CN205656200U - High -speed C reaction protein analyzer - Google Patents

Abstract

The utility model discloses a high -speed C reaction protein analyzer, including frame and casing, its characterized in that: the frame bottom is equipped with the motor of measuring carousel and drive measurement carousel, be equipped with a plurality of measuring unit on the measurement carousel outer lane, measuring unit includes the preliminary treatment module and measures the module, lie in in the frame it is equipped with two -dimentional arm of automation and the manual two -dimentional arm that reagent adds the position, takes the sampling needle to measure the carousel periphery, the automatic two -dimentional arm outside is equipped with autosampler, the manual two -dimentional arm outside is equipped with manual sampling device, still be equipped with control card in the frame, be equipped with touch -control display screen and output unit on the casing, the utility model discloses beneficial effect is: a plurality of independent measuring unit, automatic two -dimentional arm, reagent add the automatic structure of adding reagent in position, can carry out high -speed detection to a plurality of samples simultaneously, have greatly improved detection speed, automatically and manual, advance the original mold formula and can freely switch, in addition independent measuring unit's structure is convenient for the complete machine and is maintained.

Description

A kind of high speed C Reactive protein analyser

Technical field

This utility model relates to a kind of medical apparatus and instruments, particularly to a kind of high speed c reactive protein analyser and method thereof.

Background technology

Specific protein analyser is as one of important instrument commonly used in Clinical Laboratory at present, it is commonly used for each big-and-middle-sized hospital, diagnosis, treatment and prognosis and the health status requisite information foundation of offer clinically to disease is provided, becomes the instrument that big-and-middle-sized hospital is indispensable.C reactive protein in specific protein is the important indicator that discriminating bacteria infects and virus infects, and in China due to the abuse of antibiotic, causes the especially urgent needs of analyser detecting c reactive protein.The existing instrument that can detect c reactive protein can be roughly divided into three classes according to the difference of sample requirement kind: the first kind is to process the BN-II of the instrument of serum sample, such as Siemens, the IMMAGE800 etc. of Beckman Kurt.This type of instrument volume is generally large, can accomplish processing speed quickly, but sample needs pretreatment, it is impossible to directly use whole blood sample.Equations of The Second Kind is the Hematometer that addition of detection CRP function, such as, step the ABX Micros CRP etc. of auspicious BC-5390, ABX.This quasi-instrument general speed is relatively low, and can only process whole blood sample.3rd class is the analyser of some special detection c reactive proteins, the such as Astep etc. of state's match, this type of instrument volume is typically small, though serum can be processed can process again whole blood sample, but typically detection speed is relatively low, inefficiency, and in sample introduction function or only support hand sampling or only support auto injection, it is impossible to support automatically and manually sample introduction simultaneously.Another existing similar apparatus structure is complicated, and inside occurs will appear from chain reaction during partial fault, causes complete machine not use, and is not easy to overall maintenance.

Both having needed to improve detection speed and detection efficiency at some large hospitals, and needed to take auto injection pattern to process substantial amounts of common sample, need again manual mode can detect urgent sample at any time, above-mentioned three quasi-instruments all can not fully meet user's request.

Summary of the invention

The purpose of this utility model is to provide a kind of high speed c reactive protein analyser that can simultaneously process serum and whole blood sample for overcoming the deficiency of above-mentioned technology, this analyser has is located at the multiple independent measuring unit measured on rotating disk, multiple samples can be detected simultaneously, and auto injection and hand sampling can be supported simultaneously, and can freely switch in High-Speed Automatic sample introduction pattern and high speed manual mode, greatly improve detection speed and detection efficiency；The most independent measuring unit can integral replacing when breaking down, it is simple to overall safeguard.

The technical solution of the utility model is realized in, this high speed c reactive protein analyser, including frame and casing, it is characterized in that bottom described frame to be provided with and measures rotating disk and drive the motor measuring rotating disk, described measurement rotating disk outer ring is provided with some measuring units, described measuring unit includes pretreatment module and measures module, it is positioned at described measurement disk peripheral in described frame and is provided with reagent interpolation position, two dimension arm automatically with sampling needle and the most two-dimentional arm, it is provided with automatic sampler outside described automatic two dimension arm, it is provided with hand sampling device outside described manual two dimension arm, it is additionally provided with Control card in described frame, described casing is provided with touching display screen and output unit.

Preferably, described pretreatment module includes pretreatment pedestal, described pretreatment pedestal bottom is provided with pretreatment stirring motor, on described pretreatment stirring motor, pretreatment permanent magnet is installed, be positioned at described pretreatment stirring motor and pretreatment permanent magnet on described pretreatment pedestal is arranged over transparent pretreatment cup, reagent stirring particle it is placed with inside described pretreatment cup, it is positioned at pretreatment cup front and back position on described pretreatment pedestal and is respectively equipped with pretreatment light source and pre-processing sensor, described pretreatment permanent magnet can drive described reagent stirring particle to rotate under described pretreatment stirring motor drives.

Preferably, described measurement module includes measuring pedestal, described measurement pedestal bottom is provided with measurement stirring motor, on described measurement stirring motor, measurement permanent magnet is installed, described measurement pedestal is positioned at described measurement stirring motor and measure permanent magnet be arranged over heat block, and heat block be arranged over transparent measuring cup, reagent stirring particle it is placed with inside described measuring cup, it is positioned at measuring cup front and back position on described measurement pedestal be respectively equipped with measurement light source and measure sensor, described measurement permanent magnet can drive described reagent stirring particle to rotate under described measurement stirring motor drives.

Preferably, described automatic two dimension arm include X-axis transmission arm, can left and right moves freely on X-axis transmission arm Z-axis transmission arm, the automatic sampling needle that freely up and down can move on Z-axis transmission arm, the swab that is fixed on Z-axis transmission arm bottom.

Preferably, described manual two dimension arm include X-axis transmission arm, can left and right moves freely on X-axis transmission arm Z-axis transmission arm, the manual sampling needle that freely up and down can move on Z-axis transmission arm, the swab that is fixed on Z-axis transmission arm bottom.

Preferably, described automatic sampler includes that the tube carrier arranged successively loads rest area, tube carrier sample introduction zone, tube carrier load storage area, described tube carrier is provided with tube carrier loader mechanism in loading rest area, described tube carrier sample introduction zone is provided with tube carrier sample introduction mechanism, and described tube carrier carries storage area and is provided with tube carrier mounted mechanism.

Preferably, it is positioned at automatic sampler side in described frame and is provided with mixing assembly, described mixing assembly includes test tube jaw, described test tube clamp pawl is connected with jaw uniform shaking mechanism, described jaw uniform shaking mechanism is connected with jaw translation mechanism, and described jaw translation mechanism is connected with jaw elevating mechanism.

Preferably, described frame being additionally provided with fluid path assembly, described fluid path assembly includes that support, described support are provided with hydraulic valve, hydraulic pump, negative pressure pump, and described support entirety uses hinge to be attached with described frame.

Preferably, the refrigeration module for freezing it is additionally provided with to reagent in described frame, described refrigeration module includes cool guiding block, semiconductor chilling plate and fin, the bottom surface of described cool guiding block fits tightly in the chill surface of described semiconductor chilling plate, the radiating surface of described semiconductor chilling plate fits tightly and is additionally provided with fan outside described fin, described fin.

The beneficial effects of the utility model are as follows: this utility model high speed C protein analyser has can the freely rotatable measurement rotating disk of high speed, measure rotating disk and be provided with multiple independent measuring unit, so multiple samples can be carried out high speed detection simultaneously, this utility model high speed C protein analyser also has two dimension arm and manually two dimension arm automatically, High-Speed Automatic sample introduction and high speed hand sampling can be supported simultaneously, and auto injection pattern and manual mode freely can be switched, this utility model high speed C protein analyser also has reagent and adds position in order to automatically to add various reagent to sample；Above-mentioned design greatly improves detection speed and detection efficiency, to freely switching of auto injection pattern and manual mode, can process substantial amounts of common sample, can the most manually detect again urgent sample.The design of another independent measuring unit, when any measuring unit breaks down, does not haves chain reaction, individually replaces, it is simple to complete machine is safeguarded.

Accompanying drawing explanation

Fig. 1 is the complete machine external view of this utility model embodiment；

Fig. 2 is the complete machine layout of this utility model embodiment；

Fig. 3 is the complete machine internal structure view one of this utility model embodiment；

Fig. 4 is the complete machine internal structure view two of this utility model embodiment；

Fig. 5 is measurement rotating disk and the measuring unit structure chart one of this utility model embodiment；

Fig. 6 is measurement rotating disk and the measuring unit structure chart two of this utility model embodiment；

Fig. 7 is the pretreatment modular structure sectional view of this utility model embodiment；

Fig. 8 is the detection modular structure sectional view of this utility model embodiment；

Fig. 9 is manually two dimension arm 40 structure chart of this utility model embodiment；

Figure 10 is two dimension arm 60 structure chart automatically of this utility model embodiment；

Figure 11 is the structure chart of the refrigeration module 80 of this utility model embodiment；

Figure 12 is the structure chart of the automatic sampler 70 of this utility model embodiment；

Figure 13 is the structure chart of the mixing assembly 90 of this utility model embodiment；

Figure 14 is the structure chart of the fluid path assembly 50 of this utility model embodiment；

Figure 15 is the analysis method flow diagram of this utility model embodiment high speed c reactive protein analyser.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, this utility model is further elaborated.

As shown in Figure 1, the high speed c reactive protein analyser of this utility model embodiment, including the frame (this is not shown) in casing 1 and casing 1, casing 1 is provided with touching display screen 111 and output unit 113(the present embodiment is printer, in other embodiments, this output unit can also be data output interface or printer interface), below casing front end, it is provided with automatic sampler 70, lower right, casing 1 front end is provided with hand sampling device 3 and manual key plate 112, and manual key plate 112 is for the manipulation of manual measurement.

As in figure 2 it is shown, be the plane figure schematic diagram of the casing internal component of this utility model embodiment high speed c reactive protein analyser.

As shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, the high speed c reactive protein analyser of this utility model embodiment, it is provided with in the bottom of frame 4 and measures rotating disk 30 and drive the motor 31 measuring rotating disk 30, measuring rotating disk 30 can be with arbitrarily angled rotational positioning forward or backwards with optocoupler control by motor 31, the outer ring (i.e. near the circumferential plane of outer) measuring rotating disk 30 is provided with some independent measuring units, and measuring unit has been mainly used to sample whole measurement process and the data acquisition of measurement result.Measuring unit includes pretreatment module 10 and measures module 20, it is positioned at measurement rotating disk 30 periphery in frame 4 and is provided with reagent interpolation position 6, the both sides measuring rotating disk 30 place the manually two dimension arm 40 of band sampling needle and automatic two dimension arm 60 respectively, automatically it is provided with automatic sampler 70 outside two dimension arm, mixing assembly 90, manually it is provided with hand sampling device (not shown) outside two dimension arm 40, wherein two dimension arm 60 coordinates automatic sampler 70 and mixing assembly 90 to be used in conjunction with automatically, automatic sampler 70 can realize automatization's sample delivery, mixing assembly 90 can realize machine automatic mixing and manually mix without early stage.Manually need to remove cap test tube after manually mixing during two dimension arm 40 sample introduction to operate.The surrounding measuring rotating disk 30 is mounted with that multiple reagent adds position 6, measures any measuring unit on rotating disk 30 and can forward each reagent interpolation position 6 respectively to, can be automatically injected quantitative classes of agents after rotateing in place.Being additionally provided with Control card 5 in frame 4, Control card 5 is for circuit control, the concentration analysis of measurement data and the process of each parts.

As shown in Figure 7, pretreatment module 10 includes pretreatment pedestal 101, pretreatment pedestal 101 bottom is provided with pretreatment stirring motor 102, pretreatment permanent magnet 103 is installed on pretreatment stirring motor 102, be positioned at pretreatment stirring motor 102 and pretreatment permanent magnet 103 on pretreatment pedestal 101 is arranged over transparent pretreatment cup 106, pretreatment cup 106 is internal is placed with reagent stirring particle 104, the material of stirring particle 104 is permanent magnet or magnetic conductor, pretreatment permanent magnet 103 is under the drive of pretreatment stirring motor 102 and then drives reagent stirring particle 104 to rotate, realize reagent and sample mixing in pretreatment cup 106.It is positioned at position before and after pretreatment cup 106 on pretreatment pedestal 101 to be respectively equipped with both pretreatment light source 105 and pre-processing sensor 107, pretreatment light source 105 and pre-processing sensor 107 and utilize turbidimetry to realize the detection to sample.

As shown in Figure 8, measure module 20 to include measuring pedestal 201, the bottom measuring pedestal 201 is provided with measurement stirring motor 202, measure and measurement permanent magnet 203 is installed on stirring motor 202, measure be positioned on pedestal 201 measure stirring motor 202 and measure permanent magnet 203 be arranged over heat block 204, and heat block 204 be arranged over transparent measuring cup 206, the inside of measuring cup 206 is placed with reagent stirring particle 207, the material of stirring particle 207 is permanent magnet or magnetic conductor, measuring permanent magnet 203 can drive reagent stirring particle 207 to rotate under the drive measuring stirring motor 202, realize reagent and sample mixing in measuring cup 206.Before and after being positioned at measuring cup 206 on measurement pedestal 201, position is respectively equipped with measurement light source 205 and measures sensor 208, and measurement light source 205 utilizes scattered light urbidmetry to realize the detection to sample with measuring both sensors 208.

As shown in Figure 9, manually two dimension arm 40 is mainly used to carry out the sample-adding of manual sample, primary structure is as shown in Figure 7, mainly it is made up of manual X-axis transmission arm 401 and manual Y-axis transmission arm 402, manual sampling needle 403 is installed on manual Y-axis transmission arm 402, on manual sampling needle 403, swab 404 is installed, sampling needle 403 is carried out. manually two dimension arm X-axis and Y-axis load are smaller, and the kind of drive all uses motor to add Timing Belt.

As shown in Figure 10, automatically two dimension arm 60 is mainly used to carry out the sample-adding of automated sample, primary structure is as shown in Figure 8, mainly it is made up of automatic X-axis transmission arm 601 and automatic Y-axis transmission arm 602, automatically on Y-axis transmission arm 602, automatic sampling needle 603 is installed, automatically the X-axis load being provided with swab 604. two dimension arm 40 automatically on sampling needle 603 is smaller, and the kind of drive uses motor to add Timing Belt.Y direction uses motor to add leading screw 605 transmission, can transmit bigger puncture force, it is achieved sample is inhaled in the puncture of original blood collection tube.

As shown in Figure 12, automatic sampler 70 includes that tube carrier loads rest area 71, tube carrier sample introduction zone 72, tube carrier carries storage area 73, arrange successively in three regions, i.e. tube carrier loads rest area 71 afterbody and undertakes tube carrier sample introduction zone 72, and tube carrier sample introduction zone afterbody undertakes tube carrier and carries storage area 73, and tube carrier carries out flowing in direction as shown and transmits.In tube carrier loads rest area, it is provided with tube carrier loader mechanism 711 simultaneously, tube carrier sample introduction zone is provided with tube carrier sample introduction mechanism 712, carry storage area at tube carrier and be provided with tube carrier mounted mechanism 713.After tube carrier is positioned in tube carrier loading rest area 71, tube carrier loader mechanism 711 accepts instruction and pushes tube carrier to tube carrier sample introduction zone 72, tube carrier sample introduction mechanism 712 carries out single lattice sample introduction to tube carrier afterwards, ensureing that each sample arrives specifies position to sample, rear tube carrier mounted mechanism 713 of having sampled carries out load action to tube carrier, and to tube carrier, tube carrier transmission is carried storage area 73.

As shown in Figure 12 and Figure 13, mixing assembly 90 includes test tube jaw 901, test tube jaw 901 is connected with jaw uniform shaking mechanism 902, and jaw uniform shaking mechanism 902 is connected with jaw translation mechanism 903, and jaw translation mechanism 903 is connected with jaw elevating mechanism 904.After receiving test tube mixing instruction, jaw translation mechanism 903 reach drives test tube jaw 901 to grip test tube, and rear clip-claw elevating mechanism 904 drives test tube to climb away automatic sampler 70, then jaw uniform shaking mechanism 902 drives test tube jaw 901 to carry out swinging back and forth and mix clockwise and anticlockwise.After mixing terminates, jaw elevating mechanism 904 drives test tube to lower into automatic sampler 70, and then after jaw translation mechanism 903, shipper pole moves test tube jaw 901 and departs from test tube.

As shown in Fig. 1, Fig. 3, Fig. 9, Figure 10, Figure 12, during the measurement automatic to sample of this utility model embodiment, multiple sample tube can be laid simultaneously, then automatically loaded by automatic sampler 70, auto injection and automatically unloading；Sample is contained in test tube and is mixed by mixing assembly 90；Automatically two dimension arm 60 carries out inhaling sample with the cap test tube of automatic suction needle automatic puncturing sample tube, then sample is sent into different measuring units one by one and measures respectively.Auto injection can process original test tube, it is not necessary to user of service opens cap test tube, does any auxiliary sampling action.During manual measurement, then need user of service to open cap test tube, deliver to test tube, below manual sampling needle, press manual key plate 112, after manually two dimension arm 40 just can carry out inhaling sample, detection sample is sent into measuring unit and measures.

As shown in Fig. 2, Fig. 5, Fig. 6, Fig. 7, Fig. 8, pretreatment module 10 and measurement module 20 are after having processed a sample, turn to each reagent respectively and add position 6, add position 6 by reagent and pretreatment cup 103 and measuring cup 206 are added various cleanout fluid, carry out mixing by pretreatment module 10 and the measurement respective stirring motor of module 20 and stirring particle again to clean, finally the waste liquid in pretreatment cup 103 and measuring cup 206 is drained, complete pretreatment cup 103 and the cleaning of measuring cup 206, after can meet the test of next sample.

As shown in figure 14, frame 4 is provided with fluid path assembly 50, fluid path assembly 50 is for controlling sample, reagent and the flow direction of sample waste liquid, fluid path fluid path assembly 50 includes support 504, support 504 is provided with hydraulic valve 501, hydraulic pump 502, negative pressure pump 503, support 504 is overall uses hinge 505 to couple with frame 4, overall easy to maintenance to ensure.Hydraulic valve 501 carries out pipeline be connected with the cup position (not shown) that decaptitates, reagent interpolation position 6, swab 404, sampling needle, and negative pressure pump 503 is used for discharging sample waste liquid.

As shown in figure 11, frame 4 is provided with refrigeration module 80, and refrigeration module 80 is for for needing the reagent keeping low temperature to freeze.Refrigeration module 80 includes that cool guiding block 801, cool guiding block 801 bottom surface fit tightly the chill surface of semiconductor chilling plate 802, and semiconductor chilling plate 802 and radiating surface fit tightly fin 803, arrange fan 804 outside fin.Cool guiding block 801 is connected to temperature probe 806, and cool guiding block 801 periphery is provided with temperature control panel card 805.After accepting temperature control instruction, cool guiding block is freezed by the chill surface of semiconductor chilling plate 802, fan 804 coordinates fin 803 to work to semiconductor chilling plate 802 to dispel the heat to ensure to normal work, and temperature probe 806 coordinates temperature control panel card 805 to ensure that cool guiding block 801 reaches assigned temperature.

Structure according to above-mentioned diagram, this utility model high speed C protein analyser has can the freely rotatable measurement rotating disk 30 of high speed, measure rotating disk 30 and be provided with multiple independent measuring unit, so multiple samples can be carried out high speed detection simultaneously, this utility model high speed C protein analyser also has two dimension arm 60 and manually two dimension arm 40 automatically, High-Speed Automatic sample introduction and high speed hand sampling can be supported simultaneously, and auto injection pattern and manual mode freely can be switched, this utility model high speed C protein analyser also has reagent and adds position 6 in order to automatically to add various reagent to sample；Above-mentioned design greatly improves detection speed and detection efficiency, to freely switching of auto injection pattern and manual mode, can process substantial amounts of common sample, can the most manually detect again urgent sample.The design of another independent measuring unit, when any measuring unit breaks down, does not haves chain reaction, individually replaces, it is simple to complete machine is safeguarded.Meanwhile, each measuring unit is packaged as an entirety, and position is fixed each other, does not changes relative position with complete machine machine driving, so can also eliminate the measurement error that transmission position error is brought, and then can reduce the requirement to complete machine transmission accuracy；And each measuring unit is absolute construction, it is simple to measuring unit batch modularized production.

As shown in figure 14, the analysis method of high speed c reactive protein analyser described in the utility model, including analysis below step:

(1), sample to be detected is loaded in test tube, then test tube is placed at automatic sampler 70 or hand sampling device 3；

(2), automatic or manual pattern is selected to sample；

(3), sampling needle 403(or 603) to decaptitating, head section in sample fluid column is removed in cup position；

(4), pretreatment module 10 goes to be loaded position；

(5), sampling needle 403(or 603) it is loaded to pretreatment module 10；

(6), mixed by mixing assembly 90；

(7), sampling needle 403(or 603) inhale sample to pretreatment module 10；

(8), pretreatment module 10 secondary dilution；

(9), pretreatment module 10 measures；

(10), by Control card 5, signal conversion is obtained calibration data；

(11) carry out with (8): measure module 20 and go to be loaded position simultaneously；

(12), sampling needle 403(or 603) it is loaded to measurement module 20；

(13), measure module 20 forward to successively each reagent add position 6 add various reagent；

(14), mixed by mixing assembly 90；

(15), react, measure；

(16), by Control card 5, signal conversion is obtained PRELIMINARY RESULTS；

(17), by Control card 5 signal converted and obtain the calibration data that PRELIMINARY RESULTS and step (10) obtain and compare and calibrate；

(18), by Control card 5, signal conversion is obtained final result；

(19), it is analyzed by Control card 5, it may be judged whether antigen excess？

(20), antigen excess, then re-start step (7), (11)-(19)；Antigen is superfluous, then enter next step；

(21), show testing result by touching display screen 111 and export final result by output unit 113.

Described above is only preferred embodiment of the present utility model, and above-mentioned specific embodiment is not to restriction of the present utility model.In technological thought category of the present utility model, various deformation and amendment can occur, retouching, amendment or the equivalent that all those of ordinary skill in the art are made as described above, belong to the scope that this utility model is protected.

Claims (9)

1. a high speed c reactive protein analyser, including frame and casing, it is characterized in that: be provided with bottom described frame and measure rotating disk and drive the motor measuring rotating disk, described measurement rotating disk outer ring is provided with some measuring units, described measuring unit includes pretreatment module and measures module, it is positioned at described measurement disk peripheral in described frame and is provided with reagent interpolation position, two dimension arm automatically with sampling needle and the most two-dimentional arm, it is provided with automatic sampler outside described automatic two dimension arm, it is provided with hand sampling device outside described manual two dimension arm, it is additionally provided with Control card in described frame, described casing is provided with touching display screen and output unit.

High speed c reactive protein analyser the most according to claim 1, it is characterized in that: described pretreatment module includes pretreatment pedestal, described pretreatment pedestal bottom is provided with pretreatment stirring motor, on described pretreatment stirring motor, pretreatment permanent magnet is installed, be positioned at described pretreatment stirring motor and pretreatment permanent magnet on described pretreatment pedestal is arranged over transparent pretreatment cup, reagent stirring particle it is placed with inside described pretreatment cup, it is positioned at pretreatment cup front and back position on described pretreatment pedestal and is respectively equipped with pretreatment light source and pre-processing sensor, described pretreatment permanent magnet can drive described reagent stirring particle to rotate under described pretreatment stirring motor drives.

High speed c reactive protein analyser the most according to claim 1, it is characterized in that: described measurement module includes measuring pedestal, described measurement pedestal bottom is provided with measurement stirring motor, on described measurement stirring motor, measurement permanent magnet is installed, described measurement pedestal is positioned at described measurement stirring motor and measure permanent magnet be arranged over heat block, and heat block be arranged over transparent measuring cup, reagent stirring particle it is placed with inside described measuring cup, it is positioned at measuring cup front and back position on described measurement pedestal be respectively equipped with measurement light source and measure sensor, described measurement permanent magnet can drive described reagent stirring particle to rotate under described measurement stirring motor drives.

High speed c reactive protein analyser the most according to claim 1, it is characterised in that: described automatic two dimension arm include X-axis transmission arm, can left and right moves freely on X-axis transmission arm Z-axis transmission arm, the automatic sampling needle that freely up and down can move on Z-axis transmission arm, the swab that is fixed on Z-axis transmission arm bottom.

High speed c reactive protein analyser the most according to claim 1, it is characterised in that: described manual two dimension arm include X-axis transmission arm, can left and right moves freely on X-axis transmission arm Z-axis transmission arm, the manual sampling needle that freely up and down can move on Z-axis transmission arm, the swab that is fixed on Z-axis transmission arm bottom.

High speed c reactive protein analyser the most according to claim 1, it is characterized in that: described automatic sampler includes that the tube carrier arranged successively loads rest area, tube carrier sample introduction zone, tube carrier load storage area, described tube carrier is provided with tube carrier loader mechanism in loading rest area, described tube carrier sample introduction zone is provided with tube carrier sample introduction mechanism, and described tube carrier carries storage area and is provided with tube carrier mounted mechanism.

High speed c reactive protein analyser the most according to claim 1, it is characterized in that: be positioned at automatic sampler side in described frame and be provided with mixing assembly, described mixing assembly includes test tube jaw, described test tube clamp pawl is connected with jaw uniform shaking mechanism, described jaw uniform shaking mechanism is connected with jaw translation mechanism, and described jaw translation mechanism is connected with jaw elevating mechanism.

High speed c reactive protein analyser the most according to claim 1, it is characterized in that: in described frame, be additionally provided with fluid path assembly, described fluid path assembly includes that support, described support are provided with hydraulic valve, hydraulic pump, negative pressure pump, and described support entirety uses hinge to be attached with described frame.

High speed c reactive protein analyser the most according to claim 1, it is characterized in that: in described frame, be additionally provided with the refrigeration module for freezing to reagent, described refrigeration module includes cool guiding block, semiconductor chilling plate and fin, the bottom surface of described cool guiding block fits tightly in the chill surface of described semiconductor chilling plate, the radiating surface of described semiconductor chilling plate fits tightly and is additionally provided with fan outside described fin, described fin.