CN117825726A - Sample analyzer assembly line and sample analyzer - Google Patents

Abstract

The application provides a sample analyzer assembly line and sample analyzer, the sample analyzer assembly line includes a main control device, a sample distribution module, a sample conveying track and a plurality of cascaded sample analyzers, the sample distribution module is used for distributing samples, the sample conveying track is used for conveying the distributed samples to the corresponding sample analyzers; the sample analyzer at least comprises a sample preparation part, a detection part and a display device; the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected; the main control device controls the display device of the sample distribution module to display main interface information and controls the display device of each sample analyzer to display auxiliary interface information, and further, the main interface information and the auxiliary interface information can be switched in the sample analyzer assembly line. In practical application, an operator can conveniently view the main interface information or the auxiliary interface information of the whole assembly line.

Description

Sample analyzer assembly line and sample analyzer

Technical Field

The application relates to the technical field of medical equipment, in particular to a sample analyzer assembly line and a sample analyzer.

Background

The sample analyzer is a medical device commonly used in clinical laboratory, can detect various indexes of samples such as blood, urine and the like, and has the advantages of high detection efficiency, accurate and reliable detection result and the like. In order to cope with the continuous improvement of the sample detection demand, a plurality of sample analyzers are cascaded into a sample analyzer assembly line at present.

However, how to efficiently monitor various information in a sample analyzer pipeline is a problem that needs to be solved at present.

Disclosure of Invention

In view of the foregoing, the present application provides a sample analyzer pipeline and a sample analyzer for efficiently monitoring various information generated by the sample analyzer pipeline.

First aspect embodiments of the present application provide a sample analyzer pipeline, comprising: the system comprises a main control device, a sample distribution module, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample distribution module, the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample distribution module is used for distributing samples, and the sample conveying track is used for conveying the distributed samples to the corresponding sample analyzers; the sample analyzer at least comprises a sample preparation part, a detection part and a display device;

A sample preparation means for mixing the sample transported to the sample analyzer with a reagent to prepare a sample to be measured;

a detection unit for detecting the sample to be detected;

a master device configured to:

controlling a display device of the sample distribution module to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

and controlling the display device of each sample analyzer to display the auxiliary interface information, wherein the auxiliary interface information comprises the running state information of each sample analyzer, and the running state information of the sample analyzer comprises at least one of instrument state information, quality control state information, reagent residual quantity information and consumable residual quantity information.

Second aspect embodiments of the present application provide a sample analyzer pipeline comprising: the system comprises a main control device, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample conveying track is used for conveying samples to the corresponding sample analyzers, and each sample analyzer is used for detecting the samples; the sample analyzer at least comprises a sample preparation part, a detection part and a display device;

A sample preparation means for mixing the sample transported to the sample analyzer with a reagent to prepare a sample to be measured;

a detection unit for detecting the sample to be detected;

a master device configured to:

controlling a display device of a target sample analyzer in a plurality of sample analyzers to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

controlling a display device of other sample analyzers to display auxiliary interface information, wherein the other sample analyzers are sample analyzers except the target sample analyzer in the plurality of sample analyzers; the auxiliary interface information comprises operation state information of each sample analyzer, and the operation state information of the sample analyzer comprises at least one of instrument state information, quality control state information, reagent residual quantity information and consumable residual quantity information.

Third aspect embodiments of the present application provide a sample analyzer provided in a sample analyzer pipeline, the sample analyzer comprising: a sample preparation part, a detection part, a control module and a display device;

The sample preparation component is used for mixing the sample conveyed to the sample analyzer in the sample analyzer assembly line with a reagent to prepare a sample to be tested;

a detection unit for detecting the sample to be detected;

a control module configured to:

obtaining main interface information or auxiliary interface information;

controlling the display device to display the main interface information or the auxiliary interface information; the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer in the sample analyzer assembly line; the auxiliary interface information comprises operation state information of each sample analyzer, and the operation state information comprises at least one of instrument state information, quality control state information, reagent allowance information and consumable allowance information.

Fourth aspect embodiments of the present application provide a sample analyzer pipeline comprising: the system comprises a main control device, a sample distribution module, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample distribution module, the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample distribution module is used for distributing samples, and the sample conveying track is used for conveying the distributed samples to the corresponding sample analyzers; the sample analyzer at least comprises a sample preparation part, a detection part and a display device: the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected;

The master device is configured to:

controlling a display device of the sample distribution module to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

and controlling a display device of at least one target sample analyzer in the plurality of sample analyzers to display auxiliary interface information, wherein the auxiliary interface information comprises operation state information of the target sample analyzer and at least one other sample analyzer, the other sample analyzer is a sample analyzer except the target sample analyzer in the plurality of sample analyzers, and the operation state information comprises at least one of instrument state information, quality control state information, reagent allowance information and consumable allowance information.

Fifth aspect embodiments of the present application provide a sample analyzer pipeline comprising: the system comprises a main control device, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample conveying track is used for conveying samples to the corresponding sample analyzers, and each sample analyzer is used for detecting the samples; the sample analyzer at least comprises a sample preparation part, a detection part and a display device: the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected;

The master device is configured to:

controlling a display device of a first sample analyzer in a plurality of sample analyzers to display main interface information, wherein the first sample analyzer is any sample analyzer in the plurality of sample analyzers, and the main interface information comprises at least one of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

and controlling a display device of at least one second sample analyzer to display auxiliary interface information, wherein the second sample analyzer is a sample analyzer except the first sample analyzer in the plurality of sample analyzers, the auxiliary interface information comprises operation state information of the second sample analyzer and at least one third sample analyzer, the third sample analyzer is a sample analyzer except the second sample analyzer in the plurality of sample analyzers, and the operation state information comprises at least one of instrument state information, quality control state information, reagent residual information and consumable residual information.

Sixth aspect embodiments of the present application provide a sample analyzer provided in a sample analyzer pipeline, the sample analyzer comprising: a sample preparation part, a detection part, a control module and a display device;

The control module is configured to: controlling the sample preparation component to mix a sample transported to the sample analyzer in the sample analyzer assembly line with a reagent to prepare a sample to be tested; and controlling the detection part to detect the sample to be detected;

the display device receives main interface information or auxiliary interface information sent by a main control device in the sample analyzer assembly line and displays the main interface information or the auxiliary interface information; the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer in the sample analyzer assembly line; the auxiliary interface information comprises operation state information of the sample analyzer and at least one other sample analyzer, wherein the other sample analyzer is a sample analyzer outside the sample analyzer in the sample analyzer pipeline, and the operation state information comprises at least one of instrument state information, quality control state information, reagent allowance information and consumable allowance information.

In the sample analyzer assembly line provided by the embodiment of the application, the display device of the sample distribution module displays the main interface information, the display device of each sample analyzer displays the auxiliary interface information, an operator can know the detail information of the whole sample analyzer assembly line, such as sample detail information, reagent detail information, quality control detail information and calibration detail information, by checking the main interface information, and can know the overview information of the whole sample analyzer assembly line, such as sample overview information and the running state information of all sample analyzers, by checking the auxiliary interface information of any sample analyzer. In practical application, an operator can know the whole condition of the whole sample analyzer assembly line through the display device of the sample distribution module or the display device of any sample analyzer, and the information viewing mode is more convenient.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1a is a schematic diagram of a sample analyzer pipeline;

FIG. 1b is a schematic diagram of a sample analyzer;

FIG. 2 is a schematic flow chart of interface control performed by the master control device;

FIGS. 3a-3d are four schematic diagrams of main interface information;

FIGS. 4a-4b are two schematic diagrams of auxiliary interface information;

FIGS. 5a-5b are two schematic diagrams of switching between primary interface information and auxiliary interface information;

FIG. 6 is a schematic diagram of another configuration of a sample analyzer pipeline;

FIG. 7 is another diagram illustrating a switching between the main interface information and the auxiliary interface information;

FIG. 8 is a schematic view of another construction of a sample analyzer;

fig. 9 is a schematic structural diagram of the master control device.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In order to meet the lifting requirement for the sample test flux, a plurality of sample analyzers can be cascaded together to form a sample analyzer assembly line, and the sample analyzer assembly line can also be called a cascading assembly line, an analyzer assembly line or an assembly line for short. The management of various information in a sample analyzer pipeline is a technical problem to be solved.

Currently, some sample analyzer pipelines collectively display the test-related information of all sample analyzers on one display, and if it is desired to view the test-related information of different sample analyzers, it is necessary to switch the information presentation interface of different sample analyzers on the display. For another example, some cell analyzer pipelines include an SDM (Sample Delivery Module, sample distribution module), where the SDM is provided with a display for displaying main test information of the whole cell analyzer pipeline, and a reagent screen is provided at each cell analyzer, and the reagent screen of each cell analyzer only displays reagent related information and/or consumable related information of the cell analyzer itself, so that an operator can know the condition of the reagent and/or consumable of the cell analyzer.

Different units (such as a sample analyzer and various processing modules) in the sample analyzer pipeline are separated by a certain physical distance, and an operator often needs to walk to different positions of the pipeline to perform operations when managing the whole sample analyzer pipeline, such as checking sample detail information to SDM, performing fault processing to one sample analyzer, performing reagent consumable replacement to another sample analyzer, and the like. However, in the existing sample analyzer assembly line, when an operator wants to know the whole information of the sample analyzer assembly line, the operator can only walk to a specific display to check the whole information, and the information is not convenient to check in time.

The embodiment of the application provides a sample analyzer assembly line and sample analyzer, can satisfy the operator and look over the demand of sample analyzer assembly line overall information in real time in arbitrary operating position, makes things convenient for the high-efficient management of whole sample analyzer assembly line of operator.

It should be noted that the sample analyzer in the present application may be specifically a blood coagulation analyzer, a biochemical analyzer, an immune analyzer, a cell analyzer, and other various analyzers, and similarly, the sample analyzer pipeline may include, but is not limited to, one or more of a blood coagulation analyzer, a biochemical analyzer, an immune analyzer, a cell analyzer, and other various analyzers. For convenience of explanation, the following embodiments will be described with reference to a sample analyzer as a coagulation analyzer and a sample analyzer pipeline as a coagulation pipeline. Other types of sample analyzers and their pipeline related content may be explained with reference to the drawings and will not be repeated. The sample analyzer pipeline may be a TLA (Total Laboratory Automation, full laboratory automation system).

As shown in fig. 1a, an embodiment of the present application provides a sample analyzer pipeline, including: a master device 10, a sample distribution module 20, a sample transport rail 30, and a plurality of sample analyzers 40 in cascade. It should be noted that the cascade connection of multiple sample analyzers does not necessarily indicate that there is a connection between the sample analyzers, for example, the sample transition units are used to transport test tube racks mutually, and may be that multiple sample analyzers are mutually independent, and the sample transport rails of the sample analyzer assembly line may sequentially distribute samples to different sample analyzers to indicate the cascade connection of multiple sample analyzers. Alternatively, other solutions for understanding the cascade of sample analyzers by those skilled in the art are also possible. The number of sample analyzers 40 is not limited to three in the drawings, and a greater or lesser number of sample analyzers may be provided according to actual test requirements. In one embodiment, as shown in phantom in FIG. 1a, in the sample analyzer pipeline, a pre-processing module may be disposed between the sample distribution module and the sample analyzer for performing a pre-processing operation on the sample before it is transported to the corresponding sample analyzer. The preprocessing module includes, but is not limited to: at least one of a centrifugation module, a decapping module, and a sample quality detection module. In another embodiment, the sample analyzer may further comprise a post-processing module for performing post-processing operations on the sample, as shown in phantom in fig. 1a in the sample analyzer pipeline. Post-processing modules include, but are not limited to: at least one of a capping module, a storage module, a sample outlet module and a capping module.

The sample distribution module 10, the sample transport rail 30, and the sample analyzers 40 are connected to the main control device 10 in communication, and are controlled and managed by the main control device 10. For example, the main control device controls the sample distribution module to distribute samples, and controls the sample conveying track to convey the distributed samples to the corresponding sample analyzers for detection. The sample may include a blood sample, a body fluid sample, a urine sample, a quality control sample, and the like.

In one embodiment, the sample analyzer 40 includes at least a sample preparation component, a detection component, and a display device.

The sample preparation component is used for mixing the sample transported to the sample analyzer with a reagent to prepare a sample to be tested. Specifically, after the sample is conveyed to the sample analyzer through the sample conveying track, the sample preparation component of the sample analyzer can directly suck the sample on the sample conveying track to prepare the sample to be tested, or the sample analyzer can further comprise a sample injection component, and after the sample is dispatched to the inside of the sample analyzer by the sample injection component, the sample preparation component of the sample analyzer sucks the sample to prepare the sample to be tested.

The detection component is used for detecting the sample to be detected so as to obtain a detection result. The detection methods of different sample analyzers may be different. Taking a coagulation analyzer as an example, a sample preparation component is used for preparing a sample to be detected by adding a sample and a reagent into an empty reaction cup, the reaction cup is placed into a detection component after the sample to be detected is uniformly mixed and incubated, the detection component can irradiate multi-wavelength light into the reaction cup, and a coagulation reaction curve of the sample to be detected, which changes along with time, is obtained by a coagulation method, an immunoturbidimetry method or a chromogenic substrate method and the like, so that the coagulation time or other coagulation related performance parameters are calculated according to the coagulation reaction curve.

The display device is used for displaying interface information related to detection, such as main interface information or auxiliary interface information. It should be noted that each sample analyzer in the sample analyzer pipeline includes a display device. The display device can be integrated in the sample analyzer or can be an external display device, and is in communication connection with the sample analyzer in a wired or wireless manner, in which case the display device needs to be arranged in a preset physical space range of the sample analyzer associated with the display device, for example, a bearing part is arranged at the front side of a casing of the sample analyzer, and the display device is arranged on the bearing part. The peripheral display device can be a computer display screen, a tablet personal computer and the like.

In one implementation, the sample analyzer may further include a control module, such as a controller, that controls the reagent preparation process of the sample preparation section, the detection process of the detection section, and the display process of the display device.

See fig. 1b, which shows one specific structure of the sample analyzer. The sample analyzer 40 may include a cuvette loading section 41, a sample introduction section 42, a sample dispensing section 43, a reagent carrying section 44, a reagent dispensing section 45, a measurement section 46, a processing unit 47, and a housing 48.

The cuvette loading section 41 is used for supplying and carrying empty cuvettes. The sample analyzer obtains a detection result by adding a sample and a reagent to an empty reaction cup to prepare, incubate, and determine a reaction solution. The cuvette loading unit 41 may load an empty cuvette to a predetermined position, and the sample dispensing unit 43 sucks a sample from the sample introduction unit 42 and discharges the sample to the empty cuvette at the predetermined position.

The sample injection part 42 is used for dispatching a sample to be injected, the sample dispensing part 43 is used for sucking the sample and discharging the sample into the reaction cup, the reagent bearing part 44 is used for bearing a reagent container, the reagent dispensing part 45 is used for sucking a reagent from the reagent container borne by the reagent bearing part 44 and discharging the reagent into the reaction cup, and the reagent dispensing part 45 can be realized by a reagent needle. The measurement unit 46 is configured to carry a cuvette and detect a reaction solution in the cuvette, and it is understood that the sample in the cuvette may be incubated by the reaction unit that incubates the sample or specimen prior to detection by the measurement unit 46. The description of the processing unit 47 can be found below in relation to the control module, which is not described here.

The master device 10 may be a device having a computing processing unit such as a processor, controller, etc., which may be located near or elsewhere in the sample distribution module. The master control device can be a single processing device or a cluster formed by a plurality of processing devices. The main control device is in communication connection with the sample distribution module and each sample analyzer, and can directly control the sample distribution module and the sample analyzers, or a control module can be arranged in the sample distribution module or the sample analyzers, and the main control device controls the sample distribution module or the sample analyzers through the control module. For example, the master device is configured to perform a sample analyzer pipeline interface management flow as shown in fig. 2, and interface management of the whole pipeline is performed by controlling the sample distribution module and the display device of the sample analyzer.

Referring to fig. 2, an interface management flow of the sample analyzer pipeline includes steps S201-S202.

S201: and controlling a display device of the sample distribution module to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer.

In particular, in a sample analyzer pipeline, a sample distribution module has a display device. The main control device can generate main interface information after collecting detection related information of each sample analyzer, and the main interface information is sent to the display device of the sample distribution module for display. It should be noted that, the main interface information may be presented through an interface, and the interface including the main interface information may be referred to as a main interface. The main interface may include an information presentation area, which may present at least one of sample details, reagent details, quality control details, and calibration details. In an embodiment, each item of information includes information about all sample analyzers, e.g., the sample details include sample details of all sample analyzers, the reagent details include reagent details of all sample analyzers, the quality control details include quality control details of all sample analyzers, and the calibration details include calibration details of all sample analyzers.

An example of the main interface information may be seen in fig. 3a, where the left area of the main interface includes four tabs, i.e. "sample", "reagent", "quality control" and "calibration", and the information display area displays detailed information corresponding to a tab after the user selects the tab. As shown in fig. 3a, after the sample tab is selected, the sample showing area shows sample detail information, and after other tabs are selected, the information showing area switches to show detail information corresponding to the other tabs. The sample tab can be associated with a sample application, a sample view and a frame view label, and different labels correspond to sample detail information in different forms. After the user selects different labels, the information display area displays sample detail information corresponding to the labels. For example, the user clicks the sample viewing tag, and the sample detail information displayed in the information display area is specifically a sample list. The sample detail information includes "state", "serial number", "sample number", "position", "category", "completion time", "APTT", "PT (Sec)", "PT (INR)", "TT", "FIB", "D-Dimer", "FDP", and "AT III" of the sample. Of course, in practical applications, the sample detail information may include at least one of the above information items or other information items.

After the user selects the reagent tab, the sample display area displays the detailed information of the reagent, such as the main interface shown in fig. 3b, and labels such as a "reagent disk" and a "loading disk" can be associated under the reagent tab. After the user selects the label of the reagent disk, the sample detail information displayed in the information display area specifically comprises the reagent allowance and consumable allowance of each sample analyzer.

The sample analyzer may operate in a quality control mode in which quality control details may be obtained. As shown in fig. 3c, labels such as "quality control chart", "quality control item" and the like may be associated under the quality control tab. After the user selects the label of the quality control chart, the sample detail information displayed in the information display area specifically comprises the detailed information of the quality control chart.

The sample analyzer may operate in a calibration mode in which calibration details are available. As shown in the main interface of FIG. 3d, labels such as "calibration results list", "cancel audit" and "calibration application" can be associated under the calibration tab. After the user selects the "calibration result list" label, the calibration detail information displayed in the information display area specifically includes the detailed information of the calibration result.

The main interface information described above with respect to fig. 3a-3d may be applied to the sample analyzer pipeline of fig. 1a, and may be specifically displayed on the display device of the sample distribution module 20.

According to the above description, the sample detail information can help an operator to know the detailed information of all sample analyzers in the sample analyzer assembly line in the sample detection process, and other types of detail information also have the effect, that is, the operator can know various detail information of the sample analyzer assembly line through the main interface information displayed by the display device of the sample distribution module.

S202: and controlling the display device of each sample analyzer to display auxiliary interface information, wherein the auxiliary interface information comprises the operation state information of each sample analyzer, and the operation state information of the sample analyzer comprises at least one of instrument state information, quality control state information, reagent residual quantity information and consumable residual quantity information.

The main control device can also control the display device of each sample analyzer to display auxiliary interface information. It should be noted that, the main control device may specifically control the display device of the sample analyzer to display the auxiliary interface information through the control module of the sample analyzer, or the main control device directly controls the display device of the sample analyzer to display the auxiliary interface information. In addition, the auxiliary interface information may be presented through an interface, and the interface including the auxiliary interface information may be referred to as an auxiliary interface. In one embodiment, the auxiliary interface information includes two types of information: sample overview information of a sample analyzer pipeline and operating state information of each sample analyzer. In yet another embodiment, the auxiliary interface information may not include sample overview information, i.e., the auxiliary interface information includes operational status information of each sample analyzer. In some embodiments, the auxiliary interface information for each sample analyzer is the same, including the operational status information for each sample analyzer, or the auxiliary interface information for each sample analyzer may be different, only the operational status information for the respective sample analyzer is displayed. The auxiliary interface information displayed by the sample analyzer includes its own operational status information and operational status information of at least one other sample analyzer in the sample analyzer pipeline. For example, the sample analyzer pipeline includes sample analyzers M1, M2, and M3, and the auxiliary interface information displayed by the sample analyzer M2 may include the operation state information of the sample analyzer M2 and the sample analyzer M3, but does not include the operation state information of the sample analyzer M1.

Wherein the sample overview information is of the whole sample analyzer pipeline, it being understood that the sample overview information and the sample detail information are relative concepts, the sample overview information being more simplified and the sample detail information being more detailed. In one embodiment, the sample overview information includes at least overview information of an abnormal sample to help an operator to know about the abnormal condition of the sample in time. In an embodiment, the sample overview information includes at least one of sample anomaly information, sample information to be tested, tested sample information, and test completion time.

The operation state information of the sample analyzer comprises at least one of instrument state information, quality control state information, reagent residual information and consumable residual information. It will be appreciated that the operational state of the sample analyzer may include a normal state and an abnormal state, and if the sample analyzer is in an abnormal state, the instrument state information necessarily shows the abnormal information of the sample analyzer. The auxiliary interface information can display the instrument state information in various modes, for example, different instrument state information can correspond to different colors, so that an operator can conveniently and intuitively know different instrument states of the sample analyzer, and the abnormal sample analyzer can be found in time.

Referring to the exemplary diagrams of two different types of auxiliary interface information provided in fig. 4a and 4b, it is assumed that the auxiliary interface information is applied to the sample analyzer pipeline shown in fig. 1a, and may be specifically displayed on the display device of each sample analyzer 40. The auxiliary interface information includes the operational status information of the three sample analyzers (i.e., M1, M2, and M3), the operational status information of the sample distribution module SDM, and the sample overview information of the sample analyzer pipeline.

As shown in fig. 4a and 4 b: 01 is an information card of the sample analyzers, and the information card comprises the respective running state information of each sample analyzer; 02 is an information card of the sample distribution module, which includes the operation state information of the sample distribution module SDM; 03 is an information card for a sample analyzer pipeline that includes sample overview information for the sample analyzer pipeline. In fig. 4a, the information card 02 and the information card 03 are combined into one information card, and in fig. 4b, the information card 02 and the information card 03 are shown separately.

The operational status information of the sample analyzer includes instrument status information, which specifically includes the status of the sample analyzer (e.g., shutdown, operation, etc.), and test countdown. If the sample analyzer is in an abnormal state such as a stop, the display color of the information card of the sample analyzer may be highlighted, and as shown in fig. 4a and 4b, the chuck area of the information card of the sample analyzer in different operation states may be filled with different colors such as a stop state filled with red, an operation filled with green or yellow, wherein green may be filled if in operation and the operation state is normal, and yellow may be filled if in operation and the abnormality occurs.

The operational status information of the sample analyzer may also include quality control status information. If the quality control state is normal, an 'in control' can be displayed; if the quality control state is abnormal, displaying abnormal quality control items.

The operational status information of the sample analyzer may also include reagent residual information. If the reagent remaining amount is abnormal, abnormal reagent remaining amount information is highlighted, such as APTT reagent remaining amount is displayed in red.

The operation state information of the sample analyzer may further include consumable residue information, and the consumable residue information may specifically include a reaction cup residue, a waste cup box residue, and a waste reagent box residue. If the consumable remainder is abnormal, the abnormal consumable remainder information is highlighted, such as the waste kit remainder information is displayed in red.

The operational status information of the sample distribution module may include: information about whether the sample analyzer is operating properly, such as "in operation" indicates that the sample distribution module is operating properly. The sample overview information comprises sample abnormal information, sample information to be detected, detected sample information and detection completion time. The abnormal sample information can be prompted through patterns such as colors, so that an operator can intuitively and timely observe abnormal sample conditions. The detection completion time may refer to an expected completion detection time of a sample to be detected in a sample analyzer pipeline.

It should be noted that the auxiliary interface information is not limited to those shown in fig. 4a and 4b, and various pieces of information may be deleted or replaced at will, for example, the auxiliary interface information may not include the operation state information of the sample distribution module and/or the sample overview information of the sample analyzer pipeline, etc. The auxiliary interface information provided by the embodiment comprises the abnormal information of the whole sample analyzer assembly line, so that an operator can check the whole abnormal condition of the sample analyzer assembly line at any operation position of the sample analyzer, and further, the abnormality can be processed timely.

For ease of understanding, the above information display scheme of the sample analyzer pipeline may be illustrated by FIG. 5 a. As shown in fig. 5a, the display device of the sample distribution module SDM displays main interface information (may also be referred to as a main interface), and the display devices of the sample analyzers M1, M2, and M3 display auxiliary interface information (may also be referred to as auxiliary interfaces). An operator can know the detailed information of the whole sample analyzer pipeline by looking at the main interface information, and can know the overview information of the whole sample analyzer pipeline by looking at the auxiliary interface information of any sample analyzer. That is, the operator need not to walk to the display screen of the specific sample analyzer to view the information of the sample analyzer, and can know the whole condition of the whole sample analyzer assembly line through a single display device such as the display device of the sample distribution module or the display device of any sample analyzer, so that the information viewing mode is more convenient, and the information viewing is more timely.

In addition, the auxiliary interface information displayed on the display device of each sample analyzer can be regarded as overview information of the whole sample analyzer pipeline, and the operator can quickly view the information to be focused from a remote position of the display device because the overview information is relatively simple in detail information. It will be appreciated that in the context of the application of a sample analyzer pipeline, the operator typically needs to pay attention to abnormal conditions, such as abnormal operation states of the sample analyzer itself, related abnormalities of sample testing, such as abnormal reagent consumable residue, etc., so that these abnormal condition information may be embodied in the auxiliary interface information. It should be noted that, the information included in the auxiliary interface information is not limited to the above embodiments, but may be other overview information that needs to be focused by those skilled in the art in practical applications.

In the above embodiment, the main interface information is displayed on the display device of the sample distribution module, and the auxiliary interface information is displayed on the display device of each sample analyzer. It will be appreciated that the sample distribution module is typically disposed at an upstream end of the overall pipeline, with each sample analyzer being disposed in cascade at a downstream location of the sample distribution module. Therefore, when an operator operates each sample analyzer, the operator cannot easily view the main interface information, and needs to walk to the display device of the sample distribution module to browse and view, so that the information is not convenient and fast enough to view.

To this end, the present embodiment provides a sample analyzer pipeline, which is different from the sample analyzer pipeline in the above embodiments in that the main control device 10 can also control the switching display between the main interface information and the auxiliary interface information in the whole pipeline. Specifically, the master control device 10 switches the display device of the sample distribution module 20 from the main interface information to the auxiliary interface information, and switches the display device of the target sample analyzer of the plurality of sample analyzers 40 from the auxiliary interface information to the main interface information. Wherein the target sample analyzer is one or more of a plurality of sample analyzers of the pipeline. One way to switch the main interface information and the auxiliary interface information is to switch the main interface and the auxiliary interface, and the switching of the main interface and the auxiliary interface indicates that the switching of the main interface information and the auxiliary interface information is completed.

For example, after switching the main interface information and the auxiliary interface information in the sample analyzer pipeline, one switching effect is shown in fig. 5 b. The display device of the sample distribution module SDM switches the auxiliary interface information from the main interface information, and correspondingly, the display device of the sample analyzer M2 switches from the auxiliary interface information to the main interface information. For ease of understanding, the primary interface information may be considered to be switched by the sample distribution module SDM to the sample analyzer M2.

The interface switching process is controlled by the main control device 10, and the main control device 10 can specifically automatically trigger switching or can switch according to a triggering instruction of a user. The trigger instruction can be directly input to the main control device by a user or can be input by the user through a sample analyzer pipeline.

In one embodiment, the master device switches automatically. Specifically, the display device of the sample distribution module displays the main interface information, and the display device of each sample analyzer displays the auxiliary interface information. The main control device monitors the sample analyzer assembly line, if the sample analyzer assembly line is monitored to meet the preset switching condition, interface switching is performed, namely the display device of the sample distribution module is switched from the main interface information to the auxiliary interface information, and the display device of the target sample analyzer is switched from the auxiliary interface information to the main interface information. The preset switching conditions may be various preset switching conditions, and are exemplified below.

The switching condition is a time condition, for example, if the master control device 10 monitors that the system time of the sample analyzer pipeline reaches a preset switching time point, the switching of the main interface information and the auxiliary interface information is triggered. Another switching condition is a status condition, for example, if the main control device 10 detects that the display device of the sample distribution module has abnormal status, the switching between the main interface information and the auxiliary interface information is triggered. Still another switching condition is a location condition, for example, if the master control device 10 monitors that the operator is located in the operation space range of a certain sample analyzer, the switching of the main interface information and the auxiliary interface information is triggered, and the main interface information is switched to the display device of the sample analyzer. Of course, the preset switching conditions are not limited to the above-mentioned ones, and may be set according to actual application requirements.

In another embodiment, the operator manually switches through the sample distribution module. Specifically, the display device of the sample distribution module displays the main interface information, and the display device of each sample analyzer displays the auxiliary interface information. The operator can input a switching instruction at the sample distribution module, the switching instruction can be sent to the main control device, and the main control device responds to the switching instruction to switch the display device of the sample distribution module from the main interface information to the auxiliary interface information and switch the display device of the target sample analyzer from the auxiliary interface information to the main interface information. It should be noted that, the switching instruction in each embodiment of the present application may include, but is not limited to, any one of a touch instruction, a gesture instruction, a key instruction, and a voice instruction. The touch instruction refers to that an operator inputs a switching instruction by touching a touch display screen. Gesture instructions refer to an operator inputting a specific gesture, such as an OK gesture, a circle gesture, or the like, as a switching through the image pickup device. The key instruction refers to that an operator triggers an entity key set on the medical equipment to input a switching instruction. The voice instruction refers to an operator inputting voice of a specific content as a switching instruction, such as "switching".

Assuming that each display device is a touch display screen in the sample analyzer assembly line, an operator inputs a switching instruction to the display screen of the sample distribution module SDM, for example, clicks any position of the display screen, and then the display screen of the sample distribution module SDM is switched from the main interface information to the auxiliary interface information, and the display screen of the sample analyzer M2 is switched from the auxiliary interface information to the main interface information. Of course, the display screen of other sample analyzers such as M1 or M3 may be switched to the main interface information. The touch instruction is not limited to clicking operation, but may be other touch instructions such as left stroke, right stroke, up stroke, down stroke, clicking a switch control of the main interface information, and the like.

In another embodiment, the operator manually switches through the sample analyzer. Specifically, the display device of the sample distribution module displays the main interface information, and the display device of each sample analyzer displays the auxiliary interface information. The operator may input a switching instruction at a certain sample analyzer (in this case, the sample analyzer is the target sample analyzer), the switching instruction may be sent to the master control device, and the master control device switches the display device of the target sample analyzer from the auxiliary interface information to the main interface information and switches the display device of the sample distribution module from the main interface information to the auxiliary interface information in response to the switching instruction. In this embodiment, when an operator walks to or operates any sample analyzer, if he wants to view detailed information of the whole sample analyzer pipeline, he can switch main interface information from a sample distribution module or other sample analyzers to a display device of the sample analyzer as long as a switching instruction is input to the sample analyzer, so that he can directly view the main interface information from the sample analyzer, and the information viewing is convenient and quick.

As shown in fig. 5a, assuming that each display device is a touch-control display screen in the sample analyzer pipeline, when an operator inputs a switching command to the display screen of the sample analyzer M2, such as clicking any position of the display screen, the display screen of the sample analyzer M2 is switched from auxiliary interface information (may also be referred to as an auxiliary interface) to main interface information (may also be referred to as a main interface), and the display screen of the sample distribution module SDM is switched from the main interface information to the auxiliary interface information. Of course, the touch instruction is not limited to the clicking operation, and may be other touch instructions such as left-hand stroke, right-hand stroke, up-hand stroke, down-hand stroke, and a switch control for clicking the auxiliary interface information. For the explanation of the example provided in fig. 4a and 4b, the lower right corner of the auxiliary interface information is provided with a "enter system" control, after the operator clicks the control, the auxiliary interface information is switched to the main interface information, and the display device displaying the main interface information is switched from the main interface information to the auxiliary interface information.

It is to be noted that, assuming that a certain display device (may be the display device of the sample distribution module or the display device of the sample analyzer) currently displays the auxiliary interface information, when the operator inputs a switching instruction to the display device, the display device switches to display the main interface information, and the display device of the main interface information (may be the display device of the sample distribution module or the display device of the sample analyzer) switches to the auxiliary interface information.

The display scheme after the sample analyzer assembly line is switched is as follows: the display device of any sample analyzer displays the main interface information and the display device of the sample distribution module displays the auxiliary interface information. Further, it can be restored to the display scheme before switching. Namely: the master control apparatus 10 may also switch the display apparatus of the sample distribution module from the auxiliary interface information to the main interface information, and switch the display apparatus of the target sample analyzer from the main interface information to the auxiliary interface information. For example, the display device of the sample analyzer M2 switches the auxiliary interface information from the main interface information, and accordingly, the display device of the sample distribution module SDM switches from the auxiliary interface information to the main interface information. For ease of understanding, the primary interface information may be considered to be switched by the sample analyzer M2 to the sample distribution module SDM.

The interface switching process is controlled by the main control device 10, and the main control device 10 can specifically automatically trigger switching or can switch according to a triggering instruction of a user. The trigger instruction can be directly input to the main control device by a user or can be input by the user through a sample analyzer pipeline.

In one embodiment, the master device switches automatically. The main control device monitors the sample analyzer assembly line, if the sample analyzer assembly line is monitored to meet the preset switching condition, interface switching is performed, namely the display device of the sample distribution module is switched from auxiliary interface information to main interface information, and the display device of the target sample analyzer is switched from the main interface information to the auxiliary interface information. The description of the preset switching condition may be referred to the above description, and is not repeated here.

In another embodiment, the operator manually switches through the sample distribution module. Specifically, the operator may input a switching instruction at the sample distribution module, the switching instruction may be sent to the master control device, and the master control device switches the display device of the sample distribution module from the auxiliary interface information to the main interface information and switches the display device of the target sample analyzer from the main interface information to the auxiliary interface information in response to the switching instruction. For example, the auxiliary interface information includes a switch control, such as a "enter system" button, and after the operator clicks the switch control, the display device of the sample distribution module SDM is switched from the auxiliary interface information to the main interface information, and if the main interface information is displayed on the display device of the sample analyzer M2 before being switched, the display device is switched from the main interface information to the auxiliary interface information. For example, as shown in fig. 5b, the operator inputs a switching instruction to the sample distribution module SDM, and the display device of the sample distribution module SDM switches and displays the main interface information, and the display device of the sample analyzer M2 switches and displays the auxiliary interface information.

In yet another embodiment, the operator manually switches through the sample analyzer. Specifically, the operator may input a switching instruction at the target sample analyzer, the switching instruction may be sent to the master control device, and the master control device switches the display device of the sample distribution module from the auxiliary interface information to the main interface information and switches the display device of the target sample analyzer from the main interface information to the auxiliary interface information in response to the switching instruction. The description of the switching instruction may be referred to above, and is not repeated here.

It should be noted that, in the interface switching in the embodiments of the present application, instead of switching between the main interface information and the auxiliary interface information on a single medical device, the main interface information and the auxiliary interface information are switched in association in the whole sample analyzer pipeline, that is, the main interface information is switched from one medical device to another medical device, and meanwhile, the auxiliary interface information is switched from the other medical device to the medical device. Therefore, an operator can check the detailed information or overview information of the whole assembly line at any position in the process of managing the assembly line of the sample analyzer, and the information check is more flexible and convenient.

The embodiment of the present application further provides a sample analyzer pipeline, which, unlike the sample analyzer pipeline in the above embodiments, does not include the sample distribution module SDM, and the display concept of the main interface information and the auxiliary interface information in the sample analyzer pipeline is the same as that of the above embodiments, except that the main interface information and the auxiliary interface information are switched arbitrarily between the sample analyzers, and the sample distribution module is not involved. The following describes how to display the main interface information and the auxiliary interface information in the sample analyzer pipeline.

As shown in fig. 6, an embodiment of the present application provides a sample analyzer pipeline, including: a master device 10, a sample transport rail 30, and a plurality of sample analyzers 40 in cascade. The sample transport rail 30 and each sample analyzer 40 are communicatively connected to the master control device 10. The sample transport rail and the sample analyzer are described with reference to the above embodiments, and are not repeated here. The master control apparatus 10 will be described in detail below.

A master device 10 configured to: and controlling the display devices of target sample analyzers in the plurality of sample analyzers to display the main interface information, and controlling the display devices of other sample analyzers to display the auxiliary interface information. For the description of the main interface information and the auxiliary interface information, reference may be made to the above embodiments, which are not repeated herein. The target sample analyzer is any one of a plurality of sample analyzers, and the other sample analyzers are sample analyzers other than the target sample analyzer. As shown in fig. 7, the sample analyzer pipeline includes sample analyzers M1, M2, and M3. The display device of the sample analyzer M1 displays the main interface information, and the display devices of the sample analyzers M1, M2 and M3 display the auxiliary interface information.

In the sample analyzer assembly line, an operator can view detailed information of the whole sample analyzer assembly line at any sample analyzer, and can know overview information of the whole sample analyzer assembly line by viewing auxiliary interface information of any sample analyzer.

Further, the master control device can control the main interface information and the auxiliary interface information to be switched in the sample analyzer pipeline. Specifically, the main control device switches the display device of the target sample analyzer from the main interface information to the auxiliary interface information, and switches the display device of the sample analyzer selected from the other sample analyzers from the auxiliary interface information to the main interface information, wherein the selected sample analyzer is one of the other sample analyzers. In this way, the primary interface information is switched from one sample analyzer to another sample analyzer, and the secondary interface information is switched from the other sample analyzer to the sample analyzer. As shown in fig. 7, the display device of the sample analyzer M1 is switched from the main interface information to the auxiliary interface information, and the display device of the sample analyzer M2 is switched from the auxiliary interface information to the main interface information. For ease of understanding, the main interface information may be considered to be switched from sample analyzer M1 to sample analyzer M2.

Or the master control device 10 is configured to control the display device of a first sample analyzer of the plurality of sample analyzers to display the main interface information, wherein the first sample analyzer is any one of the plurality of sample analyzers; and controlling a display device of at least one second sample analyzer to display auxiliary interface information, wherein the second sample analyzer is a sample analyzer except the first sample analyzer in the plurality of sample analyzers, the auxiliary interface information comprises operation state information of the second sample analyzer and at least one third sample analyzer, and the third sample analyzer is a sample analyzer except the second sample analyzer in the plurality of sample analyzers. In this embodiment, the sample analyzers displaying the auxiliary interface may not be all sample analyzers, and the auxiliary interface information may not include the operation state information of all sample analyzers, including the operation state information of the sample analyzers themselves and the operation state information of at least one other sample analyzer other than the sample analyzers themselves.

In an embodiment, if the main control device monitors that the sample analyzer pipeline meets the preset switching condition, the interface switching process is performed, and the description of the preset switching condition may be referred to the above embodiments, which are not repeated herein.

In another embodiment, the master control device responds to a switching instruction input by a user through the target sample analyzer to execute the interface switching process. In this embodiment, the operator controls the sample analyzer displaying the main interface information to switch.

In yet another embodiment, the master control device performs the above-described interface switching process in response to a switching instruction input by the user through the selected sample analyzer. In this case, the operator may select any sample analysis input switching command other than the target sample analyzer. The specific application scene is that an operator walks to any sample analyzer displaying auxiliary interface information, a switching instruction is input to the sample analyzer, the switching instruction is sent to a main control device, the main control device switches a display device of the sample analyzer into main interface information, and the main control device switches the display device displaying the main interface information into auxiliary interface information. In this embodiment, the operator controls the sample analyzer displaying the auxiliary interface information to switch, so that the requirement of the operator for checking the main interface information in any sample analyzer can be met.

It should be noted that, in the sample analyzer pipeline of the embodiments of the present application, not all sample analyzers may display the auxiliary interface information, and at least one sample analyzer may display the auxiliary interface information.

In addition, the embodiment of the application also provides a sample analyzer, which is arranged on a sample analyzer pipeline, as shown in fig. 8, the sample analyzer 80 comprises a sample preparation component 81, a detection component 82, a control module 83 and a display device 84. It should be noted that the sample analyzer may be the sample analyzer in any of the above-described pipeline embodiments. The sample preparation means, the detection means, and the display device 84 are described above, and are not described in detail here, and the control module 83 will be described below.

The control module 83 is communicatively connected to the sample preparation section 81, the detection section 82, and the display device 84, and includes at least a processing unit having data computing capability and a computer-readable storage medium. The computer-readable storage medium stores a computer program and may store data related to the computer program. When the computer program is called by the control module 83, main interface information or auxiliary interface information is obtained, for example, the main interface information or auxiliary interface information sent by a main control device in a sample analyzer pipeline is received, or the main interface information or the auxiliary interface information is generated by the computer program; and controls the display device 84 to display the main interface information or the auxiliary interface information.

The main control device in the sample analyzer pipeline may collect various information of the sample distribution module and/or each sample analyzer to generate main interface information and auxiliary interface information, and send the main interface information and auxiliary interface information to the display device 84 of the sample analyzer for display. The main control device may send the interface (main interface information or auxiliary interface information) displayed by default to the display device 84 for display, or may send the interface (main interface information or auxiliary interface information) after switching in the switching scene to the display device 84 for display. For the description of the main interface information and the auxiliary interface information, please refer to the above related description, which is not repeated here. Alternatively, in one embodiment, the control module 83 is configured to control the sample preparation component to mix the sample transported to the sample analyzer in the sample analyzer pipeline with a reagent to prepare a sample to be tested; and controlling the detection part to detect the sample to be detected. The display device 84 may be controlled directly by the master device to display the primary interface information or the secondary interface information.

In an embodiment, the sample analyzer 80 may perform interface switching according to the switching command, that is, after the control module receives the switching command, for example, the switching command input by the operator, the control module controls the display device to switch between the main interface information and the auxiliary interface information.

In one embodiment, the sample analyzer 80 may receive a switching command input by an operator, and send the switching command to the master device, and the master device controls the switching of the display device interface. Specifically, the control module 83 is further configured to send a switching instruction to the master device after receiving the switching instruction, so that the master device controls the display device 84 to switch between the main interface information and the auxiliary interface information through the control module. It should be noted that, the display device 84 may be a display device of two sample analyzers in the sample analyzer pipeline, where one display device is switched from the main interface information to the auxiliary interface information, and the other display device is switched from the auxiliary interface information to the main interface information. That is, this is a linked switch between the two sample analyzers.

For example, the display device of the sample analyzer 80 currently displays the main interface information, and the control module 83 sends the switching instruction to the master control device after receiving the switching instruction, so that the master control device controls the display device 84 of the sample analyzer 80 to switch from the main interface information to the auxiliary interface information, and controls the display devices of other sample analyzers or sample distribution modules in the sample analyzer pipeline to switch from the auxiliary interface information to the main interface information. It should be noted that, if the sample analyzer pipeline includes a sample distribution module and the sample distribution module currently displays auxiliary interface information, the display device of the sample distribution module is controlled to switch to the main interface information. If the sample analyzer pipeline does not include a sample distribution module, a sample analyzer is selected from the other sample analyzers except the sample analyzer 80, and the display device of the selected sample analyzer is switched from the auxiliary interface information to the main interface information.

For example, the display device of the sample analyzer 80 currently displays the auxiliary interface information, and the control module 83 sends the switching instruction to the master control device after receiving the switching instruction, so that the master control device controls the display device 84 of the sample analyzer 80 to switch from the auxiliary interface information to the main interface information, and controls other sample analyzers or sample distribution modules in the sample analyzer pipeline to switch from the main interface information to the auxiliary interface information. The main control device determines the medical device displaying the main interface information in the sample analyzer pipeline, and may be any other sample analyzer except the sample analyzer 80 or may be a sample distribution module, and then switches the display device of the medical device from the main interface information to the auxiliary interface information.

The embodiment of the application also provides a specific structure of the main control device. Referring to fig. 9, the master device 90 includes at least a processing unit 91, a random access Memory (Random Access Memory, RAM) 92, a Read-Only Memory (ROM) 93, a communication interface 94, and a Memory 95. The processing component 91, RAM92, ROM93, communication interface 94 and memory 95 communicate via bus 96. The processing component may be a central processing unit (Central Processing Unit, CPU), a graphics processor (Graphics Processing Unit, GPU) or other chip with computing capabilities. The memory 95 is provided with various computer programs for execution by the processor assembly 91 and data required for execution of the computer programs. In addition, during sample analysis, locally stored data such as primary interface information or secondary interface information may be stored in memory 95 if desired. The communication interface 94 may be any communication protocol known so far, and the communication interface 94 communicates with the outside through a network. Master device 90 may communicate data between any device connected through the network via communication interface 94 in a communication protocol. For example, the main control device 90 communicates with each sample analyzer and/or sample distribution module through the communication interface 94, and the sample analyzer and/or sample distribution module transmits each item of information in the sample analysis process to the main control device 90 for storage, or the main control device 90 may output main interface information or auxiliary interface information or the like to the display device of each sample analyzer and/or sample distribution module through the communication interface 94 for display. In another example, the main control device 90 communicates with the printer through the communication interface 94, and sends the processed data to the printer for printing out.

The features described in the various embodiments of the present disclosure may be interchanged or combined with each other in the above description of the disclosed embodiments to enable those skilled in the art to make or use the present application. Reference is made to various exemplary embodiments herein. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope herein. For example, the various operational steps and components used to perform the operational steps may be implemented in different ways (e.g., one or more steps may be deleted, modified, or combined into other steps) depending on the particular application or taking into account any number of cost functions associated with the operation of the system.

The terms first, second and the like in the description and in the claims and in the above-described figures, are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, or apparatus.

Additionally, as will be appreciated by one of skill in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium preloaded 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 in the display means. 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 which implement 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.

The foregoing detailed description has been described with reference to various embodiments. However, those 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 present disclosure is to be considered as illustrative and not restrictive in character, 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. The benefits, advantages, solutions to problems, and any element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced are not to be construed as a critical, required, or essential feature. 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 "couple" and any other variants thereof are used herein to refer to physical connections, electrical connections, magnetic connections, optical connections, communication connections, functional connections, and/or any other connection.

The above examples illustrate only a few embodiments, which are described in greater detail and which are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (30)

1. A sample analyzer pipeline, comprising: the system comprises a main control device, a sample distribution module, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample distribution module, the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample distribution module is used for distributing samples, and the sample conveying track is used for conveying the distributed samples to the corresponding sample analyzers; the sample analyzer at least comprises a sample preparation part, a detection part and a display device: the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected;

The master device is configured to:

controlling a display device of the sample distribution module to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

and controlling the display device of each sample analyzer to display auxiliary interface information, wherein the auxiliary interface information comprises the running state information of each sample analyzer, and the running state information of the sample analyzer comprises at least one of instrument state information, quality control state information, reagent residual quantity information and consumable residual quantity information.

2. The sample analyzer pipeline of claim 1, wherein the auxiliary interface information further comprises operational state information of the sample distribution module and/or sample overview information of the sample analyzer pipeline.

3. The sample analyzer pipeline of claim 2, wherein the sample overview information includes at least one of sample anomaly information, sample information to be tested, sample information tested, and time to test completion.

4. The sample analyzer pipeline of claim 1 wherein,

The main control device is further configured to switch the display device of the sample distribution module from the main interface information to the auxiliary interface information, and switch the display device of a target sample analyzer of the plurality of sample analyzers from the auxiliary interface information to the main interface information.

5. The sample analyzer pipeline of claim 4 wherein,

the main control device is specifically configured to switch the display device of the sample distribution module from the main interface information to the auxiliary interface information and switch the display device of the target sample analyzer from the auxiliary interface information to the main interface information if it is monitored that the sample analyzer pipeline meets a preset switching condition.

6. The sample analyzer pipeline of claim 4 wherein,

the main control device is specifically configured to switch the display device of the sample distribution module from the main interface information to the auxiliary interface information and switch the display device of the target sample analyzer from the auxiliary interface information to the main interface information in response to a switching instruction input by a user through the sample distribution module.

7. The sample analyzer pipeline of claim 4 wherein,

the main control device is specifically configured to switch the display device of the target sample analyzer from the auxiliary interface information to the main interface information and switch the display device of the sample distribution module from the main interface information to the auxiliary interface information in response to a switching instruction input by a user through the target sample analyzer.

8. The sample analyzer pipeline of claim 4 wherein,

the master control device is further configured to switch the display device of the sample distribution module from the auxiliary interface information to the main interface information, and switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information.

9. The sample analyzer pipeline of claim 8 wherein,

the main control device is specifically configured to switch the display device of the sample distribution module from the auxiliary interface information to the main interface information and switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information if it is monitored that the sample analyzer assembly line meets a preset switching condition.

10. The sample analyzer pipeline of claim 8 wherein,

the main control device is specifically configured to switch the display device of the sample distribution module from the auxiliary interface information to the main interface information and switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information in response to a switching instruction input by a user through the sample distribution module.

11. The sample analyzer pipeline of claim 8 wherein,

the main control device is specifically configured to switch the display device of the sample distribution module from the auxiliary interface information to the main interface information in response to a switching instruction input by a user through the target sample analyzer, and switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information.

12. The sample analyzer pipeline of claim 1 wherein the sample analyzer comprises a control module;

the main control device is specifically configured to control the display device of the sample analyzer to display auxiliary interface information through the control module of the sample analyzer.

13. The sample analyzer pipeline of claim 1, wherein a pre-processing module is disposed between the sample distribution module and the sample analyzer;

the pretreatment module is used for carrying out pretreatment operation on the sample before the sample is conveyed to the corresponding sample analyzer.

14. A sample analyzer pipeline, comprising: the system comprises a main control device, a sample distribution module, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample distribution module, the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample distribution module is used for distributing samples, and the sample conveying track is used for conveying the distributed samples to the corresponding sample analyzers; the sample analyzer at least comprises a sample preparation part, a detection part and a display device: the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected;

the master device is configured to:

Controlling a display device of the sample distribution module to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

and controlling a display device of at least one target sample analyzer in the plurality of sample analyzers to display auxiliary interface information, wherein the auxiliary interface information comprises operation state information of the target sample analyzer and at least one other sample analyzer, the other sample analyzer is a sample analyzer except the target sample analyzer in the plurality of sample analyzers, and the operation state information comprises at least one of instrument state information, quality control state information, reagent allowance information and consumable allowance information.

15. A sample analyzer pipeline, comprising: the system comprises a main control device, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample conveying track is used for conveying samples to the corresponding sample analyzers, and each sample analyzer is used for detecting the samples; the sample analyzer at least comprises a sample preparation part, a detection part and a display device: the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected;

The master device is configured to:

controlling a display device of a target sample analyzer in a plurality of sample analyzers to display main interface information, wherein the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

controlling a display device of other sample analyzers to display auxiliary interface information, wherein the other sample analyzers are sample analyzers except the target sample analyzer in the plurality of sample analyzers; the auxiliary interface information comprises operation state information of each sample analyzer, and the operation state information of the sample analyzer comprises at least one of instrument state information, quality control state information, reagent residual quantity information and consumable residual quantity information.

16. The sample analyzer pipeline of claim 15 wherein the sample overview information includes at least one of sample anomaly information, sample information to be tested, sample information tested, and time to test completion.

17. The sample analyzer pipeline of claim 15 wherein the auxiliary interface information further comprises sample overview information of the sample analyzer pipeline.

18. The sample analyzer pipeline of claim 15 wherein,

the main control device is further configured to switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information, and switch the display device of a selected sample analyzer among the other sample analyzers from the auxiliary interface information to the main interface information, wherein the selected sample analyzer is one sample analyzer among the other sample analyzers.

19. The sample analyzer pipeline of claim 18 wherein,

the main control device is specifically configured to switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information and switch the display device of the selected sample analyzer from the auxiliary interface information to the main interface information if it is monitored that the sample analyzer pipeline meets a preset switching condition.

20. The sample analyzer pipeline of claim 18 wherein,

the main control device is specifically configured to respond to a switching instruction input by a user through the target sample analyzer, switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information, and switch the display device of the selected sample analyzer from the auxiliary interface information to the main interface information.

21. The sample analyzer pipeline of claim 18 wherein,

the main control device is specifically configured to switch the display device of the selected sample analyzer from the auxiliary interface information to the main interface information and switch the display device of the target sample analyzer from the main interface information to the auxiliary interface information in response to a switching instruction input by a user through the selected sample analyzer.

22. A sample analyzer pipeline, comprising: the system comprises a main control device, a sample conveying track and a plurality of cascaded sample analyzers, wherein the sample conveying track and each sample analyzer are respectively in communication connection with the main control device, the sample conveying track is used for conveying samples to the corresponding sample analyzers, and each sample analyzer is used for detecting the samples; the sample analyzer at least comprises a sample preparation part, a detection part and a display device: the sample preparation component is used for mixing the sample conveyed to the sample analyzer with a reagent to prepare a sample to be tested; the detection component is used for detecting the sample to be detected;

The master device is configured to:

controlling a display device of a first sample analyzer in a plurality of sample analyzers to display main interface information, wherein the first sample analyzer is any sample analyzer in the plurality of sample analyzers, and the main interface information comprises at least one of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer;

and controlling a display device of at least one second sample analyzer to display auxiliary interface information, wherein the second sample analyzer is a sample analyzer except the first sample analyzer in the plurality of sample analyzers, the auxiliary interface information comprises operation state information of the second sample analyzer and at least one third sample analyzer, the third sample analyzer is a sample analyzer except the second sample analyzer in the plurality of sample analyzers, and the operation state information comprises at least one of instrument state information, quality control state information, reagent residual information and consumable residual information.

23. A sample analyzer, disposed in a sample analyzer pipeline, the sample analyzer comprising: a sample preparation part, a detection part, a control module and a display device;

The sample preparation component is used for mixing the sample conveyed to the sample analyzer in the sample analyzer assembly line with a reagent to prepare a sample to be tested;

a detection unit for detecting the sample to be detected;

a control module configured to:

obtaining main interface information or auxiliary interface information;

controlling the display device to display the main interface information or the auxiliary interface information; the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer in the sample analyzer assembly line; the auxiliary interface information comprises operation state information of each sample analyzer, and the operation state information comprises at least one of instrument state information, quality control state information, reagent allowance information and consumable allowance information.

24. The sample analyzer of claim 23, wherein the auxiliary interface information further comprises sample overview information of the sample analyzer pipeline and/or operational status information of a sample distribution module in the sample analyzer pipeline.

25. The sample analyzer pipeline of claim 24 wherein the sample overview information includes at least one of sample anomaly information, sample information to be tested, sample information tested, and time to test completion.

26. The sample analyzer of claim 23, wherein the sample analyzer comprises a sample cell,

and the control module is further configured to control the display device to switch between the main interface information and the auxiliary interface information after receiving a switching instruction.

27. The sample analyzer of claim 23, wherein the sample analyzer comprises a sample cell,

the control module is further configured to send the switching instruction to the main control device after receiving the switching instruction, so that the main control device controls the display device to switch between the main interface information and the auxiliary interface information through the control module.

28. The sample analyzer of claim 27, wherein the sample analyzer comprises a sample cell,

the control module is specifically configured to send a switching instruction to a main control device after receiving the switching instruction under the condition that the display device displays the main interface information, so that the main control device controls the display device to switch from the main interface information to the auxiliary interface information, and controls another sample analyzer or a sample distribution module in the sample analyzer pipeline to switch from the auxiliary interface information to the main interface information.

29. The sample analyzer of claim 27, wherein the sample analyzer comprises a sample cell,

the control module is specifically configured to send a switching instruction to a main control device after receiving the switching instruction under the condition that the display device displays the auxiliary interface information, so that the main control device controls the display device to switch from the auxiliary interface information to the main interface information, and controls another sample analyzer or a sample distribution module in the sample analyzer pipeline to switch from the main interface information to the auxiliary interface information.

30. A sample analyzer, disposed in a sample analyzer pipeline, the sample analyzer comprising: a sample preparation part, a detection part, a control module and a display device;

the control module is configured to: controlling the sample preparation component to mix a sample transported to the sample analyzer in the sample analyzer assembly line with a reagent to prepare a sample to be tested; and controlling the detection part to detect the sample to be detected;

the display device receives main interface information or auxiliary interface information sent by a main control device in the sample analyzer assembly line and displays the main interface information or the auxiliary interface information; the main interface information comprises at least one item of sample detail information, reagent detail information, quality control detail information and calibration detail information of each sample analyzer in the sample analyzer assembly line; the auxiliary interface information comprises operation state information of the sample analyzer and at least one other sample analyzer, wherein the other sample analyzer is a sample analyzer outside the sample analyzer in the sample analyzer pipeline, and the operation state information comprises at least one of instrument state information, quality control state information, reagent allowance information and consumable allowance information.