The embodiment of the application relates to the field of medical equipment, in particular to a sample analysis system and a display interface switching method.

Background

In modern medical clinical tests, sample analyzers are widely used to detect various analytical indicators of blood, urine or other body fluids. The sample analyzer provides a display interface for a user, information such as parameter values of various indexes, equipment states, sample detection states and the like can be displayed on the display interface, and the user can monitor the detection states of the samples by observing the information displayed on the display interface.

The display interface of the existing sample analyzer is rich and complicated in information displayed to a user, the user can hardly find out information which needs to be focused by the user from a large amount of information, particularly, the display interface prompts the user that the business of the user is abnormal through a single-point alarm identifier, and the user needs to click and open a business detail page to acquire the details of the business abnormality, so that the user needs to execute a plurality of operations when acquiring the details of the business abnormality, and the user is inconvenient to find the abnormality timely and quickly.

Therefore, the existing display interface displays too much scattered and complicated information, so that a user cannot timely and quickly view the information needing to be focused, and the user experience is poor.

Disclosure of Invention

The embodiment of the application provides a sample analysis system and a display interface switching method, so that a user can click a skip button to switch a conventional system interface into an information integration center interface, and the sample detection state or the equipment state can be monitored anytime and anywhere.

A first aspect of embodiments of the present application provides a sample analysis system, including:

the sample analyzer is used for preparing a reaction liquid formed by mixing a sample and a reagent and detecting the reaction liquid to obtain a detection result; display device and

the control device is used for controlling the display device to display an information integration center interface or a system conventional interface, the information integration center interface is used for displaying the state overview information of the sample analyzer, and the system conventional interface is at least used for displaying the state detail information related to the state overview information;

the control device is also used for receiving the clicking operation of a user on a skip button in the system conventional interface when the display device displays the system conventional interface, and the skip button is associated with the information integration center interface; and responding to the clicking operation, and controlling the display device to switch the system conventional interface into the information integration center interface.

A second aspect of the embodiments of the present application provides a display interface switching method, which is applied to a sample analysis system, where the sample analysis system includes a sample analyzer and a display device, the display device is configured to display an information integration center interface or a system conventional interface, the information integration center interface is configured to display status overview information of the sample analyzer, and the system conventional interface is configured to display at least status detail information associated with the status overview information;

the method comprises the following steps:

when the system conventional interface is displayed, receiving the click operation of a user on a skip button in the system conventional interface, wherein the skip button is associated with the information integration center interface;

and responding to the clicking operation, and switching the system conventional interface into the information integration center interface.

A third aspect of embodiments of the present application provides a computer storage medium having instructions stored therein, which when executed on a computer, cause the computer to perform the method of the foregoing second aspect.

According to the technical scheme, the embodiment of the application has the following advantages:

when the display device displays the conventional interface of the system, the control device is used for receiving clicking operation of a user on a skip key in the conventional interface of the system, the skip key is associated with the information integration center interface, and the display device is controlled to switch the conventional interface of the system into the information integration center interface in response to the clicking operation, so that the user can directly check state overview information in the information integration center interface, information needing to be paid attention by the user can be quickly obtained, the detection state of a sample or the state of equipment can be monitored anytime and anywhere, and the working efficiency is improved. Meanwhile, the state overview information displayed on the interface of the information integration center can convey the state overview of the sample analyzer, a user does not need to search the information needing attention from the complicated information, the information needing attention can be quickly acquired, and the user can conveniently check the information.

Drawings

FIG. 1 is a schematic diagram of a sample analyzer according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of one embodiment of a control device for a sample analyzer;

FIG. 3 is a schematic illustration of an interface of a sample detection application interface in an embodiment of the present application;

FIG. 4 is a schematic interface diagram of a sample test result interface according to an embodiment of the present disclosure;

FIG. 5 is a schematic interface diagram of an interface of an information integration center according to an embodiment of the present disclosure;

fig. 6 is a schematic flow chart illustrating a display interface switching method according to an embodiment of the present application.

Detailed Description

The embodiment of the application provides a sample analysis system and a display interface switching method, so that a user can click a skip button to switch a conventional system interface into an information integration center interface, and the sample detection state or the equipment state can be monitored anytime and anywhere.

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

In sample testing operations, it is sometimes necessary for personnel to leave the sample analyzer for a period of time. After the user leaves the sample analyzer, the display interface of the sample analyzer still displays the picture viewed by the worker before, and the worker needs to pay attention to the sample detection state or the equipment state anytime and anywhere after leaving the sample analyzer, so that the information displayed on the display interface may not contain the information really needed to be paid attention by the worker, and the user cannot monitor the sample detection state or the equipment state at any time after leaving the sample analyzer, thereby affecting the sample detection work.

In addition, because the information displayed on the display interface is scattered and complicated, even if the display interface comprises the information which needs to be paid attention by the worker, the worker can hardly find the information which really needs to be paid attention by himself from the complicated information at a glance, and the worker can not conveniently check the information.

In order to solve the above-mentioned multiple pain points, embodiments of the present application provide a sample analysis system and a display interface switching method, so that a user can click a skip button to switch a system conventional interface to an information integration center interface, thereby monitoring a sample detection state or an equipment state anytime and anywhere.

In the embodiment of the present application, the sample analysis system includes a sample analyzer, where the sample analyzer is an instrument for performing detection analysis on a sample to be detected to obtain a detection result of the sample to be detected, and may specifically be a sample analyzer such as a blood corpuscular analyzer, a blood reader, a biochemical analyzer, an immunoassay analyzer, and a blood analyzer. Fig. 1 provides a schematic structural diagram of a sample analyzer in an embodiment of the present application, and as shown in fig. 1, the sample analyzer 100 at least includes a sampling device 110, a sample preparation device 120, and a detection device 130.

The sampling device 110 has a pipette (e.g., a sampling needle) with a pipette nozzle and a driving unit for driving the pipette to quantitatively take a sample to be tested through the pipette nozzle, for example, the sampling needle is driven by the driving unit to move into a sample container containing a blood sample to take a blood sample to be tested.

The sample preparation device 120 has at least one reaction cell and a reagent supply device (not shown). The at least one reaction cell is used for receiving a sample to be tested, which is sucked by the sampling device 110, and the reagent supply device is used for supplying a processing reagent to the at least one reaction cell, so that the sample to be tested, which is sucked by the sampling device 110, and the processing reagent supplied by the reagent supply device are mixed in the reaction cell to prepare a sample liquid to be tested.

The detecting device 130 is used for detecting the sample liquid to be detected prepared by the sample preparing device 120 to obtain a detection analysis result. For example, when the sample to be tested is a blood sample, the detecting device 130 can detect the sample solution to be tested prepared by the sample preparing device 120 to obtain the blood routine parameters.

In the embodiment of the present application, the sample analysis system may further include a display device for providing a display interface. The display device may be disposed in the same apparatus as the components of the sample analyzer, as shown in fig. 1, the display device 140 is disposed on the same sample analyzer together with the components of the sampling device 110, the sample preparation device 120, the detection device 130, and the like; or may be located outside of the instrument in which the components of the sample analyzer are located and in communicative connection with the components.

The display interface provided by the display device can display information such as parameter values, equipment states, and sample detection states of the detection indexes, for example, display detection analysis results of the sample to be detected obtained by the detection device 130. Further, the display interface can be configured as a human-computer interaction interface, and a user can directly input touch operation on the display interface to send an instruction to the sample analysis system.

In the embodiment of the present application, the sample analysis system further includes a control device, which can be disposed in the same instrument as the components of the sample analyzer, as shown in fig. 1, the control device 150 is disposed on the same sample analyzer together with the components of the sampling device 110, the sample preparation device 120, the detection device 130, and the like; the control device may also be located outside of the instrument in which the components of the sample analyzer are located and in communicative connection with the components.

The configuration of the control device will be described taking as an example a scenario in which the control device and the constituent elements of the sample analyzer are installed in the same apparatus. As shown in fig. 2, the control device 150 is connected to the components of the sample analyzer, such as the sampling device 110, the sample preparation device 120, and the detection device 130, and the display device 140, and can receive the status information fed back from each component. Control device 150 includes at least a processing component 151, RAM152, ROM153, a communication interface 154, memory 156, and an I/O interface 155. Processing component 151, RAM152, ROM153, communication interface 154, memory 156, and I/O interface 155 communicate over a bus 157. The processing component may be a CPU, GPU or other chip with computing capabilities. The memory 156 stores various computer programs executed by the processing unit 151, such as an operating system and an application program, and data necessary for executing the computer programs. In addition, data stored locally during sample analysis, if desired, may be stored in the memory 156. The I/O interface 155 is constituted by a serial interface such as USB, IEEE1394, or RS-232C, a parallel interface such as SCSI, IDE, or IEEE1284, and an analog signal interface composed of a D/a converter and an a/D converter. The I/O interface 155 is connected to an input device including a keyboard, a mouse, a touch panel, or other control buttons, and a user can directly input data to the control apparatus 150 using the input device. Further, a display device 140 having a display function, such as: liquid crystal screen, touch-sensitive screen, LED display screen etc.. The control device 150 may output the processed data as image display data to the display device 140 for display, for example: analytical data, instrument operating parameters, etc. Communication interface 154 may be an interface to any communication protocol presently known. The communication interface 154 communicates with the outside world via a network. The control device 150 may communicate data with any device connected via the network via the communication interface 154 in a communication protocol.

It should be noted that, in the embodiment of the present application, the sample analyzer may be a single sample analyzer, or may be formed by cascading multiple sample analyzers, in which case, multiple sample analyzers may share the same display device 140, that is, the status information of multiple sample analyzers is all displayed on the same display device, and a user may know the status information of each sample analyzer by only viewing one display device.

Based on the structure of the sample analyzer and the structure of the control device described above, in the embodiment of the present application, to solve the pain point mentioned above, the control device may control the display device to display an information integration center interface or a system general interface, where the information integration center interface is used to display the state overview information of the sample analyzer, and the system general interface is at least used to display the state detail information associated with the state overview information. When the display device displays the system conventional interface, the control device is also used for receiving the clicking operation of a user on a skip button in the system conventional interface, the skip button is associated with the information integration center interface, and the display device is controlled to switch the system conventional interface into the information integration center interface in response to the clicking operation. Therefore, before the user leaves the instrument, the user can click the skip button to switch the conventional interface of the system into the interface of the information integration center, and the user can directly check the state overview information in the interface of the information integration center, so that the information which needs to be concerned by the user can be quickly acquired, the detection state of the sample or the state of the equipment can be monitored anytime and anywhere, and the working efficiency is improved.

Meanwhile, the state overview information displayed on the interface of the information integration center can convey the state overview of the sample analyzer, the state overview information can be used for acquiring the detection state of the sample or the state of the equipment, a user can conveniently watch the state overview of the sample analyzer at any time and any place, the information needing to be paid attention to is not needed to be found from complicated information, the information needing to be paid attention to can be quickly acquired, and the user can conveniently check the information.

When the control display device switches the system conventional interface into the information integration center interface, the control device can control the display device to integrally switch the system conventional interface into the information integration center interface, the integral switching is that the whole interface of the system conventional interface is switched, all contents in the system conventional interface are switched, and the whole screen switching of the display interface is realized.

In addition, the display interface can also be automatically switched by the sample analysis system, and the specific mode is that when the display device displays the conventional interface of the system, the control device judges whether the automatic switching condition is met, if so, the display device is controlled to switch the conventional interface of the system to the interface of the information integration center, so that the state overview information of the sample analyzer can be displayed for a user, namely, the conventional interface of the system can be automatically switched to the interface of the information integration center by the sample analysis system when the automatic switching condition is met, the user can directly check the state overview information in the interface of the information integration center, so that the information which needs to be paid attention by the user can be quickly obtained, the sample analysis system can automatically display the interface of the information integration center, the user does not need to personally go to operate the instrument before the user faces, and does not need to manually click to switch the interface of the information integration center, so that the user operation can be reduced, and the user experience can be improved.

The display interface is switched when the automatic switching condition is met, and the switching of the display interface is different from the switching of the display interface based on an input instruction of a user. The automatic switching condition indicates that the display interface is switched when the current state meets a preset state, wherein the preset state does not include the input instruction received by the user. The switching of the display interface based on the input instruction of the user refers to switching the display interface when receiving the input instruction of the user.

Based on the foregoing technical solution, the embodiments of the present application further provide a plurality of implementation manners for switching a display interface when an automatic switching condition is satisfied. In a preferred embodiment, the automatic switching condition may be a condition that a time length of receiving no input operation of the user on the system conventional interface exceeds a preset time length threshold, and the control device determines whether the automatic switching condition is satisfied, that is, determines whether a time length of receiving no input operation of the user on the system conventional interface exceeds the preset time length threshold, and if the automatic switching condition is satisfied, controls the display device to switch the system conventional interface to the information integration center interface.

For example, the preset time threshold is 5 minutes, and when the control device determines that the input operation of the user on the system conventional interface is not received for more than 5 minutes, and determines that the automatic switching condition is satisfied, the control device controls the display device to switch the system conventional interface to the information integration center interface.

In another preferred embodiment, the automatic switching condition may also be a condition that the distance between the sample analysis system and the user exceeds a first preset distance threshold. Specifically, the sample analysis system may be configured with a sensor, and obtain a distance between the sample analysis system and a user based on the sensor, and when determining whether the automatic switching condition is satisfied, determine whether the distance between the sample analysis system and the user exceeds a first preset distance threshold according to the distance between the sample analysis system and the user obtained by the sensor, and if so, that is, the automatic switching condition is satisfied, control the display device to switch the system interface to the information integration center interface.

The sensor can be a distance sensor, the distance sensor can be an optical distance sensor, an infrared distance sensor, an ultrasonic distance sensor and the like according to different working principles, and the control device can acquire the distance between the sample analysis system and a user based on the distance sensor; the sensor may also be a depth image sensor, and the control device may calculate the distance between the sample analysis system and the user according to a depth image of the user captured by the depth image sensor.

Therefore, when the user is far away from the sample analysis system, the sample analysis system can automatically switch and display the information integration center interface, the user can conveniently watch the state overview information in a long distance, the user does not need to go to the instrument from a far position to click and open the information integration center interface, the running times of the user are reduced, and the time is saved.

Optionally, in order to facilitate a user to watch the state overview information in the information integration center interface at a remote location, the size of the state overview information displayed on the interface may be freely adjusted by the user, or may be automatically adjusted by the control device according to the distance between the user and the sample analysis system, and the size of the display size of the state overview information is automatically increased when the distance is longer, so that the screen occupation ratio of the state overview information is improved, and the state overview information watched by the user at a remote location is clearer.

In another preferred embodiment, the automatic switching condition may be a condition that the light brightness of the environment in which the sample analysis system is located is within a first preset light brightness range. Specifically, the sample analysis system may be configured with a light sensor, and when it is determined whether the automatic switching condition is satisfied, it may be determined whether the light brightness of the environment in which the sample analysis system is located is within the first preset light brightness range based on the light brightness of the environment in which the sample analysis system is located, which is obtained by the light sensor, and if so, the automatic switching condition is satisfied, and the display device is controlled to switch the system conventional interface to the information integration center interface.

For example, a worker in a hospital department needs to pay attention to the state overview of the sample analysis system at any time and any place during night duty, and due to this requirement, the first preset light brightness range may be a light brightness range corresponding to a night time period, and when the worker is on duty at night, the control device of the sample analysis system determines that the light brightness of the environment where the sample analysis system is located is within the first preset light brightness range, determines that the automatic switching condition is satisfied, and controls the display device to be switched from the system conventional interface to the information integration center interface, so that the worker can view the state overview information displayed by the information integration center interface at any time and any place during night duty.

When the first preset light brightness range is the light brightness range corresponding to the night time period, in a scene with weak light brightness, for example, in rainy weather, the light brightness of the environment where the sample analysis system is located is weak, and the light brightness of the environment where the sample analysis system is located may fall within the first preset light brightness range, the control device may also control the display device to be switched from the system conventional interface to the information integration center interface.

Therefore, the sample analysis system can switch the conventional interface of the system to the interface of the information integration center based on any automatic switching condition without inputting operation by a user or switching under an input instruction of the user, so that the operation of the user can be reduced, and the use of an instrument by the user is facilitated.

In the embodiment of the application, if the user can preset the automatic switching condition, the control device may receive the setting information of the automatic switching condition input by the user, and determine the automatic switching condition according to the setting information of the automatic switching condition. For example, the setting information of the automatic switching condition input by the user may indicate that the time length for which the input operation of the user on the system conventional interface is not received exceeds the preset time length threshold, and the setting information further includes a specific numerical value of the preset time length threshold, and the control device determines, according to the setting information, that the automatic switching condition is that the time length for which the input operation of the user on the system conventional interface is not received exceeds the preset time length threshold; similarly, the setting information may also indicate setting information of an automatic switching condition, such as that the distance between the sample analysis system and the user exceeds a first preset distance threshold, or that the light brightness of the environment where the sample analysis system is located is within a first preset light brightness range.

And compared with the mode of switching the display interface when the automatic switching condition is met, the mode of switching the display interface based on the input instruction of the user is that the user inputs a switching instruction to the conventional interface of the system, and the control device responds to the switching instruction and switches the conventional interface of the system into the interface of the information integration center. The mode of inputting the switching instruction by the user can be that the user clicks a jump key in a conventional interface of the system, the jump key is associated with information integration center interface, and the control device identifies the clicking operation of the user on the jump key as the switching instruction; or the user can slide an input instruction on the conventional system interface based on a preset gesture, and the control device determines a switching instruction corresponding to the preset gesture according to the sliding operation of the preset gesture, and further recognizes the switching instruction as the user input switching instruction. Therefore, the display interface is switched based on the input instruction of the user and the display interface is switched when the automatic switching condition is met, the display interface is obviously different from the display interface switched when the automatic switching condition is met, and the interface can be automatically switched without the input instruction of the user in the mode of switching the display interface when the automatic switching condition is met.

When the display device displays the information integration center interface, the interface can be switched to a system conventional interface. Specifically, when the display device displays the information integration center interface, the control device is further configured to determine whether the switching condition is met, and if so, control the display device to switch the information integration center interface to a target system conventional interface in the at least one system conventional interface, where the target system conventional interface may be a system conventional interface that is preset and displayed by default in the at least one system conventional interface, that is, a system conventional interface that is displayed by default when the information integration center interface is switched to the system conventional interface.

The switching condition may be that an operation input by a user is received, and when the display device displays the information integration center interface, the control device determines whether the operation input by the user is currently received, and if so, controls the display device to switch the information integration center interface to a conventional interface of the target system.

For example, when the information integration center interface is displayed, a user inputs an operation to the sample analysis system, which indicates that the user may need to view a system conventional interface with more information, based on this scenario, the user may tap any position on the screen or input any other operation to the sample analysis system, the control device recognizes the operation input by the user, and if it is determined that the switching condition is satisfied, the display device is controlled to switch the information integration center interface to the target system conventional interface.

In addition, the switching condition may also be that the distance between the sample analysis system and the user is smaller than a second preset distance threshold, when the display device displays the information integration center interface, the control device determines whether the distance between the sample analysis system and the user is smaller than the second preset distance threshold according to the distance between the sample analysis system and the user acquired by the sensor, and if so, controls the display device to switch the information integration center interface to the conventional interface of the target system.

Therefore, when a user approaches the sample analysis system, the sample analysis system can automatically display the conventional interface of the target system, the user does not need to manually switch to the conventional interface of the target system, the operation of the user is reduced, and the intelligence of the sample analysis system is improved.

The second predetermined distance threshold may be smaller than or equal to the aforementioned first predetermined distance threshold. The sensor may be the aforementioned distance sensor or depth image sensor.

The switching condition may also be that the light brightness of the environment where the sample analysis system is located is within a second preset light brightness range, and when the display device displays the information integration center interface, the control device judges whether the light brightness of the environment where the sample analysis system is located is within the second preset light brightness range based on the light brightness of the environment where the sample analysis system is located, and if so, controls the display device to switch the information integration center interface to a conventional interface of the target system.

The second predetermined light intensity range does not intersect with the first predetermined light intensity range mentioned above.

The switching condition can also be switching based on a switching instruction of a user, namely the switching instruction input by the user indicates that the information integration center interface is switched to the conventional interface of the target system, and the control device is used for receiving the switching instruction and switching the information integration center interface to the conventional interface of the target system according to the instruction of the switching instruction. The mode of inputting the switching instruction by the user can be that the user clicks a jump key in an information integration center interface, the jump key is associated with a conventional interface of a target system, and the control device identifies the clicking operation of the jump key by the user as the switching instruction; or the user can slide an input instruction on the information integration center interface based on a preset gesture, and the control device determines a switching instruction corresponding to the preset gesture according to the sliding operation of the preset gesture, and further recognizes the switching instruction as the user input switching instruction.

And switching to a target system conventional interface from the information integration center interface, wherein the target system conventional interface can be a default displayed system conventional interface, can be a sample detection result interface, or can be a system conventional interface displayed last time, or can be a sample detection application interface. The sample detection result interface is used for displaying state detail information related to a sample detection result, such as detail information of a measurement value of a detection index of a sample, test completion time, whether an abnormality exists in a test process, and specific information of the abnormality; the sample detection application interface is used for displaying state detail information related to the sample detection application, such as an index for applying detection and detail information such as reagent condition, consumable material condition or calibration condition required by the index for applying detection.

FIG. 3 provides an interface diagram of a sample application interface, which shows status details related to the sample application, such as an indicator of the application for testing and details of the status of reagents, consumables or calibration required by the indicator of the application for testing.

Fig. 4 provides an interface schematic diagram of a sample test result interface, and as shown in the diagram, the sample test result interface displays status detail information related to the sample test result, such as the measured value of the test indicator of the sample and the details of the measurement result, the test completion time, the sample identification number, the sample serial number, and other detail information.

One scenario for switching the information integration center interface to the conventional interface of the target system is that a user checks the conventional interface of the system at a certain moment, then the user needs to leave the sample analysis system for a short time, the sample analysis system automatically displays the interface of the information integration center when the automatic switching condition is met, and the user can pay attention to the state overview information of the sample analyzer at any time and any place; when a user needs to continuously check the conventional interface of the system last time, the user approaches the sample analysis system, the sample analysis system automatically displays the conventional interface of the system which is displayed last time, and the user does not need to manually switch the interface of the information integration center to the conventional interface of the system which needs to be checked, so that the operation of the user is reduced, and the user can use the system conveniently.

Further, a condition corresponding to a default display sample detection result interface, a condition corresponding to a system routine interface which is switched to be displayed last time in a default mode, and a condition corresponding to a sample detection application interface in a default mode can be preset, so that a target system routine interface corresponding to the condition is switched to when the condition is met.

Likewise, the user may set the switching condition by inputting setting information of the switching condition to the sample analysis system, and the control device receives the setting information and determines the switching condition based on the setting information. For example, if the setting information indicates that the distance between the sample analysis system and the user is less than the second preset distance threshold and the specific value of the second preset distance threshold, the control device determines the switching condition according to the setting information.

In the embodiment of the application, the function of switching the display interface when the automatic switching condition is met and the function of switching the display interface when the switching condition is met support the user to select, that is, the automatic switching function of the display interface of the display device supports the user to activate or deactivate. When the user selects to start the automatic switching function, the control device executes the function of switching the display interface when the automatic switching condition is met, or executes the function of switching the display interface when the switching condition is met; when the user deactivates the automatic switching function, the control device does not execute the function of switching the display interface when the automatic switching condition is met, the display interface is not switched to the conventional interface of the target system when the distance between the sample analysis system and the user is smaller than a second preset distance threshold value, the display interface is not switched to the conventional interface of the target system when the light brightness of the environment where the sample analysis system is located is within a second preset light brightness range, and the user can manually click the skip key to switch to the information integration center interface or manually click the skip key to switch to the conventional interface of the target system.

Therefore, the automatic switching function supports user selection, flexibility of the user for selecting the functions of the instrument is improved, and user experience is further improved.

In a preferred embodiment, the control device is further configured to receive a layout instruction input by a user, and control the display device to layout and display the status overview information of the sample analyzer in a layout manner indicated by the layout instruction in the information integration center interface. Therefore, the user can adjust the layout mode of the state overview information according to the viewing habit and the requirement of the user, for example, adjust the display position, or the size of the display, of the state overview information in the interface of the information integration center, or adjust the position relationship among the state overview information, and the like, so that the display effect of the state overview information can meet the viewing requirement and habit of the user, and the viewing experience of the user on the interface is improved.

When some conventional system interfaces are not provided with the jump keys, a user needs to return to the conventional system interface provided with the jump keys from the conventional system interface not provided with the jump keys, and then click the jump keys in the conventional system interface to jump to the information integration center interface, so that the operation is complicated for the user. Therefore, in another preferred embodiment, each system conventional interface can be provided with a jump key and is associated with the information integration center interface, so that a user can directly return to the information integration center interface from any system conventional interface, and the operation of the user is greatly simplified.

In another preferred embodiment, when the system conventional interface is an interface of a web-end application program, the jump key is arranged at the upper left corner of the system conventional interface, the position of the upper left corner is relatively easy to find, and the jump key is fixedly arranged at the upper left corner of the interface, so that the subconscious of the user on the setting position of the jump key can be cultivated, the user can react to the setting position of the jump key subconsciously, and the user does not need to search for the jump key painstakingly. When the conventional interface of the system is the interface of the APP terminal application program, the skip key is arranged in the middle below the conventional interface of the system, and a user can easily click the skip key by fingers when holding the terminal, so that the operation of the user is facilitated.

In another preferred embodiment, the key icon of the skip key of the system interface may be a brand identifier of the sample analyzer, for example, a brand pattern of the sample analyzer, or a manufacturer identifier or the like for representing the brand identifier of the sample analyzer, so that the exposure rate of the brand identifier of the sample analyzer can be increased, the brand awareness can be improved, and the brand advertising of the manufacturer can be facilitated.

The status overview information is associated with the status detail information, and the status overview information may be partial information in the status detail information, or information obtained after summarizing, counting and summarizing the status detail information, or the status overview information does not belong to partial information in the status detail information, or is obtained by summarizing and summarizing the status detail information, but the status overview information and the status detail information are both status information about a certain sample or a certain device.

Specifically, the state overview information of the sample analyzer includes sample overview information and/or system overview information, and the sample overview information includes one or more of the number of abnormal samples, the number of on-machine samples, the number of emergency samples, the number of samples being aspirated, the number of samples for which detection has been applied, the number of samples for which detection has been completed, the number of samples for which a result is abnormal, the number of recoverable samples, and the number of samples for which auditing can be performed. The system overview information comprises at least one of reagent consumable information, calibration information and quality control information, wherein the reagent consumable information comprises one or more items of information of the reagent consumable in the machine amount condition, the abnormal prompt of the reagent consumable and the historical measurement and calculation data of the reagent consumable; the calibration information comprises one or more items of information of a calibration validity period, a calibration product validity period, a calibration result expiration reminder and calibration product allowance; the quality control information comprises one or more items of information of quality control validity period, quality control product validity period, quality control result expiration reminding and quality control product allowance.

In particular, the sample overview information displayed by the information integration center interface may vary in different scenarios. For example, in the sample testing phase, the user is more concerned about the number of abnormal samples, the number of samples being aspirated, and the number of samples on-machine; during the shift period, the user also needs to pay attention to the number of online samples; in an emergency scene, the user pays more attention to the number of emergency samples; in the stage of examining and verifying the sample, the user pays more attention to the number of samples which have been applied for detection, the number of samples which have been detected, and the number of samples with abnormal results. Therefore, according to different scenes, the information integration center interface can display sample overview information which is more concerned by the user in the scene, and display content which is more valuable to the user in the scene, so that the information displayed by the information integration center interface is more suitable for the actual requirements of the user.

Fig. 5 provides an interface schematic diagram of an information integration center interface, as shown in the figure, the information integration center interface is distributed with a display area corresponding to a sample overview, a display area corresponding to a system overview, and a plurality of function keys, where the display area corresponding to the sample overview is used to display sample overview information, the display area corresponding to the system overview includes a display area for displaying system overview information of a biochemical analyzer M2, a display area for displaying system overview information of an immunoassay analyzer M1, and a display area for displaying system overview information of an SDM platform, where the SDM platform in the sample analysis system is a platform for sample recovery and temporary storage, and samples that have been detected, samples to be detected, and samples waiting for scanning test information are temporarily stored on the SDM platform.

Therefore, the display area corresponding to the biochemical analyzer M2 in the interface of the information integration center displays the system overview information of the biochemical analyzer M2, including reagent consumable information, calibration information, quality control information, instrument maintenance condition and other system overview information; similarly, the display region corresponding to the immunoassay analyzer M1 may also display the system overview information of the immunoassay analyzer M1, that is, each display region displays the system overview information of one sample analyzer, so that the user can view the status overview of each sample analyzer in the cascade mode of multiple sample analyzers.

As shown in fig. 5, the display area corresponding to the sample overview displays sample overview information, such as the number of abnormal samples 5, the total number of samples, the number of recoverable samples 20, the number of auditable samples 20, and the expected completion time of the remaining incomplete test samples.

Therefore, when a user watches the state overview information displayed on the information integration center interface, the detection state of the sample and the running state of the instrument can be obtained, the information really needing to be paid attention to is obtained, the sample detection state and the running state of the instrument can be paid attention to anytime and anywhere, and the information integration center interface also avoids displaying messy and various information, so that the display effect of the sample overview information and the system overview information in the information integration center interface is more striking, the interface is simpler, and the user watching interface experience is better.

The above describes that the components of the sample analysis system in the embodiment of the present application implement switching of the display interface under the input instruction of the user, and the method executed by the sample analysis system when switching the display interface will be described below based on the sample analysis system as a whole. Referring to fig. 6, an embodiment of a display interface switching method in the embodiment of the present application includes:

601. when a system conventional interface is displayed, receiving the clicking operation of a user on a skip button in the system conventional interface;

the method of the present embodiment is applicable to the sample analysis system of the foregoing, wherein the information integration center interface is used for displaying the status overview information of the sample analyzer, and the system interface is at least used for displaying the status detail information associated with the status overview information. The state overview information and the state detail information are described in detail above and will not be described herein.

The sample analysis system may configure the display device and display an information integration center interface or a display system custom interface to a user via the display device.

A system conventional interface is provided with a skip button, and the skip button is associated with an information integration center interface. And when the system conventional interface is displayed, receiving the clicking operation of a user on a skip button in the system conventional interface.

602. Responding to the click operation, and switching the conventional interface of the system into an information integration center interface;

and after receiving the click operation, the sample analysis system responds to the click operation and switches the conventional interface of the system into an information integration center interface associated with the skip key.

Therefore, before the user leaves the instrument, the user can click the skip button to switch the conventional interface of the system into the interface of the information integration center, and the user can directly check the state overview information in the interface of the information integration center, so that the information which needs to be concerned by the user can be quickly acquired, the detection state of the sample or the state of the equipment can be monitored anytime and anywhere, and the working efficiency is improved.

Meanwhile, the state overview information displayed on the interface of the information integration center can convey the state overview of the sample analyzer, the state overview information can be used for acquiring the detection state of the sample or the state of the equipment, a user can conveniently watch the state overview of the sample analyzer at any time and any place, the information needing to be paid attention to is not needed to be found from complicated information, the information needing to be paid attention to can be quickly acquired, and the user can conveniently check the information.

Based on the embodiment shown in fig. 6, in another preferred implementation, after the system normal interface is switched to the information integration center interface, it may be further determined whether the switching condition is satisfied, if so, the information integration center interface is switched to a target system normal interface in the at least one system normal interface, and the target system normal interface is a default displayed system normal interface in the at least one system normal interface.

Specifically, the specific manner of determining whether the switching condition is satisfied may be to determine whether an operation input by a user is currently received, and if so, switch the information integration center interface to a conventional interface of the target system.

The specific manner of judging whether the switching condition is met may also be that whether the distance between the sample analysis system and the user is smaller than a preset distance threshold is judged according to the distance between the sample analysis system and the user acquired by the sensor, and if so, the information integration center interface is switched to the conventional interface of the target system.

Therefore, when a user approaches the sample analysis system, the sample analysis system can automatically display the conventional interface of the target system, the user does not need to manually switch to the conventional interface of the target system, the operation of the user is reduced, and the intelligence of the sample analysis system is improved.

The specific manner of judging whether the switching condition is met may be that whether the light brightness of the environment where the sample analysis system is located is within a preset light brightness range is judged based on the light brightness of the environment where the sample analysis system is located, and if yes, the display device is controlled to switch the information integration center interface to the conventional interface of the target system.

The target system routine interface can be a sample detection result interface, or a system routine interface displayed last time, or a sample detection application interface. The sample analysis system may further receive setting information of the switching condition input by the user, and determine the switching condition according to the setting information of the switching condition.

Based on the example shown in fig. 6, in another preferred embodiment, the sample analysis system can also receive a layout instruction input by a user, and the state overview information of the sample analyzer is laid out and displayed in a layout manner indicated by the layout instruction in the information integration center interface. Therefore, the user can adjust the layout mode of the state overview information according to the viewing habit and the requirement of the user, for example, adjust the display position, or the size of the display, of the state overview information in the interface of the information integration center, or adjust the position relationship among the state overview information, and the like, so that the display effect of the state overview information can meet the viewing requirement and habit of the user, and the viewing experience of the user on the interface is improved.

When some conventional system interfaces are not provided with the jump keys, a user needs to return to the conventional system interface provided with the jump keys from the conventional system interface not provided with the jump keys, and then clicks the jump keys in the conventional system interface to jump to the information integration center interface, so that the operation is complicated for the user. Therefore, based on the embodiment shown in fig. 6, in another preferred implementation, each system normal interface may be provided with a jump key and is associated with the information integration center interface, so that a user may directly return to the information integration center interface from any one system normal interface, thereby greatly simplifying the operation of the user.

In another preferred embodiment, when the system conventional interface is an interface of a web-end application program, the jump key is arranged at the upper left corner of the system conventional interface, the position of the upper left corner is relatively easy to find, and the jump key is fixedly arranged at the upper left corner of the interface, so that the subconscious of the user on the setting position of the jump key can be cultivated, the user can react to the setting position of the jump key subconsciously, and the user does not need to search for the jump key painstakingly. When the conventional interface of the system is the interface of the APP terminal application program, the skip button is arranged in the middle of the lower portion of the conventional interface of the system, and a user can easily click the skip button by fingers when holding the terminal, so that the operation of the user is facilitated.

An embodiment of the present application further provides a computer storage medium, where one embodiment includes: the computer storage medium has stored therein instructions that, when executed on a computer, cause the computer to perform the operations previously described as being performed by the sample analysis system in the embodiment of fig. 6.

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

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

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

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

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and the like.

Claims (11)

1. A sample analysis system, comprising:

the sample analyzer is used for preparing a reaction liquid formed by mixing a sample and a reagent and detecting the reaction liquid to obtain a detection result; display device and

the control device is used for controlling the display device to display an information integration center interface or a system conventional interface, the information integration center interface is used for displaying the state overview information of the sample analyzer, and the system conventional interface is at least used for displaying the state detail information related to the state overview information;

the control device is also used for receiving the clicking operation of a user on a skip button in the system conventional interface when the display device displays the system conventional interface, and the skip button is associated with the information integration center interface; and responding to the clicking operation, and controlling the display device to switch the system conventional interface into the information integration center interface.

2. The sample analysis system according to claim 1, wherein when the display device displays the information integration center interface, the control device is further configured to determine whether a switching condition is satisfied, and if so, control the display device to switch the information integration center interface to a target system conventional interface, where the target system conventional interface is a default system conventional interface preset in at least one of the system conventional interfaces.

3. The sample analysis system of claim 2, wherein the target system routine interface is a sample test results interface, or a system routine interface that was last displayed, or a sample test application interface.

4. The sample analysis system of claim 2, further comprising a sensor;

the control device is used for judging whether the distance between the sample analysis system and the user is smaller than a preset distance threshold value or not according to the distance between the sample analysis system and the user acquired by the sensor when the display device displays the information integration center interface, and if so, controlling the display device to switch the information integration center interface to the conventional interface of the target system.

5. The sample analysis system of claim 2, further comprising a light sensor;

the control device is used for judging whether the light brightness of the environment where the sample analysis system is located is within a preset light brightness range or not based on the light brightness of the environment where the sample analysis system is located, which is obtained by the light sensor, when the display device displays the information integration center interface, and if so, controlling the display device to switch the information integration center interface to the conventional interface of the target system.

6. The sample analysis system of claim 1, wherein the control device is further configured to receive a layout instruction input by a user, control the display device to layout and display the status overview information of the sample analyzer in the information integration center interface in a layout manner indicated by the layout instruction.

7. The sample analysis system of claim 1, wherein each of the system interfaces is configured with the skip button and is associated with the information integration center interface.

8. The sample analysis system of claim 1, wherein when the system interface is an interface of a web-end application, the skip button is disposed in an upper left corner of the system interface; when the conventional interface of the system is the interface of the APP terminal application program, the jump key is arranged in the middle position below the conventional interface of the system.

9. The sample analysis system of any of claims 1 to 8, wherein the sample analyzer's status overview information comprises sample overview information and/or system overview information;

the sample overview information comprises one or more of the number of abnormal samples, the number of on-machine samples, the number of emergency treatment samples, the number of samples in sample sucking, the number of samples applying for detection, the number of samples completing detection, the number of samples with abnormal results, the number of recoverable samples and the number of samples capable of being audited;

the system overview information comprises at least one of reagent consumable information, calibration information and quality control information;

the reagent consumable information comprises one or more items of the reagent consumable, the quantity condition of the reagent consumable, the abnormal prompt of the reagent consumable and the historical measurement and calculation data of the reagent consumable;

the calibration information comprises one or more of calibration validity period, calibrator validity period, calibration result expiration reminder and calibrator allowance;

the quality control information comprises one or more of a quality control validity period, a quality control product validity period, a quality control result expiration reminding and a quality control product allowance.

10. A display interface switching method is applied to a sample analysis system, the sample analysis system comprises a sample analyzer and a display device, the display device is used for displaying an information integration center interface or a system conventional interface, the information integration center interface is used for displaying state overview information of the sample analyzer, and the system conventional interface is at least used for displaying state detail information associated with the state overview information;

the method comprises the following steps:

when the system conventional interface is displayed, receiving the clicking operation of a user on a skip button in the system conventional interface, wherein the skip button is associated with the information integration center interface;

and responding to the clicking operation, and switching the system conventional interface into the information integration center interface.

11. The method of claim 10, wherein after switching the system-generic interface to the information integration center interface, the method further comprises:

and judging whether a switching condition is met, if so, switching the information integration center interface into a target system conventional interface, wherein the target system conventional interface is a default displayed system conventional interface preset in at least one system conventional interface.

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