CN205920121U - Electrolyte analyzer - Google Patents

Abstract

The utility model provides an electrolyte analyzer belongs to the medical instrument field. The utility model discloses electrolyte analyzer includes host computer, sampling mechanism, sampling mechanism includes the base, and the setting is in automatic sampling device on the base, autoinjection device, wherein, automatic sampling device includes sampling stand, sampling needle, drive what appearance was inhaled to a perpendicular drive arrangement, the drive sampling needle with the level motion of sampling stand inhales a kind pump, washing spigot joint, distribution valve, the autoinjection device includes autoinjection dish, autoinjection dish control panel, drive the 2nd drive arrangement, test tube recognition device that autoinjection spiraled and changes, the periphery of autoinjection dish is equipped with a plurality of test tube clamps of placing the test tube. The utility model discloses an automatic sampling, whole process have improved rate of equipment utilization, through discernment of automatic test tube and bar code scan, have shortened information acquisition time and cost of labor greatly.

Description

A kind of electrolyte analyser

Technical field

This utility model is related to medical instruments field, more particularly, to a kind of electrolyte analyser.

Background technology

For at present, traditional electrolyte matter analyser uses manual sampling process, even if there being automatic sampling process, but It is all only to carry out inhaling sample, and test tube or measuring cup can not be identified, even if having scanning barcode function it is also desirable to manually rotation tries Pipe is carrying out bar code scan.

And when emergency treatment, existing electrolyte analyser cannot automatic identification and priority treatment emergency treatment sample Analysis detection, some support the electrolyte analyser of this operation when doing emergency treatment, and general employing is all a fixing emergency diagnosis position Do an emergency treatment, if also second emergency treatment sample, need to wait for next sample test complete after, just can carry out next emergency treatment, Continuously multiple emergency treatments can not test, emergency treatment can not be done during emergency treatment.

No matter electrolyte analyser uses automatic or manual sampling, nearly all do not continue plus work(in test process Can, during test present lot sample, the sample of later collection carries out test sample after the completion of all needing to wait for present lot sample test again Operation.In the new sample of increase in need, also cannot realize at any time with inspection.

Meanwhile, in test process, sampling probe position is typically fixing, rather than swing type sampling probe, even swing type takes Sample pin, that auto injection disk is also non-exchange, and so fixing one just can ensure that during sampling, position is certain, very ineffective Live.

Utility model content

For solving the problems of the prior art, this utility model provides a kind of electrolyte analyser.

This utility model electrolyte analyser includes main frame, sampling mechanism, and described sampling mechanism includes base, is arranged on institute State automatic sampling apparatus on base, automatic sampling apparatus, wherein, described automatic sampling apparatus include sampling stand, sampling needle, drive Move described sampling stand first driving means vertically as well as horizontally, to drive sampling needle to inhale the sample suction pump of sample, cleaning spigot joint, described Sampling needle is fixed on described sampling stand, the spigot joint lower section being arranged on described sampling stand of described cleaning, and described sampling needle can be by Liquid sample injection cleaning is spigot joint；Described automatic sampling apparatus are included described in auto injection disk, auto injection disk panel, driving Second driving means of auto injection disc spins, test tube identifying device, the periphery of described auto injection disk is provided with multiple placement and tries The test tube clamp of pipe, described auto injection disk panel is filled with described test tube identifying device, first driving means, the second driving respectively Put connected；The mainboard of described main frame is connected with auto injection disk panel and sample suction pump respectively.

This utility model is further improved, and also includes wiper mechanism, described wiper mechanism include main pipeline, distributing valve, Flow cell, waste collecting device, described main pipeline one end is connected with sampling pump, and the described main pipeline other end connects distributing valve, point Join valve and be connected with cleanout fluid, described waste collecting device is connected with the flow cell in main frame, and described sampling pump can extract cleaning Liquid cleans sampling needle, and the waste liquid after cleaning passes through to clean spigot joint, flow cell inflow waste collecting device.Self-cleaning function, need not Manual operation, improve production efficiency, reduces cost.

This utility model is further improved, and described electrolyte analyser also includes bar code scanner, and described bar code is swept Imaging apparatus are connected with the mainboard of main frame 1 by auto injection disk panel, and described base is additionally provided with drive that test tube rotates the Three driving means, described 3rd driving means drive test tube to rotate makes bar code be directed at bar code scanner, completes bar code scan.From Master completes information scanning and collection, substantially reduces the information gathering time, improves efficiency.

This utility model is further improved, and described 3rd driving means are test tube rotary electric machine.

This utility model is further improved, and described automatic sampling apparatus also include cup position optocoupler, and described cup position optocoupler is solid It is scheduled on described base.

This utility model is further improved, and described automatic sampling apparatus also include zero-bit optocoupler, and described zero-bit optocoupler is solid It is scheduled on described base, described auto injection disk is provided with optocoupler catch, described zero-bit optocoupler is able to detect that described optocoupler gear Piece, the corresponding cup position of described optocoupler catch is the zero-bit of auto injection disk.

This utility model is further improved, and described sampling needle is provided with liquid level sensor, described liquid level sensor It is connected with the mainboard of main frame by auto injection disk panel.

This utility model is further improved, and the mainboard of described main frame is additionally provided with for calibrating sampling needle at test tube center Sampling location sampling needle calibration module.

This utility model is further improved, and described first driving means include driving hanging down of described sampling stand vertical movement Straight motor and the oscillating motor driving described sampling stand horizontal hunting.

Compared with prior art, the beneficial effects of the utility model are: automatically control the identification carrying out specimen cup position, test tube Bar code scan, samples automatically, and whole process improves utilization rate of equipment and installations, is identified and bar code scan by the test tube of automatization, greatly Shorten greatly information gathering time and cost of labor, for carrying out large sample amount electrolyte analysis, reduce artificial collection Risk during information, improves automation collection information and automatization carries out the efficiency of test sample, and meanwhile, device is simple, with respect to Artificial collection information and manual test, this instrument utilization rate greatly improves, and is greatly reduced with respect to cost of labor, and is easy to Manufacture and quality control.

Brief description

Fig. 1 is this utility model structural representation；

Fig. 2 is this utility model sampling mechanism structural representation；

Fig. 3 is the half-sectional view of this utility model sampling mechanism；

Fig. 4 is this utility model automatic method of sampling flow chart；

Fig. 5 is continuous adding method flow chart in the automatic sampling process of this utility model；

Fig. 6 is emergency treatment method flow diagram in the automatic sampling process of this utility model.

Specific embodiment

With reference to the accompanying drawings and examples this utility model is described in further details.

As shown in Figure 1-Figure 3, electrolyte analyser of the present utility model includes main frame 1, sampling mechanism 2, described Sampling Machine Structure includes base 201, is arranged on automatic sampling apparatus on described base 201, automatic sampling apparatus, wherein, described automatically adopts Sampling device includes sampling stand 202, sampling needle 204, drives described sampling stand 202 first driving means vertically as well as horizontally, The first driving means of this example include driving the motor vertical 203 of described sampling stand 202 vertical movement and drive described sampling stand The oscillating motor 213 of 202 horizontal huntings, described automatic sampling apparatus also include the sample suction pump driving sampling needle 204 to inhale sample and clear Wash place, at described cleaning, be provided with the receiving mouth accommodating and protecting sampling needle 204 under off working state and cleaning spigot joint 205, described Sampling needle 204 is fixed on described sampling stand 202, and described cleaning spigot joint 205 is arranged on the lower section of described sampling stand 202, described Sampling needle 204 can be by liquid sample injection cleaning spigot joint 205.

Described automatic sampling apparatus include auto injection disk 206, auto injection disk panel, drive described auto injection disk Second driving means of 206 rotations, test tube identifying device 211, the periphery of described auto injection disk 206 is provided with multiple holding test tubes Test tube clamp 207；Described auto injection disk panel respectively with described test tube identifying device 211, first driving means, second drive Dynamic device is connected；The mainboard of described main frame 1 is connected with auto injection disk panel and sample suction pump respectively.The second driving dress of this example It is set to the auto injection coil motor 208 being connected with described auto injection disk 206 by travelling gear.

The electrolyte analyser of this example also includes wiper mechanism, and described wiper mechanism includes main pipeline 3, distributing valve, circulation Pond, waste collecting device, described main pipeline 3 one end is connected with sampling pump, and described main pipeline 3 other end connects distributing valve, distribution Valve is connected with cleanout fluid, and described waste collecting device is connected with the flow cell in main frame, and described sampling pump can extract cleanout fluid Cleaning sampling needle 204, the waste liquid after cleaning passes through to clean spigot joint 205, flow cell inflow waste collecting device.

This utility model only need to be manually placed into cuvette sample, then passes through host computer control first driving means, the second driving The motion of device and sample suction pump and order, execution time, complete clear after automatic sampling, analysis test and the sampling of sampling needle 204 Wash stream operation.Need not manually operate, greatly save cost of labor, improve work efficiency.

In order to improve work efficiency of the present utility model further, being capable of automatic data collection test tube information preserving, this practicality New also include bar code scanner 212, described bar code scanner 212 passes through the master of auto injection disk panel and main frame 1 Plate is connected, and described base 201 is additionally provided with the 3rd driving means 214 driving test tube to rotate, and described 3rd driving means 214 are driven Dynamic test tube rotates makes bar code be directed at bar code scanner, completes bar code scan and is uploaded to main frame 1.3rd driving means of this example 214 is test tube rotary electric machine.

Described automatic sampling apparatus also include zero-bit optocoupler 215 and cup position optocoupler 216, described zero-bit optocoupler 215 and cup position Optocoupler 216 is fixed on described base 201, and described auto injection disk 206 is provided with optocoupler catch, described zero-bit optocoupler 215 energy Described optocoupler catch is enough detected, the corresponding cup position of described optocoupler catch is the zero-bit 209 of auto injection disk 206, and zero-bit corresponds to Test tube clamp be auto injection disk 206 zero-bit test tube clamp.This example passes through zero-bit optocoupler 215 and cup position optocoupler 216 realizes detection The positioning of the test tube arriving and tally function.

This utility model can automatically control, by main frame, the identification carrying out specimen cup position, and test tube bar code scans, and automatically samples, whole Individual process improves the utilization rate of this utility model electrolyte analyser, is identified and bar code scan by the test tube of automatization, greatly Shorten greatly information gathering time and cost of labor, for carrying out large sample amount electrolyte analysis, reduce artificial collection Risk during information, improves automation collection information and automatization carries out the efficiency of test sample, and meanwhile, device is simple, with respect to Artificial collection information and manual test, this instrument utilization rate greatly improves, and is greatly reduced with respect to cost of labor, and is easy to Manufacture and quality control.

In order that sampling operation is more accurately and easily controllable, described sampling needle 204 is provided with liquid level sensor, described Liquid level sensor is connected with the mainboard of main frame 1 by auto injection disk panel, additionally, be additionally provided with described main frame 1 for The sampling needle calibration module of calibration sampling location in test tube for the sampling needle 204, according to operator's replaceable auto injection disk Just it is sampled the adjustment of pin position it is ensured that changing sample injection disc post-sampling pin Neng Beiwei center, it is to avoid sampling during sampling after 206 The phenomenon of pin 204 not para-position.

As an embodiment of the present utility model, the auto injection disk 206 of this example arranges 40 cup positions, on each glass of position It is provided with 1 test tube clamp such that it is able to support the unified detection of 40 cuvette sample.Wherein, the corresponding test tube clamp of zero-bit optocoupler 215 For the zero-bit test tube clamp of auto injection disk 206, its corresponding for zero-bit cup position 209, then along counterclockwise to each examination Pipe clamp corresponding cup position number consecutively.This utility model back to zero position refers to that described zero-bit cup position 209 is located at test tube identifying device 211 Place, when this utility model is for off working state, described zero-bit cup position 209 is arranged near test tube scanning means 211, described adopts The test tube of sample rack 202 sample to be collected is located at the position of No. 36 cup position 210.

The automatic method of sampling of the present utility model, comprises the steps:

Test tube detecting step: test starts, and auto injection disk 206 is rotated by the second driving means, test tube is known Whether there is test tube on other device 211 detection automatic sampling plate 206, if it is, execution next step, if not, continuing executing with this step Rapid or exit；

Sampling step: test tube identifying device 206 gives main frame 1 sending signal, after main frame 1 receipt signal, sends a signal to the Two driving means make auto injection disk 206 stop operating, and subsequent signal is to first driving means, and then drives sampling stand 202 to put Move and complete to sample；

Analysis stock layout step: main frame 1 to sample collecting data and is analyzed, after having gathered data, sending signal inhales sample Pump, the sample in sampling needle is discharged.

Preferably, described automatic sampling also includes cleaning step: include test and start, the cleaning stream before sampling step execution Road step a1: sample suction pump rotates, extracts cleanout fluid cleaning stream；

Sample cleans stream step a2 after discharging: sample suction pump extracts cleanout fluid cleaning sampling needle inside and outside wall, and by cleaning Spigot joint inflow waste collecting device.Wherein, stream refers to the sampling needle of this example, the sample of cleaning spigot joint, flow cell composition and clear Washing liquid circulation passage.

As shown in figure 4, the most preferred embodiment automatically sampled as this utility model, automatic sampling of the present utility model Step specifically includes following steps: sample to be tested is put into auto injection disk by operator, and test starts, and executes examination simultaneously Cleaning stream step a1 before pipe detecting step and sampling step execution: sample suction pump rotates, extracts cleanout fluid cleaning stream.

Wherein test tube detecting step specifically includes step:

B11: auto injection disk rotates back to zero-bit；

B12: auto injection disk rotates again, cup position optocoupler and test tube identifying device are started working, and detect each glass of position Inside whether there is test tube, if it is, recording test tube corresponding cup digit；

B13: auto injection disk returns to zero-bit after rotating a circle；

B14: auto injection packing walks fixing step number at test tube scanning means according to the test tube corresponding cup digit recognizing, Carry out test tube scanning, until completing the scanning of all test tubes.

After execution of step a1 and test tube detecting step, execution step c11.

After c11: sampling stand vertical ascent certain altitude under first driving means drive, the more certain step number of horizontal hunting arrives Inhale above sample position, then decline, to main frame response, sample suction pump starts to rotate, and carries out inhaling sample by sampling needle；If sampling needle 204 when being provided with liquid level sensor, when liquid level sensor detects liquid, sends a signal to main frame, sampling stand stops Decline, then sample suction pump starts to rotate, carry out inhaling sample by sampling needle；

After the absorption of c12: sampling needle is a certain amount of, after sampling stand rises certain altitude, then horizontal hunting revert in situ, then Sampling stand declines certain step number to the spigot joint place of cleaning；

C13: sample suction pump sucks the sample into flow cell, and main frame is to sample collecting data, and is analyzed；

C14: after having gathered data, send a signal to sample suction pump, the sample in flow cell is discharged to waste collecting device, Then execution sample cleans stream step a2 after discharging；

A2: sample suction pump extracts cleanout fluid cleaning sampling needle inside and outside wall, then execution step c15；

C15: judge whether that also next cuvette sample is to be measured, if it is, auto injection disk rotates certain step number, then Return execution step c11, if not, terminating.

Clean stream step a2, thoroughly cleaning stream and sampling it is also possible to execute again after a sample is discharged before the end Pin, to keep equipment of the present utility model to be in clean state.

Automatically control auto injection disk, sampling stand automatically to be sampled and information gathering, improve automaticity, save Cost of labor, for large sample amount, improves efficiency, saves the time, and saved cost.For large sample amount For carrying out the test sample of electrolyte analyser, this full-automation automatic sampling process of electrolyte analyser, there is preferable city Prospect, should be widely promoted, especially for quickly carrying out electrolyte ion concentration analysis and corresponding patient in patient's blood sample Information gathering provides good method, and with low cost, can applied range, be worth recommend.

Wherein, in step c11, sampling stand drives sampling needle to drop to sampling in test tube, if sampling needle is not in During test tube centre position, also include sample stylus alignment sub-step: input calibration parameter, the sampling needle calibration module in main frame according to Calibration parameter sends a signal to first driving means, and then drives described sampling stand fine setting.Operate when changing auto injection disk, Only sampling probe position need to be adjusted can proceed by test sample, improve patient assessment's efficiency, saved the testing time, and save About cost.

As shown in figure 5, in automatic sampling process, when needs continue and add test sample, before execution step c15, increasing Plus judgement step: judge whether to continuous plus, if it is, auto injection disk and sampling stand stop motion, by continuous plus containing sample Auto injection disk put into by test tube, then execution step c15, after step c15 is finished, automatically carries out the survey of the continuous sample adding Examination, returns again from the beginning of test, executes cleaning stream step a1 before test tube detecting step and sampling step execution simultaneously and opens Begin to execute.

Automatically controlling the follow-up test newly being collected sample, variable interval can putting into the sample of new collection it is ensured that working as The continuity of front test sample, also solves well after waiting present lot sample test complete, is added sample by operator Carry out the matter of time of test sample again, take full advantage of the auto injection disk of 40 cup positions, whole process improves the utilization of equipment Rate.

As shown in fig. 6, after test starts, when there being sample to be emergency treatment, when being badly in need of test, before execution step c15, increasing Plus judgement step: determine whether emergency treatment, if it is, auto injection disk and sampling stand stop motion, by the examination containing emergency treatment sample Auto injection disk put into by pipe, and then auto injection disk starts to rotate, and will contain emergency treatment sample and deliver to stop motion after sample bits, starts Execution is directed to sampling step and the analysis stock layout step of this emergency treatment sample, if not, execution step c15.

When having tested this emergency treatment sample, if subsequently also having emergency treatment sample to be tested, proceed next emergency treatment sample Test, until all of emergency treatment sample test completes, just start to continue to carry out non-emergency treatment sample according to the original order setting Test.

This utility model can once do multiple emergency treatments, also can carry out emergency treatment in emergency treatment, continuously variable interval can carry out emergency treatment The test of sample it is ensured that the continuity of system test sample, also solve well wait present lot sample test complete after, by grasping Carry out the matter of time of emergency treatment sample test sample as personnel, improve the utilization rate of equipment, improve patient assessment's efficiency.

The specific embodiment of the above is better embodiment of the present utility model, not limits this practicality with this new Type be embodied as scope, scope of the present utility model includes being not limited to this specific embodiment, all according to this utility model The equivalence changes made are all in protection domain of the present utility model.

Claims (9)

1. a kind of electrolyte analyser it is characterised in that: include main frame, sampling mechanism, described sampling mechanism includes base, setting Automatic sampling apparatus on described base, automatic sampling apparatus, wherein, described automatic sampling apparatus include sampling stand, sampling Pin, drive described sampling stand first driving means vertically as well as horizontally, drive that sampling needle inhales the sample suction pump of sample, cleaning connects Mouth, described sampling needle is fixed on described sampling stand, the spigot joint lower section being arranged on described sampling stand of described cleaning, described sampling needle Can will liquid sample injection cleaning spigot joint；Described automatic sampling apparatus include auto injection disk, auto injection disk panel, drive Move the second driving means of described auto injection disc spins, test tube identifying device, the periphery of described auto injection disk is provided with multiple The test tube clamp of holding test tubes, described auto injection disk panel respectively with described test tube identifying device, first driving means, second Driving means are connected；The mainboard of described main frame is connected with auto injection disk panel and sample suction pump respectively.

2. electrolyte analyser according to claim 1 it is characterised in that: also include wiper mechanism, described wiper mechanism Including main pipeline, distributing valve, flow cell, waste collecting device, described main pipeline one end is connected with sampling pump, and described main pipeline is another One end connects distributing valve, and distributing valve is connected with cleanout fluid, and described waste collecting device is connected with the flow cell in main frame, described adopts Sample pump can extract cleanout fluid cleaning sampling needle, and the waste liquid after cleaning passes through to clean spigot joint, flow cell inflow waste collecting device.

3. electrolyte analyser according to claim 1 and 2 it is characterised in that: described electrolyte analyser also includes bar Code scanning means, described bar code scanner is connected with the mainboard of main frame by auto injection disk panel, on described base also It is provided with the 3rd driving means driving test tube to rotate, described 3rd driving means drive test tube to rotate makes bar code be directed at bar code scan Device, completes bar code scan.

4. electrolyte analyser according to claim 3 it is characterised in that: described 3rd driving means be test tube rotate electricity Machine.

5. electrolyte analyser according to claim 3 it is characterised in that: described automatic sampling apparatus also include cup position light Coupling, described cup position optocoupler is fixed on described base.

6. electrolyte analyser according to claim 5 it is characterised in that: described automatic sampling apparatus also include zero-bit light Coupling, described zero-bit optocoupler is fixed on described base, and described auto injection disk is provided with optocoupler catch, and described zero-bit optocoupler can Described optocoupler catch is detected, the corresponding cup position of described optocoupler catch is the zero-bit of auto injection disk.

7. electrolyte analyser according to claim 1 and 2 it is characterised in that: described sampling needle is provided with level detection Device, described liquid level sensor is connected with the mainboard of main frame by auto injection disk panel.

8. electrolyte analyser according to claim 1 and 2 it is characterised in that: be additionally provided with use on the mainboard of described main frame Sampling needle calibration module in the calibration sampling location at test tube center for the sampling needle.

9. electrolyte analyser according to claim 1 and 2 it is characterised in that: described first driving means include drive The motor vertical of described sampling stand vertical movement and the oscillating motor driving described sampling stand horizontal hunting.