CN102735861B - A kind of sample rack method for supervising and device, a kind of body fluid work station - Google Patents

Abstract

The invention discloses a kind of sample rack method for supervising and device, the method comprises: the test application information according to sample on sample rack generates schedule information, according to schedule information schedules sample rack to test sample; Obtain and process the test mode information of sample on sample rack in the positional information of sample rack in track and/or track, the positional information after process and/or test mode information are exported; By the sample rack positional information after human-computer interaction interface Graphics Processing and/or test sample status information.By human-computer interaction interface, user can observe position and the movement locus of sample rack in track, thus information can carry out associative operation accordingly, and meanwhile, user can also observe the test mode of sample in streamline test process.The invention also discloses a kind of body fluid work station.

Description

A kind of sample rack method for supervising and device, a kind of body fluid work station

Technical field

The present invention relates to medicine equipment, particularly relate to a kind of sample rack method for supervising and device, and a kind of body fluid work station.

Background technology

At present for the test sample in sample rack in body fluid work station, when carrying out test sample, need to propose test application at application interface, then in result interface, show its test result, user checks the test result of certain sample by result interface.There is following shortcoming in existing this mode of being checked by result interface:

1, user cannot monitor the positional information of sample rack in track in real time in test process, can not check the positional information of sample rack from result interface; But in practical operation, user is the positional information needing to obtain in real time sample rack in track, and information carries out corresponding specific aim operation accordingly, such as, when sample rack does not move to appointment instrument, reagent is supplemented to appointment instrument.

2, user directly can not learn the test mode of sample in test process, such as, remain the test duration; Interested sample can not be selected to check its test mode from result interface.

Body fluid work station, as biochemical the flow work station, its automaticity is high, test speed is fast, use hospital's test sample book quantity large, have great amount of samples frame in the same time with speed motion faster in track, user more urgently wishes position and the test case that can know sample rack in test.

Summary of the invention

The technical problem underlying that the embodiment of the present invention will solve is, provides a kind of sample rack method for supervising and device, can monitor the position of sample rack and the test mode according to sample on the selection display sample rack of user.

For solving the problems of the technologies described above, the embodiment of the present invention provides a kind of sample rack method for supervising, comprising: the test application information according to sample on sample rack generates schedule information, according to schedule information schedules sample rack to test sample; Obtain and process the test mode information of sample on sample rack in the positional information of sample rack in track and/or track, the positional information after process and/or test mode information are exported; By the sample rack positional information after human-computer interaction interface Graphics Processing and/or test sample status information.

In a kind of embodiment, described method also comprises: the selection information that described human-computer interaction interface inputs according to user shows; Described selection information comprises the sample of selecting to specify sample rack and/or specify.

Described acquisition also processes the positional information of sample rack in track and comprises: receive the signal being arranged on the position transducer in track and being triggered by sample rack, the position of judgement sample frame in track, generate positional information, this positional information is converted to the positional information being suitable for showing.

Preferably, the described position of judgement sample frame in track comprises: according to numbering and the schedule information of triggered position transducer, obtains the positional information of the sample rack of each numbering on track.

Preferably, the described position of judgement sample frame in track comprises: according to the numbering of triggered position transducer, schedule information and sample rack from a position transducer to the schedule time of another position transducer, obtains the positional information of the sample rack of each numbering on track.

Preferably, described method also comprises: according to the position of sample rack in track, obtain the running orbit of sample rack, the running orbit of described human-computer interaction interface display sample rack.

Described acquisition the test mode information processing sample on sample rack in track comprise: the test application information having completed sample on the testing time and this sample rack inhaling sample according to sample on sample rack generates the test mode information of sample, this test mode information is converted to the test mode information being suitable for showing.

Correspondingly, embodiments provide a kind of sample rack supervising device, comprising: sampling system, generate schedule information, according to schedule information schedules sample rack to test sample for the test application information according to sample on sample rack; Display message processing module, for obtaining and processing the test mode information of sample on sample rack in the positional information of sample rack in track and/or track, exports the positional information after process and/or test mode information; Human-computer interaction interface, for the sample rack positional information after Graphics Processing and/or test sample status information.

In a kind of embodiment, described device also comprises: the selection information of described human-computer interaction interface also for inputting according to user shows; Described selection information comprises the sample of selecting to specify sample rack and/or specify.

Described display message processing module comprises: sample introduction module, and for receiving the signal that the position transducer be arranged in track is triggered by sample rack, the position of judgement sample frame in track, generates positional information; Message processing module, for the positional information of described sample introduction module is converted to be suitable for show positional information and export.

Preferably, described sample introduction module also for according to the position of sample rack in track, obtains the running orbit of sample rack; Described message processing module also for described running orbit is converted to be suitable for show running orbit and export.

Preferably, described display message processing module comprises: measurement module, and the test application information for having completed sample on the testing time and this sample rack inhaling sample according to sample on sample rack generates the test mode information of sample; Message processing module, for described test mode information is converted to be suitable for show test mode information and export.

In addition, the embodiment of the present invention additionally provides a kind of body fluid work station, and for testing the sample on multiple sample rack, it adopts any one sample rack supervising device as above.

Beneficial effect of the present invention is: by human-computer interaction interface, and user can observe the position of sample rack in track, thus information can carry out associative operation accordingly, and meanwhile, user can also observe the test mode of sample in test process; User can also be shown in a kind of embodiment and specify sample rack or sample.

Accompanying drawing explanation

The sample rack supervising device structural representation that Fig. 1 provides for the embodiment of the present invention;

The schematic flow sheet of the sample rack method for supervising that Fig. 2 provides for the embodiment of the present invention;

Fig. 3 is the schematic diagram of a kind of sample rack method for supervising of the present invention embodiment;

Fig. 4 is the schematic diagram of the present invention's another kind of sample rack method for supervising embodiment;

Fig. 5 is the schematic diagram of another sample rack method for supervising embodiment of the present invention;

Fig. 6 is that the embodiment of the present invention illustrates the schematic diagram of sample rack position and test sample state in patterned mode;

Fig. 7 is that the embodiment of the present invention is with the schematic diagram of the test mode of a certain sample shown in patterned way.

Embodiment

By reference to the accompanying drawings the present invention is described in further detail below by embodiment.

The overall thought of embodiment of the present invention is: provide human-computer interaction interface to show the position of sample rack in track and movement locus and/or the test mode according to sample on the selection display sample rack of user; Thus overcome existing when carrying out test sample existence cannot monitor the position of sample rack and/or the problem of test sample state in real time.

As shown in Figure 1, embodiments provide a kind of sample rack supervising device, comprise: sampling system 10, display message processing module 20, human-computer interaction interface 30, wherein, display message processing module 20 comprises sample introduction module 21, measurement module 22, message processing module 23.Human-computer interaction interface 30 comprise sample rack display interface 31 for showing sample rack position, for show test sample state sample status display interface 32, for carry out for user testing application application interface 33, for showing the result interface 34 of sample final testing result.

Sampling system 10 generally includes SDM (SampleDeliveryModule, sample delivery module), each position transducer on track and track, track is provided with multiple testing tool, the test position of each testing tool is positioned on track, and position transducer can arrange each test position place in orbit or arrange the place being about to arrive each test position.For convenience of the identification to each position sensor, distribute identification code can to each position transducer, with the position at its place corresponding.Sampling system 10 is according to user by applying for that the test application information that interface 33 is submitted to generates schedule information, and scheduling is positioned at the sample rack of SDM, by track transmission sample rack to test sample.Wherein, schedule information comprises the sequence of each sample rack to the order of each position sensor.

Sample introduction module 21 receives the signal being arranged on the position transducer in track and being triggered by sample rack, the position of judgement sample frame in track, generate positional information, positional information be converted to by message processing module 23 positional information that is suitable for showing and output to human-computer interaction interface.In another kind of embodiment, before the test position of each testing tool, be provided with multiple position transducer, the position of sample rack can be learnt so more accurately.

Measurement module 22 is according to the test case of testing tool to sample, as sample on sample rack has completed the testing time inhaling sample, generate the test mode information of sample, the test mode information of sample be converted to by message processing module 23 the test mode information that is suitable for showing and output to human-computer interaction interface.

Human-computer interaction interface 30 can according to the selection information of user's input, the positional information of sample rack that display is selected and/or the test mode information of selected sample, also can show the positional information of all sample racks and/or the test mode information of all samples acquiescently.Application interface 33 in human-computer interaction interface 30, result interface 34, sample rack display interface 31 and sample status display interface 32 can be done to show on same interface, also can be divided into independently interface to show, or adopt the mode of link to be associated at each interface; Specifically can adopt and well known to a person skilled in the art that technology realizes.

In another kind of embodiment, display message processing module 20 does not comprise measurement module 22; Be appreciated that now human-computer interaction interface 30 does not comprise the sample status display interface 32 for showing test sample state.In another embodiment, display message processing module 20 does not comprise sample introduction module 21; Be appreciated that now human-computer interaction interface 30 does not comprise the sample rack display interface 32 for showing sample rack position.

The embodiment of the present invention additionally provides a kind of body fluid work station for testing the sample on multiple sample rack, uses the sample rack supervising device in previous embodiment in this body fluid work station.

Based on the sample rack supervising device of above-described embodiment, embodiments provide corresponding sample rack method for supervising, as shown in Figure 2, comprising:

Step S21, the test application information according to sample on sample rack generates schedule information, according to transmitting scheduling information sample rack to test sample;

User, by application interface input test application information, mainly comprises the test needing sample to carry out which kind of project.Sampling system generates schedule information according to test application information, schedule information comprises the sequence of each sample rack to the order of each position sensor, then the sample rack dispatching SDM place, to sample introduction scanning mouth, prepares transmission sample rack to the testing tool of specifying to test sample.Sample introduction scanning mouth is provided with bar-code scanner, by bar-code scanner successively scanned samples frame, thus learns the numbering of each sample rack.

Step S22, obtains and processes the test mode information of sample on the positional information of sample rack in track and/or sample rack, the positional information after process and/or test mode information being exported;

Track ensures the test position that sample rack carries out testing is assumed to be A point, B point, C point etc., be respectively arranged with position transducer at each test position place or by the place arriving each test position.Where sample introduction module will be scheduled for according to the test application information sample rack analyzed in track and walk what kind of path, therefore, for the acquisition of sample rack positional information, can have the following two kinds mode:

Mode 1, sample introduction module, according to schedule information and the numbering of position transducer that triggers, obtains the position of the sample rack of each numbering on track.

Suppose the current test having 3 sample racks 1#, 2#, 3# to need to carry out a certain project, this project testing needs sample to be tested by three testing tools, the schedule information generated by application information is that these three sample racks test 2# last test 3# again by first testing 1#, and sampling system dispatches these three sample racks by the injection of sample introduction scanning mouth; In track, corresponding three testing tool A, B, C places are respectively provided with position transducer, and its numbering is respectively As, Bs, Cs; When sample rack 1# arrives A point, trigger the sensors A s at this some place, sample introduction module, according to the numbering of triggered position transducer and schedule information, learns that sample rack 1# is currently located at A point; When sample rack 21# arrives A place, trigger the sensors A s at this some place, sample introduction module according to schedule information and trigger position transducer numbering, can learn that sample rack 2# is currently located at A point, by that analogy, sample introduction module can obtain the position of the sample rack of each numbering on track, generates the positional information of sample rack.

Mode 2, sample introduction module from a position transducer to the schedule time of another position transducer, obtains the position of the sample rack of each numbering on track according to triggered position transducer numbering, schedule information and sample rack.

Suppose the current test having 3 sample racks 1#, 2#, 3# to need to carry out a certain project, this project testing needs sample to be tested by three testing tools, the schedule information generated by application information is that these three sample racks test 2# last test 3# again by first testing 1#, and sampling system dispatches these three sample racks by the injection of sample introduction scanning mouth; In track, corresponding three testing tool A, B, C places are respectively provided with position transducer, and its numbering is respectively As, Bs, Cs; Suppose that the schedule time arriving sensors A s from sample introduction scanning mouth is Ta, the schedule time arriving sensor Bs from sensors A s is Tb, and the schedule time arriving sensor Cs from sensor Bs is Tc.Each schedule time obtains by the test case of reality.When sample rack 1# arrives A point, trigger the sensors A s at this some place, sample introduction module is according to schedule time Ta and the numbering of sensor that triggers, can learn that sample rack 1# is currently located at the A point of track, when sample rack 1# arrives B point, trigger the sensor Bs at this some place, sample introduction module is according to schedule time Tb and the numbering of sensor that triggers, learn that sample rack 1# is positioned at B point, by that analogy, sample introduction module can obtain the position of the sample rack of each numbering on track, generates the positional information of sample rack.

A kind of deformation of mode 2 is: the schedule time can be that sample rack is from sample introduction scanning mouth to the time of each position transducer.For the content of mode 2, now, time Ta is the schedule time from sample introduction scanning mouth to sensors A s, time Tb is the schedule time from sample introduction scanning mouth to sensor Bs, time Tc is the schedule time from sample introduction scanning mouth to sensor Cs, and each schedule time obtains by the test case of reality.Be appreciated that sample introduction module can learn sample rack position in orbit according to the numbering of schedule information, the schedule time and the sensor triggered equally.

In another kind of embodiment, before the test position of each testing tool, can also multiple position transducer be set, be appreciated that and no matter adopts which kind of mode above-mentioned, the position of the sample rack of each numbering on track can be obtained, sample rack position in orbit can be learnt more accurately like this.

In addition, sample introduction module according to a certain sample rack each position in track, can also obtain the running orbit of this sample rack.

For the acquisition of the test mode information of sample on sample rack, by measurement module according to the test case of testing tool to sample, the test mode information of sample can be generated.In a kind of embodiment, the test mode of current sample can be judged by the action of suction sample and test application information monitoring suction needle, comprise record sample and whether completed test or carried out testing or do not carry out test and remain the test duration etc.Such as, learn that sample has completed the testing time inhaling sample by the suction sample action monitoring suction needle, in conjunction with test application information, then can judge the test mode that this sample is current.

For the positional information of generation and/or the test mode information of sample, the test mode information being suitable for positional information and/or the sample shown is converted to by message processing module, as be converted to the form with written form or image graphics, then output to human-computer interaction interface.In addition, if sample introduction module also generates the running orbit of sample rack, message processing module can also be converted into the running orbit being suitable for showing.

Step S23, is shown by human-computer interaction interface receiving position information and/or test mode information.

The method provided below in conjunction with Fig. 3-7 pairs of embodiment of the present invention is described in detail.

Embodiment one:

As shown in Figure 3, the present embodiment comprises as follows:

Step S31, sampling system is according to the test application information of user in the input of application interface, and scheduling sample rack is to the testing tool of specifying;

Step S32, sample introduction module, according to the signal of hardware sensor in track, upgrades and the positional information of record sample rack in track and/or running orbit, is converted to the positional information and/or running orbit that are suitable for showing and exports by message processing module;

Step S33, human-computer interaction interface receives the sample rack positional information that sends of message processing module and/or running orbit and shows.

In embodiment, the display of sample rack position can be adopted graphically, also can by text description etc.

Like this, in test process, user can obtain the position of sample rack in track, and is undertaken correspondingly operating targetedly by this feedback information, such as, when sample rack specifies instrument for moving to, supplements reagent etc. to appointment instrument.

Embodiment two:

As shown in Figure 4, the present embodiment comprises as follows:

Step S41, sampling system is according to the application information of user in the input of application interface, and scheduling sample rack is to the testing tool of specifying;

Step S42, application information according to user is tested the sample on sample rack in track, in test process, measurement module has completed the testing time inhaling sample according to sample on sample rack, generate the test mode information of sample, comprise record sample whether completed test or carried out testing or do not carry out to test and remain the test duration etc., be converted into the test mode information being suitable for showing by message processing module;

Step S43, human-computer interaction interface receives and shows test mode information.The display of test sample state can be adopted graphically, or passes through the test mode of the current sample of text importing, such as " XX sample is in test completion status " etc.

By the present embodiment, user can learn that the test case of sample on sample rack and sample are the need of resurveying intuitively, without the need to waiting until just carry out corresponding operating according to test result after test sample.

Embodiment three:

As shown in Figure 5, the present embodiment comprises as follows:

Step S51, sampling system is according to the application information of user in the input of application interface, and scheduling sample rack is to the testing tool of specifying, then go to step S52 and record sample rack position, meanwhile, sample rack is dispatched to after specifying instrument, goes to step S52 ' and test;

Step S52, sample introduction module, according to the signal of hardware sensor in track, upgrades and the positional information of record sample rack in track and/or running orbit;

Step S52 ', application information according to user is tested the sample on sample rack in track, in test process, measurement module has completed the testing time inhaling sample according to sample on sample rack, the test mode of record sample, comprises record sample and whether has completed test or carried out testing or do not carry out to test and remain the test duration etc.; Gathered by message processing module sample rack positional information and test sample state and classify, such as whether certain sample rack position is moved, and whether certain test sample state changes, and is converted into the test mode information being suitable for showing;

Step S53, human-computer interaction interface receives and shows sample rack positional information and test sample status information.

As is seen in fig. 6 or fig. 7, the test mode graphically showing sample rack position and sample is adopted in the present embodiment, M1 and M2 is the composition instrument module of biochemical streamline, 1# to 5# sample rack is the sample rack flowed in sampling system, pass through human-computer interaction interface, user can know that 1# sample completes test, moves and return SDM in track; 2# sample rack M2 instrument front end, tests; 3# sample rack completes the test at M1, moves to M2; 4# sample rack is just tested at M1; 5# sample rack is just awaited orders in SDM, waits for injection.Test sample state then represents by difformity, pentalpha represents that test sample is made mistakes and needs user to carry out intervention to resurvey, and hollow circle represents has tested, and square represents to be tested, triangle represents and does not complete test, and solid circles represents not yet tests.

In another kind of embodiment, test sample state can represent with different colours.Text description is adopted to report sample rack positional information and test sample status information, as " 2# sample rack is at M2 front-end track in another embodiment; 1# sample rack 3# sample completes test " etc.

Embodiment four:

The present embodiment increases interactive step on basis embodiment illustrated in fig. 5, namely, user by input equipment as the human-computer interaction device such as mouse or touch-screen selects, selection information comprises selects the sample rack of specifying and/or the sample of specifying, a certain appointment sample is chosen in this example, human-computer interaction interface shows the concrete detecting information of this sample, and such as, sample has completed some test, has not yet completed some test or display residue test duration.As shown in Figure 7, the schematic diagram shown after the 3# sample for the sample rack of 2# shown in Fig. 6 that user chooses, shows 3# sample and has completed which project testing, do not complete which project testing, and show this sample residual test duration.In addition, as clicked 2# sample rack 1# sample, except which project testing display has completed, not completed which project testing, and having shown outside this sample residual test duration, also can show on interface " break down test event H project J ".

Be appreciated that the sample rack supervising device that proposes in the embodiment of the present invention and method can carry out real-time monitoring.User by human-computer interaction interface, can monitor the position of multiple sample rack in track real-time or non real-time, and the test case of sample on sample rack.Scheme provided by the present invention, is applicable to body fluid work station, as biochemical the flow work station, user can be made to know sample rack position and test sample state better.

Above content is in conjunction with the detailed description made for the present invention of concrete embodiment, can not assert that specific embodiment of the invention is confined to these explanations.For those skilled in the art, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to the scope of patent protection that the present invention is determined by submitted to claims.

Claims (12)

1. the sample rack method for supervising of a body fluid work station, described body fluid work station comprises multiple testing tool and sampling system, described sampling system comprises sample delivery module and track, the test position of each testing tool is positioned on track, it is characterized in that, described sampling system also comprises multiple position transducer, and position transducer is separately positioned on each test position place on track or is about to arrive the place of each test position, and described method comprises:

Test application information according to sample on sample rack generates schedule information, and according to schedule information schedules sample rack to test sample, described schedule information comprises the sequence of each sample rack to the order of each position sensor;

Receive the signal being arranged on the position transducer in track and being triggered by sample rack, the position of judgement sample frame in track, generate positional information;

This positional information is converted to the positional information being suitable for showing, the positional information after process is exported;

By the sample rack positional information after human-computer interaction interface Graphics Processing.

2. the method for claim 1, is characterized in that, also comprises: the selection information that described human-computer interaction interface inputs according to user shows; Described selection information comprises the sample of selecting to specify sample rack and/or specify.

3. method as claimed in claim 2, it is characterized in that, the described position of judgement sample frame in track comprises: according to numbering and the schedule information of triggered position transducer, obtains the positional information of the sample rack of each numbering on track.

4. method as claimed in claim 2, it is characterized in that, the described position of judgement sample frame in track comprises: according to the numbering of triggered position transducer, schedule information and sample rack from a position transducer to the schedule time of another position transducer, obtains the positional information of the sample rack of each numbering on track.

5. the method according to any one of claim 1-4, is characterized in that, also comprises: according to the position of sample rack in track, obtain the running orbit of sample rack, the running orbit of described human-computer interaction interface display sample rack.

6. the method for claim 1, characterized by further comprising: the test application information having completed sample on the testing time and this sample rack inhaling sample according to sample on sample rack generates the test mode information of sample, this test mode information is converted to the test mode information being suitable for showing.

7. the sample rack supervising device of a body fluid work station, described body fluid work station comprises multiple testing tool and sampling system, described sampling system comprises sample delivery module and track, the test position of each testing tool is positioned on track, it is characterized in that, described sampling system also comprises multiple position transducer, and position transducer is separately positioned on each test position place on track or is about to arrive the place of each test position, and described sample rack supervising device comprises:

Generate schedule information for the test application information according to sample on sample rack, according to schedule information schedules sample rack so that the module of testing sample, described schedule information comprises the sequence of each sample rack to the order of each position sensor;

Display message processing module, comprises sample introduction module and message processing module, the signal that sample introduction module is triggered by sample rack for receiving the position transducer be arranged in track, the position of judgement sample frame in track, generates positional information; Positional information after process, for obtaining and processing the positional information of sample rack in track, exports by message processing module;

Human-computer interaction interface, for the sample rack positional information after Graphics Processing.

8. device as claimed in claim 7, is characterized in that, also comprise: the selection information of described human-computer interaction interface also for inputting according to user shows; Described selection information comprises the sample of selecting to specify sample rack and/or specify.

9. as claimed in claim 7 or 8 device, is characterized in that, described message processing module is used for the positional information of described sample introduction module to be converted to the positional information that is suitable for showing and exports.

10. the device according to claim 7 or 8, is characterized in that, described sample introduction module also for according to the position of sample rack in track, obtains the running orbit of sample rack; Described message processing module also for described running orbit is converted to be suitable for show running orbit and export.

11. devices as claimed in claim 7 or 8, it is characterized in that, described display message processing module also comprises: measurement module, and the test application information for having completed sample on the testing time and this sample rack inhaling sample according to sample on sample rack generates the test mode information of sample; Message processing module also for described test mode information is converted to be suitable for show test mode information and export.

12. 1 kinds of body fluid work station, for testing the sample on multiple sample rack, it is characterized in that comprising: sampling system, described sampling system comprises sample delivery module, track and multiple position transducer, and position transducer is separately positioned on each test position place on track or is about to arrive the place of each test position;

Multiple testing tool, the test position of each testing tool is positioned on track;

Sample rack supervising device as described in any one of claim 7-11.