CN107290560A - Reagent suction method, device and sample analyser for many bottles of reagents - Google Patents

Abstract

A kind of to be used for reagent suction method, device and the sample analyser of many bottles of reagents, this method includes：Obtain the absorption order and the placement location of many bottles of reagents of many bottles of reagents of user's setting, the priority ranking for the reagent position for inhaling reagent operation is performed according to the absorption order determination of the placement location and many bottles of reagents of many bottles of reagents, the relative displacement of suction mechanism and reagent load carrier is determined according at least to priority ranking, drives suction mechanism and/or reagent load carrier to move according to the relative displacement of suction mechanism and reagent load carrier；Control suction mechanism to perform and inhale reagent operation.Because the absorption order of many bottles of reagents set according to user determines to perform the priority ranking for the reagent position for inhaling reagent operation, and the relative displacement of suction mechanism and reagent load carrier is determined according at least to priority ranking, so that the desired reagent of user is transported to suction reagent position, it is final to realize that the order set according to user draws reagent.

Description

Reagent suction method, device and sample analyser for many bottles of reagents

Technical field

The present invention relates to sample analyser, and in particular to the reagent suction method and device of sample analyser.

Background technology

Full-automatic sample analyser is used to analyze the sample for coming from tested body, is characterized in automatic Change degree is high, and test speed is fast.In some hospitals, the test quantity of some projects daily is very big, therefore this The quantity of various reagents is also very big used in a little test events, in order to ensure the continuity of test, Yi Shengtong Many bottles (referred to as many bottles of reagents herein) are often placed on instrument to same reagent, instrument software passes through acquiescence Absorption order determine which bottle reagent drawn in advance.For example, be placed on reagent disc to same reagent Three bottles, the absorption order that instrument software is defaulted as this kind of reagent is to be inhaled according to the order of cup position coordinate from small to large Take reagent.

Preserved in view of the reagent of each hospital and pick and place work and have differences, doctor may take reagent During choose to i.e. by expired reagent, or calibration is i.e. by expired reagent.In this case, cure Life generally may wish to first use expired reagent, or calibration parameter first uses expired reagent. Instrument software is decided in its sole discretion under the mode of absorption order, and doctor does not have enough authorities to be drawn with selective reagent Sequentially, the reagent of doctor's waste costly is may result in, or performs more complicated calibration flow.

The content of the invention

The application provides a kind of reagent suction method, device and sample analyser for many bottles of reagents, can make The absorption order of many bottles of reagents of user's sets itself.

According in a first aspect, providing a kind of reagent suction method for many bottles of reagents, bag in a kind of embodiment Include：

Obtain the absorption order and the placement location of many bottles of reagents of many bottles of reagents of user's setting, many bottles of examinations Agent is to be contained in multiple containers and belong to same type of reagent；

The examination for inhaling reagent operation is performed according to the absorption order determination of the placement location and many bottles of reagents of many bottles of reagents The priority ranking of agent position；

The relative displacement of suction mechanism and reagent load carrier is determined according at least to priority ranking；

Inhale reagent link, according to suction mechanism and reagent load carrier relative displacement drive suction mechanism and/ Or the movement of reagent load carrier；

Control suction mechanism to perform and inhale reagent operation.

According to second aspect, a kind of reagent for being used for many bottles of reagents is provided in a kind of embodiment and draws control device, Including：

Data obtaining module, obtains the absorption order of many bottles of reagents of user's setting and the placement position of many bottles of reagents Put, many bottles of reagents are to be contained in multiple containers and belong to same type of reagent；

Test module, the absorption order determination for placement location and many bottles of reagents according to many bottles of reagents is performed The priority ranking of the reagent position of reagent operation is inhaled, and suction mechanism and examination are determined according at least to priority ranking The relative displacement of agent load carrier；

Suction module, for inhaling reagent link, according to the relative displacement of suction mechanism and reagent load carrier Suction mechanism and/or the movement of reagent load carrier are driven, and controls suction mechanism to perform and inhales reagent operation.

According to the third aspect, a kind of sample analyser is also provided, including：

Human-computer interaction device, for providing the user input/output interface and input interface；

Reagent load carrier, for carrying reagent, thereon with multiple reagent positions for being used to accommodate reagent container；

Suction mechanism, injects in reaction cup for drawing reagent from reagent disc, and by the reagent of absorption；

Control system, control system is electrically connected with human-computer interaction device, and data friendship is carried out with human-computer interaction device Mutually, control system includes above-mentioned reagent absorption control device.

In the embodiment of the present invention, examination is inhaled because the absorption order of many bottles of reagents set according to user determines to perform The priority ranking of the reagent position of agent operation, and determine that suction mechanism and reagent are held according at least to priority ranking The relative displacement of mounted mechanism so that the desired reagent of user is transported to suction reagent position, it is final realize according to The order of user's setting draws reagent.

Brief description of the drawings

Fig. 1 is the part-structure schematic diagram of sample analyser；

Fig. 2 is the module map of reagent absorption control device in embodiment one；

Fig. 3 is the flow chart of reagent absorption in embodiment one；

The setting interface of reagent absorption order when Fig. 4 is test application；

Fig. 5 is placement location schematic diagram of many bottles of reagents on reagent disc；

Fig. 6 is the flow chart of reagent absorption in embodiment two.

Embodiment

The present invention is described in further detail below by embodiment combination accompanying drawing.

Embodiment one：

Sample analyser generally works according to procedure below：Apply test, sample introduction, inhale sample, inhale reagent, instead Should, handled again for different analysis projects after reaction.Fig. 1 is refer to, sample analyser includes man-machine Interactive device 1, control system 3, the memory module 2 for data storage, sample load carrier, reagent are held Mounted mechanism, suction mechanism and reaction module, control system 3 respectively with human-computer interaction device 1, memory module 2, Sample load carrier, reagent load carrier, suction mechanism and reaction module are electrically connected by interface module 4.

Human-computer interaction device 1 is that user (such as doctor) provides input/output interface and input equipment, is received User input information, and to user show sample analyser state parameter.It is man-machine in one instantiation Interactive device 10 is included in display, keyboard and mouse, another instantiation, and human-computer interaction device 10 is also It can be the display with touch screen.In the present embodiment, user passes through the input sample of human-computer interaction device 10 The placement location of information, the test event of sample and sample on sample load carrier.In the present embodiment, use Family carries out test application by human-computer interaction device 1, and test application includes input sample information, reagent information And test event.

Suction mechanism is used to draw sample and reagent, and the sample of absorption and reagent are injected in reaction cup.Such as Shown in Fig. 1, suction mechanism may include sample suction mechanism 26 and reagent suction mechanism 25.In the embodiment having In, sample suction mechanism and reagent suction mechanism can also share a suction mechanism, i.e., one suction mechanism Both sample suction operation had been performed, reagent suction operation is also performed, sample or reagent suction behaviour are being performed every time The sampling needle of suction mechanism is cleaned after work.Suction mechanism can be held by up and down motion and rotary motion Row suction is operated, and can also perform suction operation by the way that three-dimensional is mobile.

Reaction module is used to be that sample and reagent are provided in incubation place, the present embodiment, and reaction module includes anti- 27 should be coiled, the marginal portion of reaction tray 27 is provided with multiple placement positions 28, each place can accommodate on position One reaction cup, after sample suction mechanism 26 draws sample, the sample of absorption is injected predetermined reaction cup It is interior, after reagent suction mechanism 25 draws reagent, the reagent of absorption is also injected into predetermined reaction cup, sample This and reagent are incubated after being mixed in reaction cup.Generally, set in the rotary motion trace of reaction tray 27 There is sample to inject position and reagent injection position.In the embodiment having, reaction tray can also include a sample reagent Position is injected, sample and reagent all inject position in the sample reagent and injected by suction mechanism in reaction cup.

Sample load carrier is used to carry sample, and sample is transported into precalculated position, sample load carrier tool Have and a container for being used to accommodate sample is placed on multiple sample bits, each sample bit.In a specific embodiment In, as shown in figure 1, sample load carrier is sample disk 22, it is provided with along the marginal portion of sample disk multiple Sample can be transported to suction sample bit by sample bit 21, sample disk 22 by rotating, when sample disk 22 is by sample When being transported to suction sample bit, sample suction mechanism 26, which is performed, inhales sample operation.In the embodiment having, sample is held Mounted mechanism can also be sample rack, and the sample on sample rack is transported into suction sample bit by transport establishment. In some embodiments, sample load carrier can also be fixed on to some position, and control sample suction mechanism 26 movements, make the sampling needle of sample suction mechanism 26 be moved to suction sample bit.

Reagent load carrier is used to carry reagent, and by agent delivery to precalculated position, reagent load carrier has Have and place a container for being used to accommodate reagent on multiple reagent positions, each reagent position.In a specific embodiment In, as shown in figure 1, reagent load carrier is reagent disc 23, it is provided with along the marginal portion of reagent disc multiple Reagent position 24, reagent disc 23 can be by selecting by the suction reagent position of agent delivery to setting, when reagent disc 23 By agent delivery to when inhaling reagent position, reagent suction mechanism 25, which is performed, inhales reagent operation.In the embodiment having, Reagent load carrier can also be fixed on to some position, and control reagent suction mechanism to move, reagent is inhaled The sampling needle of note mechanism is moved to suction reagent position.

Control system 3 is used to carry out data interaction with human-computer interaction device 1, is received from human-computer interaction device 1 The information of user's input, including test application and the instruction of user, and by the test mode of analyzer and test As a result human-computer interaction device 1 is fed back to.Control system 3 is additionally operable to read data from memory module 2 or by number According to being stored in memory module 2.Control system 3 is additionally operable to control the work of analyzer each several part, is inhaling sample This link, control system 3 controls sample disk 22 that sample is transported into suction sample position, control sample suction mechanism 26 Drive sampling needle to be moved to suction sample position top, inhale sample operation to being placed on to inhale the upper sample in sample position and perform, then control This suction of sample preparation mechanism 26 drives sampling needle to be moved to above reaction tray, while control reaction tray 27 to rotate, Predetermined reaction cup is turned into sample injection position, then sampling needle injects the sample of absorption in reaction cup. Reagent link is being inhaled, agent delivery to reagent position is inhaled, is controlled reagent suction mechanism 25 by control reagent disc 23 Drive sampling needle to be moved to suction reagent position top, reagent operation inhaled to being placed on to inhale the upper reagent in reagent position and perform, Then control reagent suction mechanism 25 drives sampling needle to be moved to above reaction tray, while controlling reaction tray 27 Rotate, predetermined reaction cup is turned into reagent injection position, then the reagent of absorption is injected and reacted by sampling needle In cup.

For some test event, what its reagent type used was to determine, such as need to use in test process To a kind of reagent or plurality of reagents, in the present embodiment, for same type of reagent, it may be provisioned with many Bottle, the reagent that control system 3 includes being used to many bottles of reagents are ranked up and controlled reagent draw draws control Device, includes data obtaining module 31, test module 32, inhales as shown in Fig. 2 reagent draws control device Injection molding block 33 and surplus management module 34.Data obtaining module 31 is used for many bottles of reagents for obtaining user's setting Absorption order and many bottles of reagents placement location, many bottles of reagents is are contained in multiple containers and belonged to Same type of reagent；Test module 32 is used for the absorption of the placement location and many bottles of reagents according to many bottles of reagents Order determines to perform the priority ranking for the reagent position for inhaling reagent operation, and is determined according at least to priority ranking The relative displacement of suction mechanism and reagent load carrier；Suction module 33 is used to inhale reagent link, according to suction Relative displacement driving suction mechanism and/or the movement of reagent load carrier of mechanism and reagent load carrier are noted, so that Potent agent is transported to the suction reagent position of setting, and controls suction mechanism to perform suction reagent behaviour to potent agent Make.The surplus that surplus management module 34 is used for potent agent after reagent operation is inhaled carries out analysis management, and Determined whether to switch reagent bottle according to analysis result.In a particular embodiment, test module 32 also includes effective Reagent determining unit 321, rotation planning unit 322, potent agent determining unit 321 are used for according to priority Sequence determines to perform the reagent position for inhaling reagent operation, and using the reagent placed on reagent position as effective Reagent.When starting test, potent agent determining unit 321 is used to sort most according to priority ranking The reagent position that reagent operation is inhaled in the reagent position of elder generation as performing, in test process, when according to surplus management mould The judgement of block 34 is, it is necessary to when switching reagent bottle, and potent agent determining unit 321 is by the reagent position of next sequence The reagent position for inhaling reagent operation as performing.Rotation planning unit 322 is used for the rotation for planning reagent load carrier Rotate and make, for example, direction of rotation and the rotating cup bit quantity of planning reagent load carrier, so that potent agent It is transported to suction reagent position.

For convenience of describing, illustrated in the present embodiment exemplified by testing application and only needing to a type of reagent, Based on above-mentioned sample analyser, when the reagent of this type has many bottles of reagents, the method for drawing reagent can As shown in figure 3, comprise the following steps,：

Step 100, by human-computer interaction device, user inputs reagent information on test application interface, wherein Order information is drawn including reagent, as shown in figure 4, user's input setting reagent draws order information, such as Reagent B001, absorption order is 2；Reagent B002, absorption order is 1；Reagent B003, inhales It is 3 to take order.

Step 110, user starts test after completing test application, obtains the placement location of each reagent, for example, tries Agent disc spins make each reagent successively pass through information read device, the information of information read device reading reagent, root The placement location of each reagent can be learnt according to the information of reagent and the set location of information read device.

Step 120, priority ranking is carried out according to absorption order.Data obtaining module obtains many of user's setting The absorption order and the placement location of many bottles of reagents of bottle reagent, test module is according to the placement locations of many bottles of reagents Determine to perform the priority ranking for the reagent position for inhaling reagent operation with the absorption order of many bottles of reagents.Such as Fig. 5 institutes Show, reagent of the same race there are three bottles：Reagent A, reagent B and reagent C, the lot number of reagent A is P0001, bottle number For B0001；Reagent B lot number is P0001, and bottle number is B0002；The lot number of reagent C is P0002, bottle Number be B0001, absorption that user is set to three bottles of reagents sequentially as shown in figure 4, the placement location of each reagent such as Shown in Fig. 5：Reagent A is placed on No. 1 position 23a, and reagent B is placed on No. 3 position 23b, and reagent C is placed on No. 4 position 23c, then perform inhale reagent operation reagent position priority ranking be：No. 3 position 23b, No. 1 position 23a, No. 4 position 23c, i.e., first draw the reagent B on No. 3 position 23b, then draw the examination on No. 1 position 23a Agent A, finally draws the reagent C on No. 4 position 23c.

Step 130, reagent disc spinning movement is planned.According to priority ranking, first to coming reagent position at first Reagent operation is inhaled in execution, according to the suction reagent position of the current position coordinates of the reagent position come at first and setting Position coordinates, plans the spinning movement of reagent disc, for example, plan direction of rotation and the rotating cup digit of reagent disc. For example first the B002 reagents being placed on No. 3 position 23b are performed and inhale reagent operation, B002 reagents are to work as Preceding potent agent, therefore No. 3 position 23b are first rotated into suction reagent position 24a.

Step 140, reagent disc is rotated according to planning.In this step, suction module can be according to the finger of test module Order performs reagent disc spinning movement, and the currently active reagent is rotated into suction reagent position.

Step 150, after reagent disc is rotated in place, suction module control suction mechanism is pointed to inhale on reagent position Reagent, which is performed, inhales reagent operation.

Step 160, surplus management is carried out to potent agent.Suction mechanism is drawn successfully or after failure, by surveying Die trial block carries out analysis management to reagent, and performs step 170, and switching is determined whether according to analysis result Reagent bottle.If current reagent bottle surplus is not 0, reagent bottle need not be switched, reagent is drawn still next time Drawn in current bottle；If current bottle surplus is 0, step 130 is jumped to, reagent disc spins are planned again Action, for example, rotate to suction reagent position by the reagent of next sequence, then rotates reagent disc progress reagent bottle and cuts Change.When carrying out analysis management to reagent, the reagent in reagent bottle can be judged by the method for level detection Surplus.In another embodiment, can also surveying according to reagent when carrying out analysis management to reagent Examination number of times judges whether to need to switch on reagent bottle, such as reagent bottle to be labelled with the available test of this bottle of reagent Number of times, when user carries out test application, the available test of this bottle of reagent is inputted on test application interface Number of times, as shown in Figure 4.Testing time can be this bottle of reagent actually available testing time, can also It is the testing time that user oneself sets as needed.

The present embodiment allows user to be configured many bottles of reagents using order, and making according to many bottles of reagents With the final spinning movement for determining reagent disc of order, so that the absorption order of reagent meets the expectation of user.

Embodiment two：

The present embodiment and the difference of embodiment one be, the reagent information inputted in user on test application interface In also include reagent and can be used number of times and cyclical information, cyclical information is used to providing whether many bottles of reagents circulate carrying For reagent.The flow chart of the present embodiment is as shown in fig. 6, comprise the following steps：

Step 200, user inputs reagent information on test application interface, and it is suitable that reagent information includes reagent absorption Sequence information, can testing time and cyclical information, cyclical information for example may be selected does not circulate or circulates.

Step 210, user starts test after completing test application, obtains the placement location of each reagent, specifically may be used It is identical with the corresponding steps in embodiment one.

Step 220, priority ranking is carried out according to absorption order.Specifically can be with the corresponding steps in embodiment one It is identical.

Step 230, reagent disc spinning movement is planned.Spiraled according to priority ranking and cyclical information planning reagent Rotate and make, or reagent disc spinning movement, example are planned according to priority ranking, absorption number of times and cyclical information Such as, reagent bottle A, setting order 1, absorption number of times 2, reagent bottle B, setting order 2, absorption number of times 2, If cyclical information is does not circulate, the order drawn is as follows：

A->A->B->B

If cyclical information is circulation, the order drawn is as follows：

A->B->A->B

Step 240, reagent disc is rotated according to planning.In this step, suction module can be according to the finger of test module Order performs reagent disc spinning movement, and the currently active reagent is rotated into suction reagent position.

Step 250, after reagent disc is rotated in place, suction module control suction mechanism is pointed to inhale on reagent position Reagent, which is performed, inhales reagent operation.

It will be understood by those skilled in the art that all or part of step of various methods can in above-mentioned embodiment To instruct related hardware to complete by program, the program can be stored in a computer-readable recording medium, Storage medium can include：Read-only storage, random access memory, disk or CD etc..

Use above specific case is illustrated to the present invention, is only intended to help and is understood the present invention, not To limit the present invention.For those skilled in the art, according to the thought of the present invention, Some simple deductions, deformation can also be made or replaced.

Claims (10)

1. the reagent suction method for many bottles of reagents, it is characterised in that including：

Obtain the absorption order and the placement location of many bottles of reagents of many bottles of reagents of user's setting, many bottles of examinations Agent is to be contained in multiple containers and belong to same type of reagent；

The examination for inhaling reagent operation is performed according to the absorption order determination of the placement location and many bottles of reagents of many bottles of reagents The priority ranking of agent position；

The relative displacement of suction mechanism and reagent load carrier is determined according at least to priority ranking；

Inhale reagent link, according to suction mechanism and reagent load carrier relative displacement drive suction mechanism and/ Or the movement of reagent load carrier；

Control suction mechanism to perform and inhale reagent operation.

2. the method as described in claim 1, it is characterised in that described true according at least to priority ranking Determining the relative displacement of suction mechanism and reagent load carrier includes：

Determine that the reagent position for inhaling reagent operation will be performed according to priority ranking, and will be placed on reagent position Reagent be used as potent agent；

The spinning movement of reagent load carrier is planned, so that potent agent is transported to suction reagent position.

3. method as claimed in claim 1 or 2, it is characterised in that also include after reagent operation is inhaled： Surplus to potent agent carries out analysis management, and determines whether switching reagent bottle according to analysis result；

It is described to determine that perform the reagent position for inhaling reagent operation includes according to priority ranking：

When starting test, it will sort and be tried in reagent position at first as suction will be performed according to priority ranking The reagent position of agent operation；

In test process, when needing switching reagent bottle, the reagent position of next sequence is tried as suction is performed The reagent position of agent operation.

4. method as claimed in claim 1 or 2, it is characterised in that also include, obtains user's input Cyclical information, the cyclical information is used to provide whether many bottles of reagents circulate offer reagent, afterwards according to preferential Level sequence and cyclical information determine the relative displacement of suction mechanism and reagent load carrier.

5. the reagent for many bottles of reagents draws control device, it is characterised in that including：

Data obtaining module, obtains the absorption order of many bottles of reagents of user's setting and the placement position of many bottles of reagents Put, many bottles of reagents are to be contained in multiple containers and belong to same type of reagent；

Test module, the absorption order determination for placement location and many bottles of reagents according to many bottles of reagents is performed The priority ranking of the reagent position of reagent operation is inhaled, and suction mechanism and examination are determined according at least to priority ranking The relative displacement of agent load carrier；

Suction module, for inhaling reagent link, according to the relative displacement of suction mechanism and reagent load carrier Suction mechanism and/or the movement of reagent load carrier are driven, and controls suction mechanism to perform and inhales reagent operation.

6. device as claimed in claim 5, it is characterised in that test module includes：

Potent agent determining unit, for determining that the reagent for inhaling reagent operation will be performed according to priority ranking Position, and it regard the reagent placed on reagent position as potent agent；

Rotate planning unit, the spinning movement for planning reagent load carrier, so that potent agent is transported To suction reagent position.

7. the device as described in claim 5 or 6, it is characterised in that also including surplus management module, Surplus management module is used to after reagent operation is inhaled carry out the surplus of potent agent analysis management, and according to point Analysis result determines whether to switch reagent bottle；Potent agent determining unit is used for when starting test, according to preferential Level sequence will sort inhales the reagent position of reagent operation as execution in reagent position at first, in test process, When needing switching reagent bottle, the reagent position of next sequence is regard as the reagent position for performing suction reagent operation.

8. device as claimed in claim 7, it is characterised in that the liquid that surplus management module passes through acquisition Face testing result and the available pendulous frequency of each reagent carry out analysis management to the surplus of potent agent.

9. the device as described in claim 5 or 6, it is characterised in that data obtaining module is additionally operable to obtain The cyclical information of family input is taken, the cyclical information is used to provide whether many bottles of reagents circulate offer reagent, Test module determines the relative position of suction mechanism and reagent load carrier according to priority ranking and cyclical information Move.

10. a kind of sample analyser, it is characterised in that including：

Human-computer interaction device, for providing the user input/output interface and input interface；

Reagent load carrier, for carrying reagent, thereon with multiple reagent positions for being used to accommodate reagent container；

Suction mechanism, injects in reaction cup for drawing reagent from reagent disc, and by the reagent of absorption；

Control system, control system is electrically connected with human-computer interaction device, and data friendship is carried out with human-computer interaction device Mutually, the reagent that control system is included as any one of claim 5 to 9 draws control device.