CN114047345B - Sample priority scheduling method, scheduling system and detection system - Google Patents

Abstract

The invention discloses a sample priority scheduling method, a scheduling system and a detection system. The method comprises the steps that when a sample rack to be tested enters a priority sample placing area, a scheduling instruction for carrying out priority sample introduction on the sample rack to be tested is triggered; when the sample rack to be detected is the emergency treatment sample rack to be detected, the information of the advanced sample emergency treatment sample rack is obtained, the emergency treatment sample rack to be detected is scheduled and judged according to the obtained information, a first scheduling result is obtained, and the emergency treatment sample rack to be detected is scheduled to the sample sucking position of the emergency treatment channel according to the first scheduling result. According to the invention, the priority sample placing area is arranged, the dispatching instruction of priority sample introduction is triggered on the sample rack to be tested placed in the priority sample placing area, and the dispatching judgment is carried out on the sample rack to be tested, so that the sample rack to be tested can be inserted into the sample sucking position of the emergency channel for priority sample sucking operation, the method has the advantages of being free from the structure of the system, flexibly dispatching the sample rack to be tested, and meeting the special requirements in clinical application.

Description

Sample priority scheduling method, scheduling system and detection system

Technical Field

The invention relates to the field of medical machinery, in particular to a sample priority scheduling method, a scheduling system and a detection system.

Background

In clinical examination, detection devices such as a biochemical immunization workstation and the like are adopted for clinical examination in a rail sample injection mode; the track sample introduction mode adopts a structure of a dispatching track to carry out sample introduction by taking a sample rack as a dispatching unit; the track system generally comprises a sample placing area, a scheduling area, a recovery area and an analysis part track area, wherein the placing area is generally used for placing sample racks, the number of the sample racks is different, each sample rack comprises one or more sample positions for bearing sample tubes, the sample racks placed in the placing area are scheduled to the track area through a scheduling mechanism, and in the process, the barcode scanning of the sample racks and the samples is completed to obtain sample rack information and sample information; generally, a user places sample racks in a sample placing area one by one, the sample racks of the same type have no priority, and the sample racks with the same priority perform suction testing in sequence according to a sample introduction sequence.

The track sample injection mode has some disadvantages, because the track sample injection mode is to dispatch the sample rack close to the outlet of the input area to the track area, and then dispatch the rear sample rack, the front sample rack can block the rear sample rack, the dispatch is inflexible, so that the sample rack uniformly placed in the input area is troublesome when meeting the sample needing to be inserted, such as a problem sample (which means that the test cannot be normally completed in the test process, the sample needing to be retested is well taken out by the user and processed) or a temporary urgent conventional sample, and the sample injection mode uniformly placed in the input area is troublesome, and the user needs to wait for a long time to wait for the newly placed sample rack to be tested, so that the sample result cannot be timely known, and the sample needing to obtain the result as soon as possible is delayed to generate a report.

Disclosure of Invention

The invention aims to provide a sample priority scheduling method, a scheduling system and a detection system, and aims to solve the problem that the scheduling of sample racks to be detected is not flexible because the conventional analysis equipment cannot adjust the scheduling priority among the sample racks to be detected at any time.

In order to solve the technical problems, the invention aims to realize the following technical scheme: a method for sample first scheduling is provided, which comprises:

when the sample rack to be tested enters the priority sample placement area, triggering a scheduling instruction for carrying out priority sample introduction on the sample rack to be tested;

when the sample rack to be detected is the emergency treatment sample rack to be detected, obtaining information of the advanced sample emergency treatment sample rack, carrying out scheduling judgment on the emergency treatment sample rack to be detected according to the obtained information and obtaining a first scheduling result, and scheduling the emergency treatment sample rack to be detected to an emergency treatment channel sample sucking position according to the first scheduling result.

In addition, another technical problem to be solved by the present invention is to provide a sample scheduling system, which includes: the device comprises a triggering module and a sample scheduling module;

the trigger module is used for triggering a scheduling instruction for carrying out priority sample introduction on the sample rack to be detected when the sample rack to be detected enters the priority sample placement area;

the sample scheduling module is used for acquiring information of an advanced emergency sample frame when the sample frame to be detected is the emergency sample frame to be detected, performing scheduling judgment on the emergency sample frame to be detected according to the acquired information to obtain a first scheduling result, and scheduling the emergency sample frame to be detected to an emergency channel sample sucking position according to the first scheduling result.

In addition, the embodiment of the present invention further provides a sample detection system, which includes a control system, a sample analysis system, and the sample scheduling system as described above;

the control system comprises an operating part and a remote module;

the sample analysis system comprises a biochemical analysis part or an immunoassay part;

the operation part is connected with the analysis system in a wired or wireless mode, and controls the sample analysis system to operate, complete sample data input and output a detection result through a remote module;

the operation part is used for controlling the sample scheduling system to schedule the samples.

The embodiment of the invention discloses a sample priority scheduling method, a scheduling system and a detection system. The method comprises the steps that when a sample rack to be tested enters a priority sample placing area, a scheduling instruction for carrying out priority sample introduction on the sample rack to be tested is triggered; when the sample rack to be detected is the emergency treatment sample rack to be detected, the information of the advanced sample emergency treatment sample rack is obtained, the emergency treatment sample rack to be detected is scheduled and judged according to the obtained information, a first scheduling result is obtained, and the emergency treatment sample rack to be detected is scheduled to the sample sucking position of the emergency treatment channel according to the first scheduling result. The embodiment of the invention triggers the dispatching instruction of the prior sample introduction to the sample rack to be detected placed in the prior sample placing area by setting the prior sample placing area, and carries out dispatching judgment on the sample rack to be detected, so that the sample rack to be detected can be inserted into the sample sucking position of the emergency channel for prior sample sucking operation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is a schematic flowchart of a sample priority scheduling method according to an embodiment of the present invention;

fig. 2 is a block flow diagram of step S102 according to an embodiment of the present invention;

fig. 3 is a schematic flowchart after step S102 according to an embodiment of the present invention;

fig. 4 is a block flow diagram of step S103 according to the embodiment of the present invention;

fig. 5 is another schematic sub-flowchart of step S103 according to the embodiment of the present invention;

fig. 6 is a schematic sub-flowchart of step S503 according to an embodiment of the present invention;

fig. 7 is a schematic flowchart after step S103 according to the embodiment of the present invention;

fig. 8 is a schematic structural diagram of a sample scheduling system according to an embodiment of the present invention;

FIG. 9 is a schematic block diagram of a sample scheduling system provided by an embodiment of the present invention;

FIG. 10 is a schematic block diagram of a sample detection system provided by an embodiment of the present invention;

fig. 11 is a schematic block diagram of an operation unit according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items and includes such combinations.

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating a sample priority scheduling method according to an embodiment of the present invention;

as shown in fig. 1, the method includes steps S101 to S102.

S101, when a sample frame to be detected enters a priority sample placement area, triggering a scheduling instruction for carrying out priority sample introduction on the sample frame to be detected.

Under the conventional condition, the sample shelf to be measured is generally put into the district through the sample and is carried out the sample in batches, then gets into the track district through conventional sampling passageway and carry out the sample operation of inhaling, follows the order and takes precedence, the principle of surveying first in advance, under the condition that the sample shelf that appears waiting to be measured need the queue insertion, will be subject to the sequencing of advanced sample (the sample that has got into conventional sampling passageway promptly), need the manual regulation sample shelf to put the order, probably cause problems such as motion injury and biological contamination.

In order to avoid the occurrence of such problems, the embodiment adds a priority sample placement area for the sample rack to be tested performs priority sample injection, and after the sample rack to be tested is placed in the priority sample placement area, the scheduling instruction for performing priority sample injection on the sample rack to be tested is triggered, and the scheduling instruction refers to: and carrying out sample introduction prior to the sample rack to be detected of the same type with the highest priority.

Specifically, the manner of triggering the scheduling instruction may be a manner of receiving a user pressing a physical key or a virtual key, the physical key may be a key at any position on the sample detection apparatus convenient for the user to operate, and preferably may be set at a position close to the preferential sample placement area, and the scheduling instruction may be triggered when the user presses the physical key; in addition, the virtual key may be a function key provided by an application program on a user interaction interface of the sample detection apparatus, and the user triggers the scheduling instruction by clicking or touching.

S102, when the sample frame to be detected is the emergency treatment sample frame to be detected, obtaining information of the advanced emergency treatment sample frame, carrying out scheduling judgment on the emergency treatment sample frame to be detected according to the obtained information, obtaining a first scheduling result, and scheduling the emergency treatment sample frame to be detected to an emergency treatment channel sample sucking position according to the first scheduling result.

In this embodiment, after the sample rack to be tested is placed in the priority sample placement area and the scheduling instruction is triggered, the information of the sample rack to be tested is identified, and when the sample rack to be tested is identified as the emergency treatment sample rack to be tested, it is indicated that the sample rack to be tested is a sample requiring sample prior sample introduction (test); at the moment, the information of the advanced emergency sample rack needs to be acquired, the scheduling judgment is carried out by combining the information of the advanced emergency sample rack and the information of the emergency sample rack to be detected, which needs to be preferentially injected, so as to obtain a first scheduling result, that is, the current emergency sample rack to be detected and the existing emergency sample rack need to be analyzed, the node at which the current emergency sample rack to be detected can be inserted for sample suction is judged, and the emergency sample rack to be detected is scheduled to the emergency channel sample suction position according to the analyzed node for sample suction preferentially.

In one embodiment, as shown in fig. 2, step S102 includes:

s201, identifying a sample frame to be tested, acquiring test information and position information of an advanced emergency sample frame when an identification result is the emergency sample frame to be tested, and judging whether the emergency sample frame which is being tested or waiting for testing exists at an emergency channel sample suction position according to the test information and the position information;

s202, if the emergency treatment channel sample sucking position does not have an emergency treatment sample rack which is being tested or waits to be tested, scheduling the emergency treatment sample rack to be tested to the emergency treatment channel sample sucking position;

s203, if the emergency treatment sample rack which is being tested or waiting for testing exists in the sample sucking position of the emergency treatment channel, judging whether the sample buffer area has an advanced emergency treatment sample rack of the same type;

s204, if the sample buffer area does not have the same type of advanced emergency sample rack, scheduling the emergency sample rack to be tested to the sample buffer area, and when the emergency sample rack which is being tested or waits to be tested finishes testing, guiding the emergency sample rack to be tested into an emergency channel sample sucking position;

s205, if the same type of advanced emergency sample racks exist in the sample buffer area, dispatching the emergency sample racks to be tested to the sample buffer area for queuing.

In this embodiment, a sample rack to be tested is scanned by a scanning device, and the scanning process includes scanning the sample rack to be tested and the sample rack in which the sample rack is located, and obtaining test information, position information, and sample rack types respectively, where the sample rack types include calibration, quality control, emergency call, routine and manual retest; when the type of the sample rack is identified as emergency treatment and the sample rack to be detected is identified as the emergency treatment sample rack to be detected; judging that the emergency sample rack to be tested needs sample insertion and sample suction; and at the moment, the emergency sample rack to be tested can be scheduled and judged according to the acquired test information and position information of the advanced emergency sample rack.

The specific scheduling and judging process of the emergency sample rack to be detected comprises the following steps:

firstly, judging whether an emergency treatment sample rack which is being tested or waits to be tested exists in the emergency treatment channel sample sucking position, if not, indicating that the emergency treatment channel sample sucking position is idle, and directly dispatching the emergency treatment sample rack to be tested to the emergency treatment channel sample sucking position to carry out sample sucking operation.

Further, if the emergency treatment channel sample sucking position has an emergency treatment sample rack which is being tested or waiting for testing, the emergency treatment sample rack to be tested needs to wait for the emergency treatment sample rack which is being tested or waiting for testing to finish the sample sucking operation, and at the moment, the emergency treatment sample rack to be tested can be dispatched to the sample buffer area to wait; in the waiting process, judging whether the sample buffer area has the same type of advanced sample emergency treatment sample rack, wherein the same type of advanced sample emergency treatment sample rack is the advanced sample emergency treatment sample rack which needs to be inserted for sample suction together with the emergency treatment sample rack to be detected; if the sample buffer area does not have the same type of advanced emergency sample rack, after the emergency sample rack which is being tested or waiting to be tested is tested, the emergency sample rack to be tested is guided into the emergency channel sample sucking position with the highest priority.

Furthermore, if the same type of advanced emergency sample rack exists in the sample buffer area, queuing is performed, and after the same type of advanced emergency sample rack finishes sample suction, the emergency sample rack to be tested is guided into the emergency channel sample suction position.

More specifically, as shown in the sample scheduling layout diagram of fig. 8, in a specific scenario application:

when no sample rack is located at the sample sucking position 8071 (where the sample rack is located) of the emergency channel 807, the emergency sample rack to be tested is dispatched to the sample sucking position 8071 of the emergency channel through the emergency channel 807 to perform a sample sucking operation; when an emergency sample rack exists in the emergency channel sample sucking position 8071, the emergency sample rack to be tested is dispatched to the sample buffer area 803 via the sample dispatching area 805 for temporary storage, and can be led in and subjected to sample sucking operation after the emergency channel sample sucking position 8071 is idle; after the sample sucking operation is completed, the sample is transferred to the return channel 808 through the transfer mechanism 809, passes through the return channel 708 and the sample scheduling area 805, and is scheduled to the sample recovery area 804 by the sample scheduling area 805, so that the sample feeding and recovery of the emergency treatment sample rack to be detected are completed.

In an embodiment, as shown in fig. 3, after step S102, the method further includes:

s301, judging whether a non-emergency sample rack is in a test at a sample sucking position of a conventional channel;

s302, if the non-emergency sample rack under test does not exist in the sample sucking position of the conventional channel, directly sucking the sample of the emergency sample rack to be tested according to the information of the emergency sample rack to be tested;

and S303, if the non-emergency sample rack under test exists in the sample sucking position of the conventional channel, switching to the sample sucking position of the emergency channel to preferentially suck the sample of the emergency sample rack to be tested after the sample is completely added to the current sample in the non-emergency sample rack under test.

In this embodiment, the normal channel sample sucking position is a position for performing a test on the non-emergency sample rack, and the test can only be performed at any one of the normal channel sample sucking position and the emergency channel sample sucking position, when the emergency sample rack to be tested is scheduled to the emergency channel sample sucking position, a sample sucking operation needs to be preferentially arranged, so that it is determined whether the non-emergency sample rack being tested exists in the normal channel sample sucking position, if the non-emergency sample rack being tested exists in the normal channel sample sucking position, when a current sample in the non-emergency sample rack being tested finishes sample adding (finishes sample adding of a reaction cup to which a reagent has been added), the operation is suspended and switched to the emergency channel sample sucking position to perform a preferential sample sucking on the emergency sample rack to be tested, and after the sample sucking operation is finished, the normal channel sample sucking position is returned to continue the sample sucking operation of the non-emergency sample rack.

In an embodiment, the sample priority scheduling method further includes:

after step S101:

s103, when the sample rack to be detected is the non-emergency sample rack to be detected, obtaining information of the sample injection non-emergency sample rack, carrying out scheduling judgment on the non-emergency sample rack to be detected according to the obtained information and obtaining a second scheduling result, and scheduling the non-emergency sample rack to be detected to a conventional channel sample sucking position or an emergency channel sample sucking position according to the second scheduling result.

It can be understood that step S102 is a case where sample is taken out by queue when the sample rack to be tested is an emergency sample rack to be tested, and step S103 is a case where sample is taken out by queue when the sample rack to be tested is a non-emergency sample rack to be tested.

In this embodiment, after the sample rack to be tested is placed in the priority sample placement area and the scheduling instruction is triggered, information of the sample rack to be tested is identified, when the sample rack to be tested is identified as a non-emergency sample rack to be tested, information of the non-emergency sample rack to be first injected is obtained, scheduling judgment is performed by combining the information of the non-emergency sample rack to be first injected and information of the non-emergency sample rack to be tested which needs to be first injected, and a second scheduling result is obtained, that is, the current non-emergency sample rack to be tested and the entered non-emergency sample rack need to be analyzed, it is determined at what node the current non-emergency sample rack to be tested can be inserted into a queue for sample suction, and the non-emergency sample rack to be tested is scheduled to a conventional channel sample suction position or an emergency channel sample suction position for sample suction according to the analyzed node.

In one embodiment, as shown in fig. 4, step S103 includes:

s401, identifying a sample frame to be tested, when the identification result is that the sample frame to be tested is a non-emergency sample frame to be tested, acquiring test information and position information of the sample injection non-emergency sample frame, and judging whether a non-emergency sample frame which is being tested or waiting for testing exists in a sample suction position of a conventional channel according to the test information and the position information;

s402, if the non-emergency sample rack which is being tested or waiting for testing does not exist in the routine channel sample sucking position, the non-emergency sample rack to be tested is dispatched to the routine channel sample sucking position;

s403, if the non-emergency sample rack which is being tested or waiting for testing exists in the sample sucking position of the conventional channel and the non-emergency sample rack does not exist in the buffer position before sample sucking, scheduling the non-emergency sample rack to be tested to the buffer position before sample sucking, and after the non-emergency sample rack which is being tested or waiting for testing is tested, guiding the non-emergency sample rack to be tested into the sample sucking position of the conventional channel;

s404, if the non-emergency sample rack which is being tested or waiting to be tested exists in the sample sucking position of the conventional channel and the non-emergency sample rack exists in the buffer position before sample sucking, scheduling the non-emergency sample rack to be tested to a sample buffer area for queuing, and setting the sample scheduling priority of the non-emergency sample rack to be tested as the highest priority of the non-emergency sample rack of the same type.

In this embodiment, a sample rack to be tested is scanned by a scanning device, and the scanning process includes scanning a sample rack to be tested and a sample line to be tested in the sample rack to be tested, and obtaining test information, position information, and a sample rack type respectively, where the sample rack type includes calibration, quality control, emergency, routine, and manual retest; when the type of the sample rack is identified to be any type except emergency treatment, the types are unified to be non-emergency treatment types, and the sample to be detected is identified to be a non-emergency treatment sample to be detected; the non-emergency sample rack to be tested can be scheduled and judged according to the obtained testing information and the position information of the advanced sample non-emergency sample rack.

It should be noted that the sample sucking operation of the non-emergency sample rack to be tested may be performed in the normal channel sample sucking position or in the emergency channel sample sucking position.

The scheduling process of scheduling the non-emergency sample rack to be tested to the sample sucking position of the conventional channel comprises the following steps:

firstly, judging whether a non-emergency sample rack which is being tested or waits to be tested exists in the sample sucking position of the conventional channel, and if not, indicating that the sample sucking position of the conventional channel is idle, directly dispatching the non-emergency sample rack to be tested to the sample sucking position of the conventional channel for sample sucking operation.

Furthermore, if the non-emergency sample rack which is being tested or waiting for testing exists in the sample sucking position of the conventional channel and the non-emergency sample rack does not exist in the buffer position before sample sucking, the non-emergency sample rack to be tested is dispatched to the buffer position before sample sucking, and after the non-emergency sample rack which is being tested or waiting for testing is tested, the non-emergency sample rack to be tested is guided into the sample sucking position of the conventional channel.

Furthermore, if the non-emergency sample rack exists in both the normal channel sample sucking position and the pre-sample sucking buffer position, the non-emergency sample rack to be tested is dispatched to the sample buffer area to wait, and in the waiting process, whether the sample buffer area has the advanced non-emergency sample rack of the same type is judged.

Furthermore, if the same type of advanced sample non-emergency sample rack exists in the sample buffer area, queuing is performed, and after the same type of advanced sample non-emergency sample rack finishes sample suction, the non-emergency sample rack to be tested is guided into a conventional channel sample suction position with priority higher than that of other non-emergency sample racks.

More specifically, as shown in the schematic diagram of the sample scheduling layout shown in fig. 8, in another specific scenario application:

the non-emergency sample rack to be tested is placed in the preferential sample placement area 801 and can be dispatched to the conventional channel 806 and the sample buffer area 803 through the sample dispatching area 805, when the sample rack does not exist in the conventional channel sample sucking position 8061 (where the sample rack is located) on the conventional channel 806, the non-emergency sample rack to be tested is dispatched to the conventional channel 806 through the sample dispatching area 805 and is dispatched to the conventional channel sample sucking position 8061 through the conventional channel 806 for sample sucking operation; when the sample sucking position 8061 of the conventional channel has a non-emergency sample rack and the pre-sample sucking buffer position 8062 has no non-emergency sample rack, the conventional channel 806 is dispatched to the pre-sample sucking buffer position 8062; when non-emergency sample racks exist in the conventional channel sample sucking position 8061 and the sample sucking front buffer position 8062, the non-emergency sample rack to be detected is dispatched to the sample buffer area 803 through the sample dispatching area 805 to be temporarily stored, the sample sucking front buffer position 8062 can be led in when being idle, and the conventional channel sample sucking position 8061 can be led in when waiting for the conventional channel sample sucking position 7061 to be idle, and sample sucking operation is carried out; after the sample sucking operation is completed, the sample is transferred to the return channel 808 through the transfer mechanism 809, passes through the return channel 808 and the sample scheduling area 805, and is scheduled to the sample recovery area 804 by the sample scheduling area 805, so that the sample feeding and recovery of the non-emergency sample rack to be detected are completed.

In one embodiment, as shown in fig. 5, step S103 includes:

s501, identifying a sample rack to be tested, acquiring test information and position information of a sample injection non-emergency sample rack when the identification result shows that the sample rack to be tested is the non-emergency sample rack to be tested, and judging whether the non-emergency sample rack which is being tested or waiting for testing exists in a sample suction position of a conventional channel according to the test information and the position information;

s502, if the non-emergency sample rack which is being tested or waiting for testing does not exist in the routine channel sample sucking position, the non-emergency sample rack to be tested is dispatched to the routine channel sample sucking position;

s503, if the non-emergency-treatment sample rack which is being tested or waits to be tested exists in the sample suction position of the conventional channel and the sample suction position of the emergency channel is idle, the non-emergency-treatment sample rack to be tested is dispatched to the sample suction position of the emergency channel;

s504, if the non-emergency-call sample rack which is being tested or waiting to be tested exists in the sample sucking position of the conventional channel and other samples which are being tested or waiting to be tested exist in the sample sucking position of the emergency call channel, the non-emergency-call sample rack to be tested is scheduled to a sample buffer area to be queued for waiting, and the sample scheduling priority of the non-emergency-call sample rack to be tested is set as the highest priority of the non-emergency-call sample rack of the same type;

and S505, when the test of the sample sucking positions of the conventional channel and the emergency channel is completed and the buffer positions of the conventional samples are idle, preferentially guiding the to-be-tested non-emergency sample rack into the sample sucking position of the conventional channel, or when the test of the sample sucking positions of the conventional channel and the test of the sample sucking positions of the emergency channel and the corresponding sample rack is completed, guiding the to-be-tested non-emergency sample rack into the sample sucking position of the emergency channel.

The embodiment explains the process of dispatching the non-emergency sample rack to be tested to the sample sucking position of the conventional channel or the sample sucking position of the emergency channel; specifically, the method comprises the following steps:

firstly, judging whether a non-emergency sample rack which is being tested or waits to be tested exists in the sample sucking position of the conventional channel, and if not, indicating that the sample sucking position of the conventional channel is idle, directly dispatching the non-emergency sample rack to be tested to the sample sucking position of the conventional channel for sample sucking operation.

Furthermore, if the non-emergency sample rack which is being tested or waiting for testing exists in the normal channel sample sucking position and the emergency channel sample sucking position is idle, the non-emergency sample rack to be tested can be directly dispatched to the emergency channel sample sucking position for sample sucking operation.

Further, if other samples which are being tested or waiting for testing exist in both the normal channel sample sucking position and the emergency channel sample sucking position, the non-emergency sample rack to be tested is scheduled to the sample buffer area to wait, and in the waiting process, whether the sample buffer area has the same type of advanced non-emergency sample rack is judged, it needs to be noted that the advanced non-emergency sample rack of the same type is the advanced non-emergency sample rack which needs to be inserted into the queue for sample sucking as the non-emergency sample rack to be tested, and if the sample buffer area does not have the same type of advanced non-emergency sample rack, the non-emergency sample rack to be tested is introduced into the normal channel sample sucking position or the emergency channel sample sucking position in priority over other non-emergency sample racks after the normal channel sample sucking position or the emergency channel sample sucking position is idle; when the sample suction position of the conventional channel or the sample suction position of the emergency channel is idle, the sample suction position of the conventional channel is preferentially led in.

Furthermore, if the same type of advanced sample non-emergency sample rack exists in the sample buffer area, queuing is performed, and after the same type of advanced sample non-emergency sample rack finishes sample suction, the to-be-detected non-emergency sample rack is guided into the conventional channel sample suction position or the emergency channel sample suction position.

More specifically, as shown in the schematic diagram of the sample scheduling layout shown in fig. 8, in another specific scenario application:

when the sample sucking position 8061 (where the sample rack is located) on the conventional channel 806 has no sample rack, the non-emergency sample rack to be tested is dispatched to the conventional channel sample sucking position 8061 through the conventional channel 806 to perform sample sucking operation; when the non-emergency sample rack exists in the normal channel sample sucking position 8061 and the emergency channel sample sucking position 8071 does not exist in the emergency sample sucking position 8071, the non-emergency sample rack to be detected is dispatched to the emergency sample sucking position 8071 to perform sample sucking operation; when a non-emergency sample rack exists in the normal channel sample sucking position 8061 and an emergency sample rack exists in the emergency channel sample sucking position 8071, the non-emergency sample rack to be detected is dispatched to the sample buffer area 803 for temporary storage, and can be led in and subjected to sample sucking operation when any one of the normal channel sample sucking position 8061 and the emergency channel sample sucking position 8071 is idle; after the sample sucking operation is completed, the sample is transferred to the return channel 808 through the transfer mechanism 809, passes through the return channel 808 and the sample scheduling area 805, and is scheduled to the sample recovery area 804 by the sample scheduling area 805, so that the sample feeding and recovery of the non-emergency sample rack to be detected are completed.

In an embodiment, as shown in fig. 6, the process of dispatching the non-emergency sample rack to be tested to the emergency channel sample sucking position in step S503 includes:

s601, if the newly-entered sample rack to be detected is an emergency treatment sample rack to be detected, calling out a non-emergency treatment sample rack to be detected from an emergency treatment channel sample sucking position, and dispatching the emergency treatment sample rack to be detected to the emergency treatment channel sample sucking position;

and S602, scheduling the called non-emergency sample racks to be tested to a sample buffer area for queuing, and setting the sample scheduling priority of the called non-emergency sample racks to be tested as the highest priority of the same type of non-emergency sample racks.

In this embodiment, in the process of dispatching the non-emergency sample rack to be tested to the emergency channel sample sucking position, if a newly-entered sample rack to be tested is the emergency sample rack to be tested, the newly-entered emergency sample rack to be tested needs to be preferentially subjected to sample sucking operation, and at this time, the non-emergency sample rack to be tested dispatched to the emergency channel sample sucking position needs to be dispatched first, and the emergency sample rack to be tested is dispatched to the emergency channel sample sucking position to be preferentially subjected to sample sucking. And the dispatched non-emergency sample rack to be tested directly enters a sample buffer area to wait, and is preferentially led into a first idle position when a sample sucking position of a conventional channel or a buffer position before the conventional sample sucking or a sample sucking position of an emergency channel is idle.

In an embodiment, as shown in fig. 7, after step S103, the method further includes:

s701, judging the sample sucking position of the non-emergency sample rack to be detected;

s702, when the to-be-detected non-emergency sample rack is located in a sample sucking position of a conventional channel, directly sucking the to-be-detected non-emergency sample rack according to the information of the to-be-detected non-emergency sample rack;

s703, when the to-be-tested non-emergency sample rack is located in the emergency channel sample sucking position and the non-emergency sample rack under test exists in the conventional channel sample sucking position, switching to the emergency channel sample sucking position to suck the to-be-tested non-emergency sample rack after all samples in the non-emergency sample rack under test are loaded.

In this embodiment, after the non-emergency sample rack to be tested enters the sample sucking position of the conventional channel or the sample sucking position of the emergency channel through queue insertion, the sample sucking operation also needs to be preferentially arranged; specifically, the method comprises the following steps:

on one hand, if the non-emergency treatment sample rack to be tested enters the conventional channel sample sucking position and the emergency treatment channel sample sucking position has no emergency treatment sample rack, the sample sucking operation is directly performed on the non-emergency treatment sample rack to be tested, if the emergency treatment channel sample sucking position has the emergency treatment sample rack, the emergency treatment sample rack is waited for the test completion of the emergency treatment sample rack, and then the sample sucking operation is performed on the non-emergency treatment sample rack to be tested by switching to the conventional channel sample sucking position.

On the other hand, if the to-be-tested non-emergency sample rack enters the emergency gauge channel sample sucking position and the conventional channel sample sucking position has the non-emergency sample rack under test, switching to the emergency channel sample sucking position to suck the to-be-tested non-emergency sample rack after all the non-emergency samples in the non-emergency sample rack under test are loaded; and returning to the sample suction position of the conventional channel to continue to finish the sample suction operation of other sample racks after carrying out the sample suction operation on the non-emergency-call sample rack to be detected in the sample suction position of the emergency gauge channel.

With reference to fig. 8 and fig. 9, an embodiment of the present invention further provides a sample scheduling system 900, which includes: a triggering module 901 and a sample scheduling module 800;

the triggering module 901 is configured to trigger a scheduling instruction for performing preferential sampling on the sample rack to be tested when the sample rack to be tested enters the preferential sample placement area 801;

the sample scheduling module 800 is configured to, when the sample rack to be tested is an emergency sample rack to be tested, obtain information of an advanced emergency sample rack, perform scheduling judgment on the emergency sample rack to be tested according to the obtained information and obtain a first scheduling result, and schedule the emergency sample rack to be tested to the emergency channel sample sucking position 8071 according to the first scheduling result.

The system triggers a dispatching instruction of preferential sampling to the sample rack to be tested placed in the preferential sample placement area by setting the preferential sample placement area 801, and dispatches and judges the sample rack to be tested, so that the sample rack to be tested can be inserted into an emergency channel sample suction position to perform preferential sample suction operation, the system has the advantages of being free from the structure of the system and capable of flexibly dispatching the sample rack to be tested, and special requirements in clinical application are met.

In conjunction with fig. 8 and 9, in one embodiment, the sample scheduling module 800 includes: a sample input and output area, a sample scheduling area 805 and a sample detection area;

the sample input-output area includes: a preferential sample placement area 801, a non-emergency sample placement area 802, a sample buffer area 803 and a sample recovery area 804; the preferential sample placement area 801 and the non-emergency sample placement area 802 are in butt joint with the sample buffer area 803 through the sample scheduling area 805;

the sample scheduling area 805 is in butt joint with the priority sample placement area 801, the non-emergency sample placement area 802, the sample buffer area 803 and the sample recovery area 805;

the sample detection area comprises a conventional channel 806, an emergency channel 807 and a return channel 808, wherein the emergency channel 807 is provided with an emergency channel sample suction position 8071, the conventional channel 806 is provided with a conventional channel sample suction position 8061 and a sample suction front buffer position 8062, the sample detection area further comprises an orbit changing mechanism 809 for changing the orbit among the conventional channel 806, the emergency channel 807 and the return channel 808, and the conventional channel 806, the emergency channel 807 and the return channel 808 are all in butt joint with the sample scheduling area 805.

As shown in fig. 10, a sample testing system 1000 according to another embodiment of the present invention includes the above sample scheduling system 900, a control system 1001 and a sample analyzing system 1002;

the control system includes an operation part 10011 and a remote module 10012;

the sample analysis system includes a biochemical analysis portion 10021 or an immunoassay analysis portion;

the operation part 10011 is connected with the analysis system 1002 in a wired or wireless manner, and the operation part 10011 controls the sample analysis system 1002 to operate, complete sample data entry and output a detection result through the remote module 9012;

the operation unit 10011 is configured to control the sample scheduling system 900 to perform sample scheduling;

as shown in fig. 11, the operation unit 10011 includes a processor 100111, a memory 100112, an I/O interface 100113, an internal input device 100114, and an internal output device 100115;

the memory 100112 is used for storing control programs, the processor 100111 is used for executing control programs stored in the memory 100112, the I/O interface 100113 is used for communicating between the internal input device 100114 and other external input devices, and the I/O interface 100113 is used for communicating between the internal output device 100115 and other external output devices.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the system described above may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A method for sample first scheduling, comprising:

when the sample rack to be tested enters the priority sample placement area, triggering a scheduling instruction for carrying out priority sample introduction on the sample rack to be tested;

when the sample rack to be tested is the emergency treatment sample rack to be tested, obtaining information of the advanced emergency treatment sample rack, carrying out scheduling judgment on the emergency treatment sample rack to be tested according to the obtained information and obtaining a first scheduling result, and scheduling the emergency treatment sample rack to be tested to an emergency treatment channel sample sucking position according to the first scheduling result;

when the sample rack to be detected is a non-emergency sample rack to be detected, obtaining information of the sample injection non-emergency sample rack, carrying out scheduling judgment on the non-emergency sample rack to be detected according to the obtained information and obtaining a second scheduling result, and scheduling the non-emergency sample rack to be detected to a conventional channel sample suction position or an emergency channel sample suction position according to the second scheduling result.

2. The method according to claim 1, wherein when the sample rack to be tested is an emergency sample rack to be tested, obtaining information of an advanced sample emergency sample rack, performing scheduling judgment on the emergency sample rack to be tested according to the obtained information to obtain a first scheduling result, and scheduling the emergency sample rack to be tested to an emergency channel sample sucking position according to the first scheduling result, comprises:

identifying the sample rack to be tested, acquiring test information and position information of the advanced emergency sample rack when the identification result is the emergency sample rack to be tested, and judging whether the emergency sample rack which is being tested or waiting for testing exists at the emergency channel sample sucking position according to the test information and the position information;

if the emergency treatment channel sample sucking position does not have an emergency treatment sample rack which is being tested or waiting for testing, dispatching the emergency treatment sample rack to be tested to the emergency treatment channel sample sucking position;

if the emergency treatment channel sample sucking position has an emergency treatment sample rack which is being tested or waiting for testing, judging whether the sample buffer area has an advanced sample emergency treatment sample rack of the same type;

if the sample buffer area does not have the same type of advanced emergency sample rack, the emergency sample rack to be tested is dispatched to the sample buffer area, and after the emergency sample rack which is being tested or waiting for testing is tested, the emergency sample rack to be tested is guided into an emergency channel sample sucking position;

and if the sample buffer area has the advanced sample emergency treatment sample racks of the same type, scheduling the emergency treatment sample racks to be detected to the sample buffer area for queuing.

3. The method according to claim 2, wherein after the steps of obtaining information of an advanced emergency sample rack when the sample rack to be tested is an emergency sample rack to be tested, performing scheduling judgment on the emergency sample rack to be tested according to the obtained information, obtaining a first scheduling result, and scheduling the emergency sample rack to be tested to an emergency channel sample sucking position according to the first scheduling result, the method further comprises:

if the non-emergency-treatment sample rack under test does not exist in the sample sucking position of the conventional channel, directly sucking the sample of the emergency-treatment sample rack to be tested according to the information of the emergency-treatment sample rack to be tested;

if the non-emergency-call sample rack is tested in the normal channel sample sucking position, switching to the emergency-call channel sample sucking position to preferentially suck the sample of the emergency-call sample rack to be tested after the sample is added to the current sample in the non-emergency-call sample rack.

4. The method according to claim 1, wherein when the sample rack to be tested is a non-emergency sample rack to be tested, acquiring information of the non-emergency sample rack to be first injected, performing scheduling judgment on the non-emergency sample rack to be tested according to the acquired information and obtaining a second scheduling result, and scheduling the non-emergency sample rack to be tested to a normal channel sample sucking position or an emergency channel sample sucking position according to the second scheduling result, comprises:

identifying the sample rack to be tested, acquiring test information and position information of a sample injection non-emergency sample rack when the identification result shows that the sample rack to be tested is the non-emergency sample rack to be tested, and judging whether the non-emergency sample rack which is being tested or waiting for testing exists in the sample suction position of the conventional channel according to the test information and the position information;

if the normal channel sample sucking position does not have a non-emergency sample rack which is being tested or waiting for testing, the non-emergency sample rack to be tested is dispatched to the normal channel sample sucking position;

if the sample sucking position of the conventional channel has a non-emergency sample rack which is being tested or waiting for testing, and the buffer position before sample sucking does not have the non-emergency sample rack, the non-emergency sample rack to be tested is dispatched to the buffer position before sample sucking, and after the non-emergency sample rack which is being tested or waiting for testing is tested, the non-emergency sample rack to be tested is guided into the sample sucking position of the conventional channel;

if the sample sucking position of the conventional channel has a non-emergency sample rack which is being tested or waiting for testing, and the buffer position before sample sucking has the non-emergency sample rack, scheduling the non-emergency sample rack to be tested to a sample buffer area for queuing, and setting the sample scheduling priority of the non-emergency sample rack to be tested as the highest priority of the non-emergency sample rack of the same type.

5. The method according to claim 1, wherein when the sample rack to be tested is a non-emergency sample rack to be tested, obtaining information of the non-emergency sample rack to be first injected, performing scheduling judgment on the non-emergency sample rack to be tested according to the obtained information and obtaining a second scheduling result, and scheduling the non-emergency sample rack to be tested to a normal channel sample sucking position or an emergency channel sample sucking position according to the second scheduling result, comprises:

identifying the sample rack to be tested, acquiring test information and position information of a sample injection non-emergency sample rack when the identification result shows that the sample rack to be tested is the non-emergency sample rack to be tested, and judging whether the non-emergency sample rack which is being tested or waiting for testing exists in the sample suction position of the conventional channel according to the test information and the position information;

if the normal channel sample sucking position does not have a non-emergency sample rack which is being tested or waiting for testing, the non-emergency sample rack to be tested is dispatched to the normal channel sample sucking position;

if the sample sucking position of the conventional channel has a non-emergency treatment sample rack which is being tested or waiting for testing, and the sample sucking position of the emergency treatment channel is idle, scheduling the non-emergency treatment sample rack to be tested to the sample sucking position of the emergency treatment channel;

if the non-emergency-call sample rack which is being tested or waiting to be tested exists in the normal channel sample sucking position and other samples which are being tested or waiting to be tested exist in the emergency-call channel sample sucking position, the non-emergency-call sample rack to be tested is scheduled to a sample buffer area for queuing, and the sample scheduling priority of the non-emergency-call sample rack to be tested is set to be the highest priority of the non-emergency-call sample rack of the same type;

when the test of the sample sucking positions of the conventional channel and the emergency channel corresponding to the sample sucking positions is completed and the conventional sample buffer position is idle, the non-emergency sample rack to be tested is preferentially led into the sample sucking position of the conventional channel, or when the test of the sample sucking position of the conventional channel corresponding to the sample sucking position of the conventional channel is not completed and the test of the sample sucking position of the emergency channel corresponding to the sample rack is completed, the non-emergency sample rack to be tested is led into the sample sucking position of the emergency channel.

6. The method according to claim 5, wherein the dispatching the non-emergency sample rack to be tested to an emergency channel sample sucking position comprises:

if the newly-entered sample rack to be detected is an emergency treatment sample rack to be detected, the non-emergency treatment sample rack to be detected is called out from the emergency treatment channel sample sucking position, and the emergency treatment sample rack to be detected is dispatched to the emergency treatment channel sample sucking position;

scheduling the called non-emergency sample racks to be detected to a sample buffer area for queuing, and setting the sample scheduling priority of the called non-emergency sample racks to be detected as the highest priority of the non-emergency sample racks of the same type.

7. The method according to claim 1, wherein after the steps of obtaining information of a sample-first non-emergency sample rack when the sample rack to be tested is a non-emergency sample rack to be tested, performing scheduling judgment on the non-emergency sample rack to be tested according to the obtained information to obtain a second scheduling result, and scheduling the non-emergency sample rack to be tested to a sample sucking position of a conventional channel or a sample sucking position of an emergency channel according to the second scheduling result, the method further comprises:

when the to-be-detected non-emergency sample rack is located in a conventional channel sample sucking position, directly sucking the to-be-detected non-emergency sample rack according to the information of the to-be-detected non-emergency sample rack;

when the non-emergency sample rack to be tested is located in the emergency channel sample sucking position and the non-emergency sample rack under test exists in the conventional channel sample sucking position, switching to the emergency channel sample sucking position to suck the non-emergency sample rack to be tested after all samples in the non-emergency sample rack under test are loaded.

8. A sample scheduling system, comprising: the device comprises a triggering module and a sample scheduling module;

the trigger module is used for triggering a scheduling instruction for carrying out preferential sample introduction on the sample rack to be detected when the sample rack to be detected enters the preferential sample placing area;

the sample scheduling module is used for acquiring information of an advanced emergency sample frame when the sample frame to be detected is the emergency sample frame to be detected, performing scheduling judgment on the emergency sample frame to be detected according to the acquired information to obtain a first scheduling result, and scheduling the emergency sample frame to be detected to an emergency channel sample sucking position according to the first scheduling result;

the sample scheduling module is used for acquiring information of a sample injection non-emergency sample rack when the sample rack to be detected is the non-emergency sample rack to be detected, performing scheduling judgment on the non-emergency sample rack to be detected according to the acquired information to obtain a second scheduling result, and scheduling the non-emergency sample rack to be detected to a conventional channel sample sucking position or an emergency channel sample sucking position according to the second scheduling result.

9. The sample scheduling system of claim 8 wherein the sample scheduling module comprises: the device comprises a sample input and output area, a sample scheduling area and a sample detection area;

the sample input-output region includes: a priority sample placing area, a non-emergency sample placing area, a sample buffer area and a sample recovery area; the priority sample placing area and the non-emergency sample placing area are in butt joint with the sample buffer area through the sample scheduling area;

the sample scheduling area is in butt joint with the priority sample placing area, the non-emergency sample placing area, the sample buffer area and the sample recovery area;

the sample detection area comprises a conventional channel, an emergency treatment channel and a return channel, wherein the emergency treatment channel is provided with an emergency treatment channel sample suction position, the conventional channel is provided with a conventional channel sample suction position and a sample suction front buffer position, the sample detection area further comprises a track transfer mechanism for transferring tracks among the conventional channel, the emergency treatment channel and the return channel, and the conventional channel, the emergency treatment channel and the return channel are all in butt joint with the sample scheduling area.

10. A sample detection system comprising a control system, a sample analysis system and a sample scheduling system according to claim 8 or 9;

the control system comprises an operating part and a remote module;

the sample analysis system comprises a biochemical analysis part or an immunoassay part;

the operation part is connected with the analysis system in a wired or wireless mode, and controls the sample analysis system to operate, complete sample data input and output a detection result through a remote module;

the operation part is used for controlling the sample scheduling system to schedule the samples.

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