CN113015907A - Sample analysis device and maintenance system and method thereof - Google Patents

Abstract

A sample analyzer (60), a maintenance system for the sample analyzer (60), and a maintenance method for the sample analyzer (60) improve the maintenance flow of the sample analyzer (60), so that the maintenance flow becomes convenient and efficient, user interaction is reduced, maintenance efficiency is improved, and preparation time before user testing is reduced.

Description

Sample analysis device and maintenance system and method thereof Technical Field

The present invention relates to a sample analyzer, a maintenance system for a sample analyzer, and a maintenance method for a sample analyzer.

Background

Sample analyzers, such as biochemical analyzers and immunoassays, are devices for analyzing and measuring samples. In order to ensure the reliable performance of the sample analyzer, to maintain the sample analyzer in a good working state, and to prolong the service life of the equipment, the sample analyzer needs to be regularly maintained strictly as required; for example, in order to maintain the excellent performance of a biochemical analyzer, it is necessary to perform intensive cleaning of a reaction cup, a stirring rod, a sample needle, and a reagent needle of the biochemical analyzer periodically, to perform maintenance on a cup grasping hand, a liquid path, and the like of the biochemical analyzer, and to record maintenance history and problems occurring during the maintenance process after each maintenance is completed, so that the operation condition of the biochemical analyzer can be confirmed later or the cause of the failure can be traced.

The inventor researches and discovers that at present, there are two main scenes for maintaining a sample analysis device, namely, periodically maintaining a single sample analysis device which independently works, and periodically maintaining a plurality of sample analysis devices which are cascaded to form a system.

For example, taking regular maintenance of a single independent sample analyzer as an example, fig. 1 is a general maintenance flow, where an instrument first determines whether a maintenance item needs to be executed on the current day or the current day, if so, the corresponding maintenance item is marked, a user can know which maintenance items need to be executed currently by checking a maintenance label on an operation interface, then the user can enter the maintenance interface, select a marked maintenance item, then click to execute, then the instrument displays a precondition of the maintenance item, the user prepares according to the precondition displayed by the instrument, after the preparation, click to determine, then the instrument executes the corresponding maintenance item and stays in the current maintenance interface, after the maintenance item is executed, the instrument enters the maintenance history interface, and the user manually registers a maintenance history, such as a maintenance operator, on the maintenance history interface, the instrument updates the maintenance record according to the maintenance history registered by the user when the instrument executes the operation, maintains the project name and some details of the execution process (whether the error is reported or not, the maintenance result and the like); the user then returns to the maintenance interface to repeat the above process to begin and proceed to the next maintenance item, and so on until all marked maintenance items have been performed.

The process of regularly maintaining a plurality of sample analyzers which are cascaded to form a system is similar, but only one sample analyzer needs to be selected in a maintenance interface every time, and then the next sample analyzer is selected in the maintenance interface for maintenance after the sample analyzer is maintained.

While the technicians usually pay attention to specific contents of each maintenance item, such as which maintenance items need to be performed and how to determine the period of the maintenance items, the technicians pay less attention to the specific maintenance procedures, the inventors found that the current maintenance procedures have many inconveniences and places to be improved when studying the maintenance procedures of the sample analysis device.

Disclosure of Invention

The invention mainly provides a sample analyzer, a maintenance system for the sample analyzer, and a maintenance method for the sample analyzer.

According to a first aspect, there is provided in one embodiment a method of maintenance of a sample analysis device, comprising:

determining a plurality of maintenance items which need to be carried out currently;

controlling the sample analysis device to perform the determined plurality of maintenance items.

In one embodiment, the determining the plurality of maintenance items currently required to be performed includes:

displaying a project maintenance interface on a current operation interface, and receiving a selection instruction of a user for a plurality of maintenance projects;

in response to a selection instruction of the plurality of maintenance items by the user, the plurality of maintenance items selected by the user are determined as the maintenance items currently required to be performed.

In one embodiment, when the sample analysis device is controlled to execute the plurality of maintenance items, the item maintenance interface is exited from the current operation interface and enters a background operation.

In one embodiment, after the project maintenance interface exits the current operation interface and enters a background operation, the test condition information is displayed on the current operation interface.

In one embodiment, the test condition information includes reagent information, quality control information, and/or calibration information.

In one embodiment, when the sample analysis device is judged to have executed the determined plurality of maintenance items, the maintenance result is displayed on the current maintenance interface.

In one embodiment, the determining the plurality of maintenance items currently required to be performed includes: and when the current maintenance trigger event is judged to be the preset maintenance trigger event, determining a plurality of preset maintenance items as the maintenance items which need to be carried out currently.

In one embodiment, the maintenance triggering event includes power on and/or power off.

In one embodiment, after determining a plurality of maintenance items that need to be performed currently, the method further displays a precondition on the current operation interface, including: after a plurality of maintenance items which need to be carried out currently are determined, the precondition of each maintenance item is judged, and at least unsatisfied maintenance items and the preconditions thereof are displayed on the current operation interface; or after a plurality of maintenance items which are required to be performed currently are determined, displaying the precondition of each maintenance item on the current operation interface;

when it is determined that each of the maintenance items satisfies the respective precondition, the sample analysis device is controlled to execute the determined plurality of maintenance items.

In one embodiment, the maintenance method further includes: when it is judged that the sample analysis apparatus has executed the plurality of maintenance items determined, the maintenance record is automatically updated.

According to a second aspect, there is provided in one embodiment a method of servicing a sample analysis apparatus, comprising:

determining one or more sample analysis devices which need to be maintained currently in the plurality of sample analysis devices;

for each determined sample analysis device, determining one or more maintenance items currently required to be performed;

controlling the sample analyzing apparatus to execute the respectively determined maintenance items.

In one embodiment, the maintenance method further includes:

displaying a project maintenance interface on a current operation interface, and receiving a selection instruction of a user for the sample analysis device and a selection instruction of the user for a maintenance project of the selected sample analysis device;

in response to a selection instruction of a user for the sample analysis device, determining the sample analysis device selected by the user as a sample analysis device which needs to be maintained currently;

in response to a user selection instruction for a maintenance item of the selected sample analyzer, the maintenance items currently required to be performed by the various analyzers selected by the user are determined.

In one embodiment, when the sample analysis device is controlled to execute the respectively determined maintenance items, the item maintenance interface is exited from the current operation interface and enters a background operation.

In one embodiment, after the project maintenance interface exits the current operation interface and enters a background operation, the test condition information of various analysis devices is displayed on the current operation interface.

In one embodiment, the test condition information includes reagent information, quality control information, and/or calibration information.

In one embodiment, when it is determined that any or all of the sample analyzers have executed the determined maintenance items, the maintenance results are displayed on the current maintenance interface.

In an embodiment, when it is determined that the current sample analysis device is a preset maintenance trigger event, all sample analysis devices are determined as sample analysis devices which currently need to be maintained, and a plurality of preset maintenance items are determined as maintenance items which currently need to be performed by each sample analysis device.

In one embodiment, the maintenance triggering event includes power on and/or power off.

In one embodiment, for each determined sample analysis device, after determining one or more maintenance items that need to be performed currently, the method further displays preconditions on the current operation interface, including: judging the precondition of each maintenance item, and displaying at least the unsatisfactory maintenance items and preconditions of the sample analysis device on the current operation interface; or, displaying the precondition of the maintenance items of one or all sample analysis devices on the current operation interface;

and for any sample analysis device, when determining that each maintenance item of the sample analysis device meets the preset condition, controlling the sample analysis device to execute the determined maintenance item.

In one embodiment, the maintenance method further includes: when it is judged that any one of the sample analyzers has finished executing the specified maintenance item, the maintenance record of the sample analyzer is automatically updated.

According to a third aspect, there is provided in one embodiment a sample analysis device comprising:

a measuring part for measuring the sample to obtain an item test result of the sample;

the sample part is used for bearing a sample to be tested, sucking the sample and then providing the sample to the measuring part;

a reagent unit for carrying a reagent and sucking the reagent and supplying the reagent to the measurement unit;

and a controller for determining a plurality of maintenance items that are currently required to be performed, and controlling the sample analyzer to execute the plurality of determined maintenance items.

In one embodiment, the sample analysis device further comprises a display; the controller determining a plurality of maintenance items that currently need to be performed includes:

controlling a display to display a project maintenance interface on a current operation interface, and receiving a selection instruction of a user for a plurality of maintenance projects;

in response to a selection instruction of the plurality of maintenance items by the user, the plurality of maintenance items selected by the user are determined as the maintenance items currently required to be performed.

In one embodiment, when the sample analysis device is controlled to execute the plurality of maintenance items, the controller controls the display to exit the item maintenance interface from the current operation interface and enter a background operation.

In one embodiment, the controller controls the display to exit the current operation interface and enter the background for running, and then controls the display to display the test condition information on the current operation interface.

In one embodiment, the test condition information includes reagent information, quality control information, and/or calibration information.

In one embodiment, when it is determined that the sample analysis apparatus has performed the determined plurality of maintenance items, the controller controls the display to display the maintenance result on the current maintenance interface.

In one embodiment, the controller determining a plurality of maintenance items that currently need to be performed includes: and when the current maintenance trigger event is judged to be the preset maintenance trigger event, determining a plurality of preset maintenance items as the maintenance items which need to be carried out currently.

In one embodiment, the maintenance triggering event includes power on and/or power off.

In one embodiment, after determining a plurality of maintenance items that need to be performed currently, the controller further controls the display to display a precondition on the current operation interface, including: after determining a plurality of maintenance items which need to be carried out currently, the controller judges the precondition of each maintenance item and controls the display to display at least unsatisfied maintenance items and the preconditions thereof on the current operation interface; or after the controller determines a plurality of maintenance items which need to be carried out currently, the controller controls the display to display the precondition of each maintenance item on the current operation interface;

the controller controls the sample analysis device to execute the determined plurality of maintenance items when it is determined that each of the maintenance items satisfies the respective precondition.

In one embodiment, the controller further automatically updates the maintenance record when it is determined that the sample analysis device has performed the determined plurality of maintenance items.

According to a fourth aspect, there is provided in one embodiment a maintenance system for a sample analysis device, comprising:

a plurality of sample analyzers;

a controller that determines one or more sample analyzers that currently require maintenance; for each determined sample analysis device, determining one or more maintenance items currently required to be performed; controlling the sample analyzing apparatus to execute the respectively determined maintenance items.

In one embodiment, the maintenance system further comprises a display; the controller controls the display to display the item maintenance interface on the current operation interface, and is used for receiving a selection instruction of a user on the sample analysis device and receiving a selection instruction of the user on a maintenance item of the selected sample analysis device; the controller responds to a selection instruction of a user for the sample analysis device, and determines the sample analysis device selected by the user as a sample analysis device which needs to be maintained currently; the controller determines, in response to a user selection instruction for a maintenance item of the selected sample analysis apparatus, a maintenance item currently required to be performed by the various analysis apparatuses selected by the user.

In one embodiment, when the sample analysis device is controlled to execute the respectively determined maintenance items, the controller controls the display to exit the item maintenance interface from the current operation interface and enter the background operation.

In an embodiment, the controller controls the display to exit the current operation interface and enter the background operation interface, and then controls the display to display the test condition information of various analysis devices on the current operation interface.

In one embodiment, the test condition information includes reagent information, quality control information, and/or calibration information.

In one embodiment, when it is determined that any one or all of the sample analyzers have performed the determined maintenance items, the controller controls the display to display the maintenance results on the current maintenance interface.

In one embodiment, when the current sample analyzer is determined to be the preset maintenance triggering event, the controller determines all the sample analyzers to be the sample analyzers currently needing to be maintained, and determines a plurality of preset maintenance items to be the maintenance items currently needing to be performed by each sample analyzer.

In one embodiment, the maintenance triggering event includes power on and/or power off.

In one embodiment, for each determined sample analysis device, after the controller determines one or more maintenance items currently required to be performed, the controller further controls the display to display a precondition on the current operation interface, including: the controller judges the precondition of each maintenance item and controls the display to display at least the unsatisfactory maintenance items and preconditions of the sample analysis device on the current operation interface; or the controller controls the display to display the precondition of the maintenance items of one or all sample analysis devices on the current operation interface;

for any sample analysis device, when each maintenance item of the sample analysis device is determined to meet the preset condition, the controller controls the sample analysis device to execute the determined maintenance item.

In one embodiment, the controller automatically updates the maintenance record of any sample analyzer when it is determined that the sample analyzer has performed the determined maintenance item.

According to a fifth aspect, an embodiment provides a computer-readable storage medium, characterized by a program, which is executable by a processor to implement the method according to any of the embodiments of the invention.

According to the sample analysis device, the maintenance system of the sample analysis device, the maintenance method of the sample analysis device, and the computer-readable storage medium of the embodiments, the maintenance flow of the sample analysis device is improved, so that the maintenance flow becomes convenient and efficient, for example, user interaction is reduced, maintenance efficiency is improved, and preparation time before user testing is reduced.

Drawings

FIG. 1 is a schematic flow chart illustrating the maintenance of a sample analyzer according to one embodiment;

FIG. 2 is a schematic structural diagram of a sample analyzer according to an embodiment;

FIG. 3 is two schematic diagrams of a project maintenance interface in one embodiment;

FIG. 4 is a diagram illustrating preconditions displayed in the current operator interface, in accordance with an exemplary embodiment;

FIG. 5 is a flow diagram of a maintenance method of an embodiment;

FIG. 6 is a flow chart of a maintenance method of another embodiment;

FIG. 7 is a flow chart of a maintenance method of yet another embodiment;

FIG. 8 is a schematic flow chart illustrating the maintenance of another embodiment of the sample analyzer;

FIG. 9 is a schematic structural view of a maintenance system of a sample analyzer according to an embodiment;

FIG. 10 is two schematic views of a project maintenance interface in accordance with an alternative embodiment;

FIG. 11 is a diagram illustrating a precondition being displayed on the current operation interface in accordance with another embodiment;

FIG. 12 is a flow chart of a maintenance method of yet another embodiment;

FIG. 13 is a flowchart of a maintenance method of yet another embodiment;

FIG. 14 is a flow chart of a maintenance method of yet another embodiment;

fig. 15 is a schematic flowchart illustrating maintenance of the sample analyzer according to still another embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The maintenance process is also important, and a convenient and concise maintenance process can ensure that a user can conveniently maintain the sample analysis device, so that the maintenance process can be effectively executed to ensure that the user does not strictly execute the regular maintenance due to the complexity of the maintenance process, and the working efficiency of the user and an instrument can be improved to save the time of the user due to the convenient and concise maintenance process.

The inventors have found that there are many inconveniences and places to be improved in the current maintenance process when studying the maintenance process of the sample analyzer. For example, when a single independently operated sample analyzer or a plurality of cascaded sample analyzers are maintained, only single selection is supported on a maintenance interface, one maintenance item is selected for execution each time, and after the maintenance item is executed, the next maintenance item is selected on the maintenance interface; for example, when a specific maintenance item is executed, the operation interface is occupied, so that a user can only wait for the end of the maintenance item and cannot perform other operations, for example, the reagent information is checked on the operation interface, so that the reagent with insufficient allowance is supplemented by using the time, the time is saved, and the efficiency is improved; for example, after the maintenance project is completed, the user needs to manually fill in the maintenance record, which is not only inefficient and tedious, but also easy to counterfeit, for example, the user forges the maintenance record. For those maintenance flow problems that have long been ignored, and undiscovered by those skilled in the art, the inventors propose corresponding improvements, which are described in detail below.

First, a maintenance flow of a single sample analyzer that operates independently will be described.

Referring to fig. 2, the sample analyzer of an embodiment includes a sample unit 10, a reagent unit 20, a measuring unit 30, and a controller 40, and in an embodiment, may further include a display 50. The sample unit 10 is used for carrying a sample to be tested, and the sample is sucked and supplied to the measurement unit 30. The reagent unit 20 is used for carrying a reagent, and supplies the reagent to the measurement unit 30 after the reagent is aspirated. The measurement section 30 is used to measure a sample to obtain a test result of an item of the sample. The measurement of the sample involves the matching of all parts, if some parts are not maintained timely and effectively, the measurement result of the sample is possibly influenced, and the reliability, the service life and the like of the instrument are reduced; regular and efficient maintenance of the sample analysis apparatus is therefore essential.

In one embodiment, the controller 40 determines a plurality of maintenance items that need to be performed currently, and controls the sample analyzer to perform the determined plurality of maintenance items. In an embodiment, the controller 40 can determine which maintenance items can be executed in parallel and which need to be executed in series when controlling the sample analyzer to execute the determined plurality of maintenance items, and then control the sample analyzer to execute maintenance items that can be executed in parallel and maintenance items that cannot be executed in parallel in series, thereby greatly saving time. In one embodiment, when the sample analyzer is judged to have performed the determined maintenance items, the controller 40 also automatically updates the maintenance records including the operator, the time of the maintenance, the process records of the maintenance, etc. (e.g., whether there is an error or not, the maintenance result, etc.), so that the user does not need to be concerned about the registration of the maintenance history or the maintenance records, and the problem of the counterfeit maintenance records is avoided.

The controller 40 determines a plurality of maintenance items that need to be performed currently, may automatically determine a plurality of preset maintenance items, or may provide a relevant interface for a user to select, which will be described below.

For example, one embodiment wherein the controller 40 determines that a plurality of maintenance items currently need to be performed includes: and when the current maintenance trigger event is judged to be the preset maintenance trigger event, determining a plurality of preset maintenance items as the maintenance items which need to be carried out currently. In one embodiment, the maintenance triggering event includes power on and/or power off. A common scenario is that a manufacturer sets a plurality of maintenance items on an operation interface before the instrument leaves a factory or a user sets a plurality of maintenance items in advance, when the user turns on the apparatus, the controller 40 controls the sample analysis apparatus to execute the plurality of preset maintenance items, or, when the user turns off the apparatus, the controller 40 controls the sample analysis apparatus to execute the plurality of preset maintenance items, and after the execution is completed, the apparatus is automatically turned off.

For example, in an embodiment, the controller 40 controls the display 50 to display the item maintenance interface on the current operation interface, for receiving a selection instruction of a user for a plurality of maintenance items; in response to a user selection instruction for a plurality of maintenance items, the controller 40 determines the plurality of maintenance items selected by the user as maintenance items currently required to be performed. Referring to fig. 3(a), a common scenario is that the current operation interface is a project maintenance interface, a user selects a plurality of maintenance projects through a mouse or a keyboard on the project maintenance interface, and after clicking a determination key, the controller determines the plurality of maintenance projects selected by the user as maintenance projects that need to be performed currently, where check boxes in the same column of each maintenance project in fig. 3(a) are used for the user to select corresponding maintenance projects. Referring to fig. 3(b), another general scenario is that one or more maintenance items are set with a maintenance period, that is, how often maintenance is required, so that the controller 40 pushes the maintenance items that are currently required to be executed or the current day to the item maintenance interface, and the user selects all or more of the maintenance items through a mouse or a keyboard, and clicks the determination key, and then the controller 40 determines the maintenance items selected by the user as the maintenance items that are currently required to be executed; in fig. 3(b), the user selects the maintenance item required in the maintenance item list on the right by selecting the maintenance for the current day in the maintenance type list on the left.

In one embodiment, the controller 40 further controls the display 50 to display the precondition on the current operation interface, for example, by pop-up window, after determining a plurality of maintenance items that need to be performed currently. Specifically, after determining a plurality of maintenance items that need to be performed currently, the controller 40 determines a precondition of each maintenance item, and controls the display 50 to display at least an unsatisfactory maintenance item and its precondition on the current operation interface; alternatively, after determining a plurality of maintenance items that are currently required to be performed, the controller 50 controls the display 50 to display preconditions for each of the maintenance items on the current operation interface. By displaying the precondition of the maintenance items in batch, the user can prepare all the preconditions at one time, thereby reducing the interaction time of the user and improving the efficiency. When it is determined that each of a plurality of maintenance items currently required to be performed satisfies a respective precondition, for example, when the controller 40 automatically determines or in response to an instruction input by a user to determine that the preconditions are satisfied, the controller 40 controls the sample analysis apparatus to execute the maintenance items. Fig. 4 is an example, when the controller 40 determines that the maintenance items do not satisfy the precondition, for example, the remaining amount of the cleaning solution is insufficient, one way of prompting by the controller 40 is to generate and control the display 50 to display a popup as shown in the figure, and after the user clicks and determines the popup, the relevant interface may be removed to replenish the cleaning solution, and then the maintenance items may be reselected for maintenance, or the user may directly reselect the maintenance items, and the maintenance items that do not satisfy the precondition are deleted, for example, the maintenance items that need the cleaning solution are deleted, and these maintenance items are not performed this time.

When the controller 40 controls the sample analysis apparatus to execute the plurality of maintenance items, that is, when or during the sample analysis apparatus starts to execute the maintenance items, in an embodiment, the controller 40 controls the display 50 to exit the project maintenance interface from the current operation interface and enter the background operation. Therefore, the current operation interface is not blocked in the project maintenance interface, and a user can browse other information at the same time, such as reagent information, quality control information and/or calibration information and the like on the current operation interface, so that consumables such as reagents and calibration products are prepared at the same time in the project maintenance process, the time is saved, and the efficiency is improved. Of course, in an embodiment, after the controller 40 controls the display 50 to exit the project maintenance interface from the current operation interface and enter the background operation, the display 50 is further controlled to display the test condition information on the current operation interface, and in an embodiment, the test condition information includes reagent information, quality control information, and/or calibration information, so that the relevant information can be automatically presented to the user without the user manually viewing the relevant information.

In one embodiment, when the sample analyzer is judged to have performed the determined maintenance items, the controller 40 controls the display 50 to display the maintenance result on the current maintenance interface for the user to view, and also plays a role in reminding the user that the current maintenance is finished.

The controller 40 exits the current operation interface and puts the item maintenance interface into the background execution list when controlling the sample analysis device to execute the maintenance items, and notifies the current operation interface of the execution result when the background execution is finished, so that the background maintenance well realizes the service separation of the front end and the background, and a user can also use the information of other function interfaces when the background maintenance is carried out.

The embodiment of the invention also discloses a maintenance method of the sample analysis device. Referring to fig. 5, the maintenance method of an embodiment includes steps 100 to 120.

Step 100: a plurality of maintenance items currently needed to be performed is determined. Step 100 determines a plurality of maintenance items that need to be performed currently, which may be automatically determined as a plurality of preset maintenance items, or may be provided with a relevant interface for a user to select, which will be described below.

For example, one embodiment step 100 determines that a plurality of maintenance items currently need to be performed includes: and when the current maintenance trigger event is judged to be the preset maintenance trigger event, determining a plurality of preset maintenance items as the maintenance items which need to be carried out currently. In one embodiment, the maintenance triggering event includes power on and/or power off. A common scenario is that a manufacturer sets a plurality of maintenance items on an operation interface before the instrument leaves a factory or before a user sets the maintenance items in advance, and when the user starts the apparatus, step 100 controls the sample analysis apparatus to execute the plurality of preset maintenance items, or when the user shuts down the apparatus, step 100 controls the sample analysis apparatus to execute the plurality of preset maintenance items, and the apparatus automatically shuts down the apparatus after the execution is completed.

For example, step 100 in one embodiment displays a project maintenance interface on a current operation interface for receiving a selection instruction of a user for a plurality of maintenance projects; in response to a selection instruction of a plurality of maintenance items by a user, step 100 determines the plurality of maintenance items selected by the user as maintenance items currently required to be performed. A common scenario is that the current operation interface is a project maintenance interface, and after a user selects a plurality of maintenance items through a mouse or a keyboard on the project maintenance interface and clicks a determination key, step 100 determines the plurality of maintenance items selected by the user as maintenance items that need to be performed currently. Another common scenario is that one or more maintenance items are set with a maintenance period, that is, how often maintenance is required, so step 100 pushes the maintenance items that are needed to be executed on the same day or at present to the item maintenance interface, the user selects all or more of the maintenance items through a mouse or a keyboard, and after clicking a determination button, step 100 determines the maintenance items selected by the user as the maintenance items that are needed to be executed currently.

Referring to fig. 6, in an embodiment, the maintenance method further includes step 110: and displaying the precondition on the current operation interface, for example, by means of popup. Step 100 after determining a plurality of maintenance items that need to be performed currently, step 110 also displays preconditions on the current operating interface. Specifically, after determining a plurality of maintenance items that need to be performed currently in step 100, step 110 determines a precondition of each maintenance item, and displays at least unsatisfied maintenance items and preconditions thereof on a current operation interface; alternatively, after determining a plurality of maintenance items that are currently required to be performed in step 100, step 110 displays preconditions for each maintenance item on the current operation interface. By displaying the precondition of the maintenance items in batch, the user can prepare all the preconditions at one time, thereby reducing the interaction time of the user and improving the efficiency. When it is determined that each of the plurality of maintenance items currently required to be performed satisfies the respective precondition, for example, the step 110 automatically determines or responds to an instruction input by a user to determine that the precondition is satisfied, then the following step 120 is performed; if the precondition is not satisfied, the user is waited to prepare the corresponding precondition or the user can delete the maintenance item which does not satisfy the precondition.

Step 120: controlling the sample analysis device to perform the determined plurality of maintenance items. In one embodiment, step 120 can greatly save time by controlling the sample analyzer to execute the determined maintenance items to determine which of the maintenance items can be executed in parallel and which need to be executed in series, and then controlling the sample analyzer to execute the maintenance items that can be executed in parallel and the maintenance items that cannot be executed in parallel in series.

When step 120 controls the sample analysis apparatus to execute the plurality of maintenance items, that is, when or during the sample analysis apparatus starts executing the maintenance items, step 120 in one embodiment exits the project maintenance interface from the current operation interface and enters a background operation. Therefore, the current operation interface is not blocked in the project maintenance interface, and a user can browse other information at the same time, such as reagent information, quality control information and/or calibration information and the like on the current operation interface, so that consumables such as reagents and calibration products are prepared at the same time in the project maintenance process, the time is saved, and the efficiency is improved. Of course, in an embodiment, after the project maintenance interface exits the current operation interface and enters the background operation, the test condition information is also displayed on the current operation interface, and in an embodiment, the test condition information includes reagent information, quality control information, and/or calibration information, so that the relevant information can be automatically presented to the user without the user manually checking the relevant information.

In one embodiment, when it is determined that the sample analysis device has executed the determined maintenance items, step 120 further displays the maintenance result on the current maintenance interface for the user to view, and also plays a role in reminding the user that the current maintenance is finished.

Referring to fig. 7, in an embodiment, the maintenance method may further include step 130: when it is judged that the sample analysis device has executed the plurality of maintenance items determined, the maintenance record is automatically updated. For example, the maintenance record includes an operator, a time of maintenance, a process record of maintenance, etc. (e.g., whether there is an error report or a maintenance result), so that the user does not need to be concerned about the registration of the maintenance history or the maintenance record, and the problem of counterfeit maintenance record is also avoided.

The above is some descriptions of the maintenance flow of the sample analyzer operating independently on a single unit, and a specific user operation scenario is described below with reference to fig. 8 as an example.

The controller 40 firstly judges whether maintenance items need to be executed on the same day or at present, if so, marks corresponding maintenance items, a user can know which maintenance items need to be executed at present by checking maintenance labels on the item maintenance interface, then the user can enter the item maintenance interface, the item maintenance interface supports simultaneous selection of a plurality of maintenance items, therefore, the user selects a plurality of marked maintenance items on the item maintenance interface, then clicks to execute, then the display 50 displays the precondition of the maintenance items, the user prepares the precondition of the maintenance items at one time, then clicks to determine, then the sample analysis device executes the maintenance items, the display 50 switches the item maintenance interface to the background, and therefore, the user can browse information such as reagents, calibration, quality control and the like on the current operation interface in the process, the sample analysis device can inform the current operation interface of the maintenance result after controlling the maintenance items, and meanwhile, automatically updates the maintenance record.

The invention improves the maintenance flow of a single independent sample analysis device, supports multiple selection and batch execution of maintenance items, and can prepare precondition for one time by a user, reduce user interaction and improve efficiency; the invention supports background execution of maintenance projects, so that the current operation interface cannot be blocked in the project maintenance interface, and a user can simultaneously browse reagent, calibration and quality control information to simultaneously prepare consumables such as reagents, calibration products and the like, thereby saving time; the invention automatically records the maintenance record, and the user does not need to care about the registration of the maintenance record, thereby avoiding the counterfeiting of the maintenance record and determining that the project maintenance is effectively executed.

Next, the maintenance flow of the plurality of cascaded sample analyzers will be described.

An embodiment of the present invention discloses a maintenance system for sample analyzers, which can maintain a plurality of sample analyzers. Referring to fig. 9, the maintenance system in one embodiment includes a plurality of sample analyzers 60 and a controller 70, and in one embodiment, a display 80 is further included. The controller 70 in one embodiment determines one or more sample analyzers 60 currently in need of maintenance; for each determined sample analysis device 60, the controller 70 determines one or more maintenance items that are currently required to be performed, and controls the sample analysis device 60 to perform the respective determined maintenance items. When there are a plurality of sample analyzers 60 that require project maintenance, the controllers 70 can control the sample analyzers 60 to execute respective maintenance projects in parallel, since the maintenance of the sample analyzers 60 is independent from each other and does not interfere with each other; when the controller 70 controls a specific sample analyzer to execute a plurality of maintenance items, it may first determine which of the maintenance items may be executed in parallel and which of the maintenance items need to be executed in series, and then control the sample analyzer 60 to execute maintenance items that may be executed in parallel and to execute maintenance items that may not be executed in parallel in series, thereby greatly saving time. In one embodiment, when any sample analyzer 60 is determined to have performed the determined maintenance items, the controller 70 automatically updates the maintenance records of the sample analyzer, which include the operator, the time of maintenance, the process records of maintenance, etc. (e.g., whether there is an error report or a maintenance result), so that the user does not need to be concerned about the registration of the maintenance history or the maintenance records, and the problem of the counterfeit maintenance records is avoided.

The controller 70 determines the sample analyzer and the corresponding maintenance items that need to be performed, either automatically or by providing a relevant interface for user selection, as described below.

For example, in one embodiment, when it is determined that the current time is the preset maintenance triggering event, the controller 70 determines all the sample analyzers 60 as the sample analyzers currently needing maintenance, and determines a plurality of preset maintenance items as the maintenance items currently needing to be performed by each sample analyzer 60. In one embodiment, the maintenance triggering event includes power on and/or power off. A common scenario is that a manufacturer sets a plurality of maintenance items on an operation interface before the instrument leaves a factory or a user sets a same maintenance item or a corresponding maintenance item for each cascaded sample analyzer 60 in advance, for example, when the user turns on the machine, the controller 70 controls the cascaded sample analyzers 60 to execute respective corresponding preset maintenance items, or when the user turns off the machine, the controller 70 controls the cascaded sample analyzers to execute respective corresponding maintenance items, and the machine is automatically turned off after the execution is completed.

For example, in one embodiment, the controller 70 controls the display 80 to display a project maintenance interface on the current operation interface, for receiving a selection instruction of the sample analyzer from the user, and receiving a selection instruction of the maintenance project of the selected sample analyzer from the user; the controller 70 determines the sample analysis device selected by the user as a sample analysis device currently requiring maintenance in response to a user selection instruction for the sample analysis device; the controller 70 determines the maintenance items currently required to be performed by the various analysis apparatuses selected by the user in response to the user's selection instruction for the maintenance items of the selected sample analysis apparatus. Referring to fig. 10(a), a general scenario is that a current operation interface is a project maintenance interface, a user selects a sample analysis device through a mouse or a keyboard, then selects one or more maintenance items, after clicking a save button, the controller 70 determines the sample analysis device selected by the user as a sample analysis device that needs to be maintained currently, determines the maintenance item selected by the user as a maintenance item that needs to be maintained by the sample analysis device, then the user repeats the above process to select a next sample analysis device as a maintenance item, and finally clicks the determination to indicate that the sample analysis device and the maintenance item that need to be maintained have been selected; in fig. 10(a), a sample analyzer can be selected in the drop-down box of the apparatus, and M1 is the code of one sample analyzer. Referring to fig. 10(b), another general scenario is that one or more maintenance items are set with a maintenance period, that is, are set to need maintenance once every other time, so that the controller 70 pushes the maintenance items that need to be executed by each sample analyzer on the same day or at present to the item maintenance interface, the user then selects and determines the sample analyzer that needs to be maintained and the maintenance items thereof through a mouse or a keyboard, respectively, and after clicking a determination key, the controller 70 determines the sample analyzer selected by the user and the maintenance items corresponding to the sample analyzer as the sample analyzer that needs to be executed and the maintenance items that need to be executed; in fig. 10(b), the user selects the maintenance on the day from the left maintenance type list, and then the sample analyzer that needs to be maintained on the day appears in the middle sample analyzer list, and the user checks the check box in the same column of all the sample analyzers, which indicates that the sample analyzer is selected; if the sample analyzer with the code number M2 is currently selected, the maintenance items currently needed by the sample analyzer with the code number M2 appear in the rightmost maintenance item list, and the user can select the needed maintenance items in the rightmost maintenance item list.

For each determined sample analysis device 60, after the controller 70 determines one or more maintenance items currently required to be performed, the display 80 is further controlled to display the preconditions on the current operation interface, for example, by means of pop-up window, so that the preconditions of the maintenance items required to be performed by all the sample analysis devices 60 currently required to be maintained can be displayed at one time. Specifically, the controller 70 determines the precondition of each maintenance item, and controls the display 80 to display at least the unsatisfactory maintenance items and preconditions thereof of the sample analyzer 60 on the current operation interface; or the controller 70 controls the display 80 to display the precondition of the maintenance items of one or all of the sample analyzers 60 on the current operation interface. By displaying the precondition of the maintenance items in batch, the user can prepare all the preconditions at one time, thereby reducing the interaction time of the user and improving the efficiency. For any sample analyzer 60, when it is determined that each maintenance item required to be performed by the sample analyzer 60 satisfies the respective precondition, for example, the controller 70 automatically determines or responds to an instruction input by the user to determine that the precondition is satisfied, the controller 70 controls the sample analyzer 60 to execute the determined maintenance item. Fig. 11 is an example, when the controller 70 determines that the maintenance items do not satisfy the precondition, for example, the remaining amount of the cleaning liquid is insufficient, the controller 70 may prompt a manner of generating and controlling the display 80 to display a popup as shown in the drawing, and after the user clicks and determines the popup, the user may perform replenishment of the cleaning liquid on the correlation interface, and then reselect the maintenance items for maintenance, or the user may directly reselect the maintenance items, delete the sample analysis device or the maintenance items that need not satisfy the precondition, for example, delete the maintenance items that need the cleaning liquid, and do not perform these maintenance items this time.

In one embodiment, when the controller 70 controls the sample analyzer 60 to execute the determined maintenance items, the controller 70 controls the display 80 to exit the operation interface and enter the background operation. Therefore, the current operation interface is not blocked in the project maintenance interface, and the user can browse other information at the same time, such as reagent information, quality control information and/or calibration information, at the current operation interface, so as to prepare consumables such as reagents and calibrators for the sample analysis devices 60 at the same time in the project maintenance process, thereby saving time and improving efficiency. Of course, in an embodiment, after the controller 70 controls the display 80 to exit the project maintenance interface from the current operation interface and enter the background operation, the display 80 is further controlled to display the test condition information of each sample analyzer 60 on the current operation interface, and in an embodiment, the test condition information includes reagent information, quality control information, and/or calibration information, so that the relevant information can be automatically presented to the user without the user manually viewing the relevant information.

In one embodiment, when it is determined that any or all of the sample analyzers 60 have performed the determined maintenance items, the controller 70 controls the display 80 to display the maintenance results on the current maintenance interface for the user to view, and also serves to remind the user that the maintenance of one or all of the sample analyzers 60 is completed.

The embodiment of the invention also discloses a maintenance method of the sample analysis device, which can maintain a plurality of sample analysis devices. Referring to fig. 12, a maintenance method according to an embodiment includes steps 200 to 220.

Step 200: one or more sample analyzers of the plurality of sample analyzers that currently require maintenance are identified. Step 20 determines the sample analyzer and the corresponding maintenance items that need to be performed, either automatically or by providing a relevant interface for user selection, as described below.

For example, in an embodiment, when it is determined that the current time is the preset maintenance trigger event, step 200 determines all the sample analyzers as the sample analyzers currently needing to be maintained, and determines a plurality of preset maintenance items as the maintenance items currently needing to be performed by each sample analyzer. In one embodiment, the maintenance triggering event includes power on and/or power off. One common scenario is that a manufacturer sets a plurality of maintenance items in an operation interface before the instrument leaves a factory or before a user sets a plurality of maintenance items in advance, for example, the same maintenance items or corresponding maintenance items are set for each cascaded sample analysis device, when the user powers on, step 200 controls the cascaded sample analysis devices to execute respective corresponding preset maintenance items, or when the user powers off, step 200 controls the cascaded sample analysis devices to execute respective corresponding maintenance items, and after execution is completed, the cascaded sample analysis devices are automatically powered off.

For example, in an embodiment, step 200 displays a project maintenance interface on the current operation interface, and is configured to receive a selection instruction of a user for the sample analysis apparatus and a selection instruction of a maintenance project of the selected sample analysis apparatus; step 200, in response to a selection instruction of a user on a sample analysis device, determining the sample analysis device selected by the user as a sample analysis device which needs to be maintained currently; step 200 is to determine, in response to a user selection instruction for a maintenance item of a selected sample analyzer, a maintenance item that is currently required to be performed by the various analyzers selected by the user. A common scenario is that the current operation interface is a project maintenance interface, a user selects a sample analysis device through a mouse or a keyboard, then selects one or more maintenance items, and clicks a save button, then step 200 determines the sample analysis device selected by the user as the sample analysis device that needs to be currently maintained, and determines the maintenance item selected by the user as the maintenance item that needs to be performed by the sample analysis device, and then the user repeats the above process to select the next sample analysis device as its maintenance item. Another common scenario is that one or more maintenance items are set with a maintenance period, that is, are set with how often maintenance is required, so step 200 pushes the maintenance items required to be executed by each sample analysis device on the same day or at present to the item maintenance interface, the user then selects and determines the sample analysis device required to be maintained and the maintenance items thereof through a mouse or a keyboard, and after clicking the determination key, step 200 determines the sample analysis device selected by the user and the maintenance items corresponding thereto as the sample analysis device required to be executed and the maintenance items required to be executed.

Referring to fig. 13, the maintenance method in an embodiment may further include step 210: and displaying the precondition on the current operation interface, for example, by means of popup. For each determined sample analysis device, after determining one or more maintenance items currently required to be performed in step 200, the precondition is also displayed on the current operation interface, for example, in a pop-up window manner, and the preconditions of the maintenance items required to be performed by all the sample analysis devices currently required to be maintained can be displayed at one time. Specifically, step 210 determines the precondition of each maintenance item, and displays at least the unsatisfactory maintenance items and preconditions thereof of the sample analyzer on the current operation interface; or step 210 displays the precondition of the maintenance items of one or all sample analyzers on the current operation interface. By displaying the precondition of the maintenance items in batch, the user can prepare all the preconditions at one time, thereby reducing the interaction time of the user and improving the efficiency. For any sample analyzer, when it is determined that each maintenance item required to be performed by the sample analyzer satisfies the respective precondition, for example, step 210 automatically determines or responds to a user-entered instruction to determine that the precondition is satisfied, the following step 220 is performed. If the precondition is not satisfied, the user is waited to prepare the corresponding precondition or the user can delete the sample analysis device or the maintenance item which does not satisfy the precondition.

Step 220: controlling the sample analyzing apparatus to execute the respectively determined maintenance items. In one embodiment, step 220 is to control the sample analyzers to execute the respective determined maintenance items, and when there are a plurality of sample analyzers needing to perform item maintenance, the sample analyzers can be controlled to execute the respective maintenance items in parallel in step 220 because the maintenance of the sample analyzers is independent and does not interfere with each other; in step 220, when a specific sample analyzer is controlled to execute a plurality of maintenance items, it may be determined which of the maintenance items may be executed in parallel and which of the maintenance items need to be executed in series, and then the sample analyzer is controlled to execute the maintenance items that may be executed in parallel and the maintenance items that cannot be executed in parallel in series, so as to greatly save time.

In one embodiment, step 220 further exits the item maintenance interface from the current operation interface and enters a background operation when the sample analyzer is controlled to execute the determined maintenance items. Therefore, the current operation interface is not blocked in the project maintenance interface, and a user can browse other information at the same time, such as reagent information, quality control information and/or calibration information and the like on the current operation interface, so that consumables such as reagents, calibration products and the like can be prepared for various analysis devices in the process of project maintenance, time is saved, and efficiency is improved. Of course, in an embodiment, after the project maintenance interface exits the current operation interface and enters the background operation, the test condition information of various analysis devices is also displayed on the current operation interface in step 220, and in an embodiment, the test condition information includes reagent information, quality control information, and/or calibration information, so that the relevant information can be automatically presented to the user without the user manually checking the relevant information.

In one embodiment, when it is determined that any or all of the sample analyzers have performed the determined maintenance items, step 220 displays the maintenance results on the current maintenance interface for the user to view, and also plays a role in reminding the user that maintenance of one or all of the sample analyzers is completed.

Referring to fig. 14, in an embodiment, the maintenance method further includes step 230: when it is judged that any one of the sample analyzers has finished executing the specified maintenance item, the maintenance record of the sample analyzer is automatically updated. For example, the maintenance record includes an operator, a time of maintenance, a process record of maintenance, etc. (e.g., whether there is an error report or a maintenance result), so that the user does not need to be concerned about the registration of the maintenance history or the maintenance record, and the problem of counterfeit maintenance record is also avoided.

The above is some descriptions of the maintenance flow of the plurality of cascaded sample analyzers, and a specific user operation scenario is described below with reference to fig. 15 by way of an example.

The controller 70 first determines whether maintenance items need to be executed on the same day or at present, if so, marks corresponding maintenance items, the user can know which sample analysis devices need to execute which maintenance items by checking the maintenance labels on the item maintenance interface, then the user can enter the item maintenance interface, the item maintenance interface supports the simultaneous selection of a plurality of sample analysis devices for maintenance, each sample analysis device can also select a plurality of maintenance items, therefore, the user selects one or a plurality of sample analysis devices and corresponding maintenance items on the item maintenance interface, then clicks to execute, then the display 80 displays the prepositive conditions of the respective maintenance items of the sample analysis devices, the user prepares the prepositive conditions of the maintenance items at one time, then clicks to determine, then the sample analysis devices execute the respective maintenance items, the display 80 transfers the project maintenance interface to the background, so that a user can browse information such as reagents, calibration, quality control and the like on the current operation interface in the process to prepare consumables such as reagents, calibration products and the like, and after the maintenance project is controlled, the controller 80 can inform the current operation interface of the maintenance result and automatically update the maintenance record.

The invention improves the maintenance process of a plurality of cascaded sample analysis devices, supports the simultaneous maintenance of a plurality of sample analysis devices, and can prepare precondition at one time by a user, thereby reducing user interaction and improving efficiency; meanwhile, a plurality of sample analysis devices can execute maintenance in parallel, so that the time is saved; the invention also supports background execution of maintenance projects, so that the current operation interface is not blocked in the project maintenance interface, and a user can browse the reagent, calibration and quality control information simultaneously to prepare consumables such as the reagent and the calibration product simultaneously, thereby saving time; the invention automatically records the maintenance record, and the user does not need to care about the registration of the maintenance record, thereby avoiding the counterfeiting of the maintenance record and determining that the project maintenance is effectively executed.

Reference is made herein to various exemplary embodiments. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope hereof. For example, the various operational steps, as well as the components used to perform the operational steps, may be implemented in differing ways depending upon the particular application or consideration of any number of cost functions associated with operation of the system (e.g., one or more steps may be deleted, modified or incorporated into other steps).

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. Additionally, as will be appreciated by one skilled in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium, which is pre-loaded with computer readable program code. Any tangible, non-transitory computer-readable storage medium may be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-ROMs, DVDs, Blu Ray disks, etc.), flash memory, and/or the like. These computer program instructions may be loaded onto a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus create means for implementing the functions specified. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including means for implementing the function specified. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified.

While the principles herein have been illustrated in various embodiments, many modifications of structure, arrangement, proportions, elements, materials, and components particularly adapted to specific environments and operative requirements may be employed without departing from the principles and scope of the present disclosure. The above modifications and other changes or modifications are intended to be included within the scope of this document.

The foregoing detailed description has been described with reference to various embodiments. However, one skilled in the art will recognize that various modifications and changes may be made without departing from the scope of the present disclosure. Accordingly, the disclosure is to be considered in an illustrative and not a restrictive sense, and all such modifications are intended to be included within the scope thereof. Also, advantages, other advantages, and solutions to problems have been described above with regard to various embodiments. However, the benefits, advantages, solutions to problems, and any element(s) that may cause any element(s) to occur or become more pronounced are not to be construed as a critical, required, or essential feature or element of any or all the claims. As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, system, article, or apparatus. Furthermore, the term "coupled," and any other variation thereof, as used herein, refers to a physical connection, an electrical connection, a magnetic connection, an optical connection, a communicative connection, a functional connection, and/or any other connection.

Those skilled in the art will recognize that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. Accordingly, the scope of the invention should be determined only by the following claims.

Claims (41)

1. A method of maintaining a sample analyzer, comprising:

   determining a plurality of maintenance items which need to be carried out currently;

   controlling the sample analysis device to perform the determined plurality of maintenance items.
2. The maintenance method of claim 1, wherein said determining a plurality of maintenance items that currently need to be performed comprises:

   displaying a project maintenance interface on a current operation interface, and receiving a selection instruction of a user for a plurality of maintenance projects;

   in response to a selection instruction of the plurality of maintenance items by the user, the plurality of maintenance items selected by the user are determined as the maintenance items currently required to be performed.
3. The maintenance method of claim 2, wherein when the sample analysis device is controlled to execute the plurality of maintenance items, the item maintenance interface is exited from a current operation interface and entered into a background run.
4. The maintenance method according to claim 3, wherein after the project maintenance interface exits the current operation interface and enters a background operation, the test condition information is displayed on the current operation interface.
5. The maintenance method of claim 4, wherein the test condition information includes reagent information, quality control information, and/or calibration information.
6. The maintenance method according to claim 3, wherein when it is judged that the sample analysis apparatus has performed the determined plurality of maintenance items, a maintenance result is displayed on a current maintenance interface.
7. The maintenance method of claim 1, wherein said determining a plurality of maintenance items that currently need to be performed comprises: and when the current maintenance trigger event is judged to be the preset maintenance trigger event, determining a plurality of preset maintenance items as the maintenance items which need to be carried out currently.
8. The maintenance method of claim 7, wherein the maintenance triggering event comprises a power-on and/or a power-off.
9. The maintenance method according to any one of claims 1 to 8, wherein after determining a plurality of maintenance items that are currently required to be performed, the precondition is also displayed on the current operation interface, and the method comprises the following steps: after a plurality of maintenance items which need to be carried out currently are determined, the precondition of each maintenance item is judged, and at least unsatisfied maintenance items and the preconditions thereof are displayed on the current operation interface; or after a plurality of maintenance items which are required to be performed currently are determined, displaying the precondition of each maintenance item on the current operation interface;

   when it is determined that each of the maintenance items satisfies the respective precondition, the sample analysis device is controlled to execute the determined plurality of maintenance items.
10. The maintenance method of claim 1, further comprising: when it is judged that the sample analysis apparatus has executed the plurality of maintenance items determined, the maintenance record is automatically updated.
11. A method of maintaining a sample analyzer, comprising:

    determining one or more sample analysis devices which need to be maintained currently in the plurality of sample analysis devices;

    for each determined sample analysis device, determining one or more maintenance items currently required to be performed;

    controlling the sample analyzing apparatus to execute the respectively determined maintenance items.
12. The maintenance method of claim 1, further comprising:

    displaying a project maintenance interface on a current operation interface, and receiving a selection instruction of a user for the sample analysis device and a selection instruction of the user for a maintenance project of the selected sample analysis device;

    in response to a selection instruction of a user for the sample analysis device, determining the sample analysis device selected by the user as a sample analysis device which needs to be maintained currently;

    in response to a user selection instruction for a maintenance item of the selected sample analyzer, the maintenance items currently required to be performed by the various analyzers selected by the user are determined.
13. The maintenance method of claim 12, wherein the item maintenance interface is exited from a current operation interface and entered into a background run when the sample analysis device is controlled to execute the respective determined maintenance item.
14. The maintenance method according to claim 13, wherein after the project maintenance interface exits the current operation interface and enters a background operation, the test condition information of various analysis devices is displayed on the current operation interface.
15. The maintenance method of claim 14, wherein the test condition information comprises reagent information, quality control information, and/or calibration information.
16. The maintenance method according to claim 13, wherein when it is judged that any one or all of the sample analysis devices have performed the determined maintenance items, the maintenance result is displayed on the current maintenance interface.
17. The maintenance method according to claim 11, wherein when the current maintenance trigger event is determined to be a preset maintenance trigger event, all the sample analyzers are determined as sample analyzers currently needing to be maintained, and the preset maintenance items are determined as the maintenance items currently needing to be performed by each sample analyzer.
18. The maintenance method of claim 17, wherein the maintenance triggering event comprises a power on and/or a power off.
19. The maintenance method according to any one of claims 1 to 8, wherein for each determined sample analysis device, after determining one or more maintenance items currently required to be performed, the method further displays preconditions on the current operation interface, including: judging the precondition of each maintenance item, and displaying at least the unsatisfactory maintenance items and preconditions of the sample analysis device on the current operation interface; or, displaying the precondition of the maintenance items of one or all sample analysis devices on the current operation interface;

    and for any sample analysis device, when determining that each maintenance item of the sample analysis device meets the preset condition, controlling the sample analysis device to execute the determined maintenance item.
20. The maintenance method of claim 11, further comprising: when it is judged that any one of the sample analyzers has finished executing the specified maintenance item, the maintenance record of the sample analyzer is automatically updated.
21. A sample analysis apparatus, comprising:

    a measuring part for measuring the sample to obtain an item test result of the sample;

    the sample part is used for bearing a sample to be tested, sucking the sample and then providing the sample to the measuring part;

    a reagent unit for carrying a reagent and sucking the reagent and supplying the reagent to the measurement unit;

    and a controller for determining a plurality of maintenance items that are currently required to be performed, and controlling the sample analyzer to execute the plurality of determined maintenance items.
22. The sample analysis device of claim 21, further comprising a display; the controller determining a plurality of maintenance items that currently need to be performed includes:

    controlling a display to display a project maintenance interface on a current operation interface, and receiving a selection instruction of a user for a plurality of maintenance projects;

    in response to a selection instruction of the plurality of maintenance items by the user, the plurality of maintenance items selected by the user are determined as the maintenance items currently required to be performed.
23. The sample analysis apparatus of claim 22, wherein the controller controls the display to exit the item maintenance interface from a current operation interface and enter a background run when the sample analysis apparatus is controlled to perform the plurality of maintenance items.
24. The sample analysis device of claim 23, wherein the controller controls the display to display the test condition information on the current operation interface after the project maintenance interface exits the current operation interface and enters a background operation.
25. The sample analysis device of claim 24, wherein the test condition information comprises reagent information, quality control information, and/or calibration information.
26. The sample analyzer of claim 23, wherein the controller controls the display to display the maintenance result on the current maintenance interface when it is determined that the sample analyzer has performed the determined plurality of maintenance items.
27. The sample analysis device of claim 21, wherein the controller determines a plurality of maintenance items that are currently required to be performed comprises: and when the current maintenance trigger event is judged to be the preset maintenance trigger event, determining a plurality of preset maintenance items as the maintenance items which need to be carried out currently.
28. The sample analysis apparatus of claim 27, wherein the maintenance triggering event comprises a power on and/or a power off.
29. The sample analysis device of any one of claims 21 to 28, wherein the controller, after determining a plurality of maintenance items currently required to be performed, further controls the display to display preconditions on the current operating interface, including: after determining a plurality of maintenance items which need to be carried out currently, the controller judges the precondition of each maintenance item and controls the display to display at least unsatisfied maintenance items and the preconditions thereof on the current operation interface; or after the controller determines a plurality of maintenance items which need to be carried out currently, the controller controls the display to display the precondition of each maintenance item on the current operation interface;

    the controller controls the sample analysis device to execute the determined plurality of maintenance items when it is determined that each of the maintenance items satisfies the respective precondition.
30. The sample analyzer of claim 21, wherein the controller further automatically updates the maintenance record when the sample analyzer is determined to have performed the determined plurality of maintenance items.
31. A maintenance system for a sample analysis device, comprising:

    a plurality of sample analyzers;

    a controller that determines one or more sample analyzers that currently require maintenance; for each determined sample analysis device, determining one or more maintenance items currently required to be performed; controlling the sample analyzing apparatus to execute the respectively determined maintenance items.
32. The maintenance system of claim 31, further comprising a display; the controller controls the display to display the item maintenance interface on the current operation interface, and is used for receiving a selection instruction of a user on the sample analysis device and receiving a selection instruction of the user on a maintenance item of the selected sample analysis device; the controller responds to a selection instruction of a user for the sample analysis device, and determines the sample analysis device selected by the user as a sample analysis device which needs to be maintained currently; the controller determines, in response to a user selection instruction for a maintenance item of the selected sample analysis apparatus, a maintenance item currently required to be performed by the various analysis apparatuses selected by the user.
33. The maintenance system of claim 32, wherein the controller controls the display to exit the project maintenance interface from the current operational interface and enter a background run when the sample analysis apparatus is controlled to execute the respective determined maintenance project.
34. The maintenance system of claim 33, wherein the controller controls the display to exit the project maintenance interface from the current operation interface and enter a background operation, and further controls the display to display the test condition information of each analysis device on the current operation interface.
35. The maintenance system of claim 34, wherein the test condition information comprises reagent information, quality control information, and/or calibration information.
36. The maintenance system of claim 33, wherein the controller controls the display to display the maintenance result on the current maintenance interface when it is judged that any one or all of the sample analysis devices have performed the determined maintenance items.
37. The maintenance system of claim 31, wherein when the current maintenance trigger event is determined to be the preset maintenance trigger event, the controller determines all the sample analyzers as the sample analyzers currently needing to be maintained, and determines the preset maintenance items as the maintenance items currently needing to be performed by each of the sample analyzers.
38. The maintenance system of claim 37, wherein the maintenance triggering event comprises a power on and/or a power off.
39. The maintenance system of any one of claims 31 to 38, wherein for each determined sample analysis device, after the controller determines one or more maintenance items currently required to be performed, the controller further controls the display to display preconditions on the current operating interface, including: the controller judges the precondition of each maintenance item and controls the display to display at least the unsatisfactory maintenance items and preconditions of the sample analysis device on the current operation interface; or the controller controls the display to display the precondition of the maintenance items of one or all sample analysis devices on the current operation interface;

    for any sample analysis device, when each maintenance item of the sample analysis device is determined to meet the preset condition, the controller controls the sample analysis device to execute the determined maintenance item.
40. The maintenance system of claim 31, wherein the controller automatically updates the maintenance record of any one of the sample analyzers when it is determined that the sample analyzer has performed the determined maintenance item.
41. A computer-readable storage medium, characterized by comprising a program executable by a processor to implement the method of any one of claims 1 to 20.

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