CN201096779Y

CN201096779Y - Fully automatic biologic chip detection system

Info

Publication number: CN201096779Y
Application number: CNU2007200716322U
Authority: CN
Inventors: 穆海东; 汪宁梅; 刘聪; 蔡锦达
Original assignee: Shanghai Yulong Biological Science and Technology Co Ltd
Current assignee: Shanghai Yulong Biological Science and Technology Co Ltd
Priority date: 2007-06-26
Filing date: 2007-06-26
Publication date: 2008-08-06
Anticipated expiration: 2017-06-26

Abstract

The utility model discloses a full-automatic biochip testing system, pertaining to the field of multi-marker biochip clinical testing. Adopting the modularized structure, the testing system comprises an automatic sample processing module, a reacting and washing module, a testing module, a tip head storing module, a reagent storing module, a biochip storing module, a sample storing module, a system base, an electric-control box and a computer. The electric-control box and all the modules are operation under software control so as to achieve automatic sampling, feeding, reacting, washing and testing; all the module can independently work and can be combined to cooperatively work. The testing system overcomes the deficiencies of the existing biochip testers, reduces the error caused by artificial operation and is stable and reliable in testing result and good in flexibility, which greatly improves the testing efficiency and is beneficial for the accuracy of the testing result; with simple operation, the testing system is not only applicable for the research and application of labs and hospitals as well as large-scale sample screening of large-size hospitals and blood stations.

Description

A kind of full-automatic biological chips detection system

Technical field

The utility model relates to the clinical detection field of many marks biochip, more precisely, relates to the detection system of a kind of many indexs, many person-portions parallel detection usefulness biochip.

Background technology

Biochip (biochip) is meant methods such as adopting the synthetic or micro-sampling of photoconduction original position, the big molecular proportion of large number of biological such as nucleic acid fragment, peptide molecule even histotomy, cell or the like biological sample is solidified surface in holder in an orderly manner, form intensive microarray, then with the molecular hyridization that hits of the biological sample to be measured of mark, by specific instrument to intensity of hybridization signal carry out fast, walk abreast, check and analysis efficiently, thereby the quantity of target molecule in the judgement sample.Owing to can be fixed in extremely a large amount of probes on the holder simultaneously with this technology, so once can carry out check and analysis, thereby solve traditional detection technical operation complexity, deficiency such as automaticity is low, the testing goal molecular amounts is few, small throughput, sensitivity are low to a large amount of biomolecule.

In the present existing technology, the instrument that is used for biochip test is the image acquisition equipment of function singleness, and most link all is that the people is for finishing in the biochip test process, such as application of sample (comprising testing sample and all ingredients), wash non-specific background, biochip is put into and is taken out conversion zone, the washing zone, processes such as checkout equipment, like this, a large amount of manual operations cause a lot of uncertain factors, bring very big personal error, not only make testing result inaccurate, and testing process also can't be reappeared, even the variation of concrete which step makes testing result change in can't analyte detection process, thereby uncontrollable and specifically adjust to testing process.And these, all be the quick industrialization of biochip test the problem that must solve.Simultaneously, the testing process that this a plurality of equipment are formed is complicated operation not only, and efficient is low, and workload is big, is not suitable for the extensive sample examination that carry out large hospital and blood station.So people press for a kind of full-automatic detection system that needs function in all biochip test processes that integrates, reduce people's workload, improve the stability, reliability and the controllability that detect.

Summary of the invention

The purpose of this utility model just is to overcome existing problem in the existing biochip test process, a kind of multiple functional, compact conformation, modularization is provided, automatically finishes the biological chips detection system of all operations.This detection system not only is fit to the scientific research and the application of laboratory and hospital, and can be used for the large-scale sample examination of large hospital and blood station.

The technical solution of the utility model is as follows:

A kind of full-automatic biological chips detection system, adopt modular construction, comprise the automatic sample processing module, the reaction wash module, detection module, Tip head (suction nozzle) storage module, the reagent storage module, the biochip storage module, a plurality of functional modules such as sample storage module, also comprise system's base in addition, mounting bracket, adjustable pulley pin group, operation electric cabinet and each module under control of computer software realize sampling automatically, automatic application of sample, the automatic constant-temperature reaction, automatically washing, the carrying chip, automatically detect and analyze automatically all biological chip detection processes such as testing result.And each module can work alone, and also can arbitrary combination get up to form a cover system and cooperate operation.

The holder part that described automatic sample processing module includes the accurate electronic control translation stage of X-axis, Y-axis guide pillar, Y-axis screw mandrel, Y-axis overarm brace (17), link (12), 1～14 mechanical arm independent of each other and cooperates.Wherein mechanical arm comprises two kinds: 1～12 is moved liquid mechanical arm and 2 conveying robots, and each mechanical arm all has and oneself independently moves in control system, and is coordinated with each other, between distance can carry out relative motion through computer control as required and regulate.One of the Y-axis overarm brace is fixed on the accurate electronic control translation stage of X-axis, then slide on the X-axis auxiliary guide rail in the other end, Y-axis guide pillar (13) and Y-axis screw mandrel are installed on the Y-axis overarm brace by link, move liquid mechanical arm and handling machinery on hand the guide pillar overcoat and the Y direction drive nut respectively with Y-axis guide pillar, Y-axis screw mandrel coaxial cooperation, make and all move the liquid mechanical arm and conveying robot (16) moves along Y-axis guide pillar direction.

Described move the liquid mechanical arm by fixed support A, fixed support B, Y direction motion drive motor, synchronously band, Y direction drive nut, guide pillar overcoat, Z axis drive motor, Z shaft movement mechanism, push rod Z axle motion drive motor, push rod, push rod web member, remove Tip Z axis drive motor, microsyringe, remove Tip part, a Tip fabricated section forms; Y direction motion drive motor, synchronous band, Y direction drive nut, guide pillar overcoat, Z axis drive motor, Z shaft movement mechanism are installed on the fixed support A, push rod Z axle motion drive motor, push rod, push rod web member, remove Tip Z axis drive motor, microsyringe, remove Tip part, a Tip fabricated section is installed on the fixed support B, fixed support B by the Z shaft movement mechanism can with fixed support A relative motion; This moves the liquid manipulator and drives the Y direction drive nut by Y direction motion drive motor, and the Y direction drive nut rotates on the Y-axis screw mandrel and move on Y direction by the guiding of Y-axis guide pillar, each manipulator is coordinated each other distance and motion by computing machine and electric cabinet control; The Z axis drive motor drives fixed support B and push rod Z axle motion drive motor, push rod web member, microsyringe mounted thereto, removes Tip Z axis drive motor, goes Tip part and Tip fabricated section etc. to move up and down in Z-direction by the Z shaft movement mechanism; Push rod Z axle motion drive motor makes the push rod of microsyringe move up and down in Z-direction by the push rod web member; And go Tip Z axis drive motor to go Tip part to move up and down in Z-direction by driving, and the Tip head is released downwards from Tip fabricated section, the Tip head is owing to self gravitation falls down.

Described conveying robot comprises that fixed support A, fixed support B, Y direction motion drive motor, band, Y direction drive nut, guide pillar overcoat, Z axis drive motor, Z shaft movement mechanism, carrying synchronously clamp hand.The structure of this conveying robot and to move the liquid manipulator similar, Y direction motion drive motor, be with synchronously, the Y direction drive nut, the guide pillar overcoat, the Z axis drive motor, Z shaft movement mechanism etc. is installed on the fixed support A, carrying clamps hand and then is connected to the Z shaft movement mechanism by fixed support B, this conveying robot module drives the Y direction drive nut by Y direction motion drive motor, and the Y direction drive nut rotates on the Y-axis screw mandrel and move on Y direction by the guiding of Y-axis guide pillar, each manipulator is by computing machine and electric cabinet control, coordinate each other distance and motion, carrying clamps hand and then moves up and down in Z-direction by the Z shaft movement mechanism.

Relatively move the similarities and differences of liquid mechanical arm and conveying robot, these two kinds of mechanical arms adopt general mode of motion and control mode, two kinds of mechanical arms all include fixed support A, fixed support B, Y direction motion drive motor, synchronous band, Y direction drive nut, guide pillar overcoat, Z axis drive motor, Z shaft movement mechanism, and by Y direction motion drive motor driving Y direction drive nut, the Y direction drive nut rotates on the Y-axis screw mandrel and moves on Y direction.But move wherein that the liquid mechanical arm also comprises push rod Z axle motion drive motor, push rod web member, push rod, removes Tip Z axis drive motor, microsyringe, removes Tip part, a Tip fabricated section etc. is used to move the assembly of liquid, and conveying robot has then only been installed carrying and clamped hand.

Described detection module comprises base, horizontal electromigration platform, be connected the objective table that can release the detector shell on the electromigration platform, CCD camera, optical system, CCD mounting bracket, camera bellows, detector shell etc.Wherein camera bellows is installed on the base, horizontal electromigration platform is installed in the camera bellows, and objective table is installed on the horizontal electromigration platform, and can be with biochip to release together outside the detection module shell, so that pick and place biochip, optical system is installed on the CCD camera, and the CCD camera is installed on the base by the CCD mounting bracket, and biochip is by optical system and CCD camera imaging.In operational process, biochip is placed on the objective table of detector by conveying robot, the objective table band biochip and is got back in the camera bellows of detection module, carrying out picture by optical system and CCD camera then obtains, be connected with computing machine by data line again, images and data, and analyze data automatically by image analysis software, obtain testing result.

Described full-automatic biological chips detection system has comprised 1～20 group of Tip storage module, and wherein said each Tip storage module comprises that Tip head, a Tip storage rack and Tip head deposit base.Wherein the Tip head is the international disposable Tip head of standard.On Tip the storage rack a plurality of pore space structures are arranged, a plurality of Tip heads are arranged on Tip the storage rack by its most advanced and sophisticated pore space structure that inserts correspondence, and Tip storage rack is placed in Ti p head and deposits on the base, deposits projection below the base or the depressions or protrusions on depression and the workbench by the Tip head and cooperates and be positioned on the workbench.

Described full-automatic biological chips detection system has comprised 1～6 reaction wash module, describedly reacts respectively that wash module comprises vertical movement mechanism, horicontal motion mechanism, cleaning head, rinse bath, dodge gate, reaction instrument objective table, constant temperature oven, reaction instrument base, reaction instrument shell and in parts such as the pump of fuselage interior, valve, pipeline, power supply, control circuit boards.Biochip is installed on the objective table, dodge gate is installed in a side of objective table, can be along the activity of stage movement direction, objective table is installed on the constant temperature oven, can in constant temperature oven, move, and can stretch out constant temperature oven, cleaning head is installed on the vertical movement mechanism, vertical movement mechanism is installed on the horicontal motion mechanism, motion by horicontal motion mechanism and vertical movement mechanism, cleaning head (39) can be done the motion of level and vertical both direction above biochip, each row who is installed in the biochip on the reaction instrument objective table is washed successively.Wherein, cleaning head comprises row's fluid injection pin and row's aspirating needle, and wherein the fluid injection pin is responsible for injecting washing lotion in the hole toward detecting, and aspirating needle is responsible for the soiling solution that correspondence detects in the hole is absorbed, and the fluid injection pin is shorter than aspirating needle.Fluid injection pin and aspirating needle are arranged side by side, and the distance between the fluid injection pin is 4.5mm, 9mm or 18mm, and the distance between the aspirating needle also is 4.5mm, 9mm or 18mm accordingly.Biochip is placed on the objective table of reaction instrument, can enter the constant temperature that carries out under the uniform temperature in the constant temperature oven and hatch, and cleaning head is to detecting the cleaning automatically successively by rows of hole, place then.

Described full-automatic biological chips detection system has comprised 1～20 group reagent storage module, and described reagent storage module comprises liquid feeding interface, disposable reagent storage tank, reagent storage base.The corresponding groove of a plurality of and disposable reagent storage tank is arranged on the reagent storage base, disposable reagent storage tank is placed on the reagent storage base on the corresponding groove, and a distal process of liquid feeding interface goes out above disposable reagent storage tank, the other end then can connecting line, can add reagent toward the groove the inside of disposable reagent storage tank by pipeline; Wherein said disposable reagent storage tank is 1～10 elongated slot side by side, and elongated slot can be multiple shapes such as square, circular, V-arrangement, polygon or polygon band fillet.Also contain a plurality of elongated slots on the described reagent storage base, its quantity is corresponding one by one with shape with the elongated slot quantity of shape and disposable reagent storage tank.Corresponding reagent can be pre-existing in the reagent bottle, injects disposable reagent storage tank by valve unit and liquid feeding interface, also can manually add corresponding reagent before biochip test, puts on the reagent storage base of correspondence.

Described full-automatic biological chips detection system has comprised 1～20 group of biochip storage module, comprises that biochip deposits base and be placed in biochip on the base, is used for putting of biochip.

Described full-automatic biological chips detection system has comprised 1～10 group of sample storage module, and described sample storage module comprises test tube, test tube storage rack.Described test tube is that external diameter general on the market is 8mm～12mm test tube.Described test tube storage rack is formed for the multilayer orifice plate, and center position outstanding deformable elastic device in oriented hole around each hole, and the diameter in hole is littler than test tube diameter during its relaxation state, when putting into test tube, test tube wall can be with these elastic devices to four sides crimp, these elastic devices then can be fixed in test tube the center in hole to the four sides extruding of test tube wall, and guarantee the stability that test tube is placed simultaneously, so just can deposit the different test tube of external diameter, the quantity of the test tube that can put on the frame is 1～96.

In the various modules such as above-described reaction wash module, detection module, a Tip storage module, reagent storage module, biochip storage module, sample storage module separately base bottom all have with whole full-automatic biological chips detection system base on the match projection (or groove) of location of groove (or projection) so that the installation of each functional module and location.

Described automatic sample processing module, reaction wash module, detection module can independent operatings, Tip storage module, reagent storage module, biochip storage module, sample storage module then can be placed in other system and use, these modules also each other independent assortment use;

Described computer software, by electric cabinet control be the action of state, each module of each module, the transmission of cooperation between each module, data, data analysis processing, diagnostic result, printed report etc.

Compare with present existing products, major advantage of the present utility model is:

1) error is few, and testing result is reliable and stable.The biochip test all processes is all finished automatically by system in the utility model, and the error of having avoided manual operation to bring has improved the stability and the reliability of testing result greatly.

2) accuracy height.The utility model is because overall process machinery is finished automatically, and all processes can both be monitored, thus all relate to the step of the detection of biochip can optimising and adjustment, thereby reach higher detection accuracy.

3) speed is fast, the efficient height.Because integrated a plurality of reaction wash module, detection module and other a plurality of functional modules have not only been optimized the cooperation time in the utility model, and a plurality of module can work simultaneously, improved detection speed greatly, optimized detection efficiency.

4) compact conformation.The utility model is not only with each functional module miniaturization, and each functional module is carried out central combination, and compact conformation has improved effective utilization in space greatly.

5) dirigibility is good, and applicability is wide.The utility model has adopted modular design, each functional module not only can be used separately, but also combination that can be random, forming different system's collocation uses, so not only be fit to the scientific research and the small-scale application of laboratory and hospital, and can be used for the large-scale application such as sample examination of large hospital and blood station.

6) easy and simple to handle.Because the utility model all adopts machinery to replace the testing staff to finish all complex operations processes automatically, only the biochip of required detection, corresponding reagent, testing sample etc. need be placed into corresponding position, set testing process again, just can directly obtain testing result by the machinery remaining work of all doing.

7) save human and material resources, reduced the detection cost.Because the utility model overall process adopts mechanical automation to finish, and has reduced the loaded down with trivial details operation element of testing staff greatly, and the detection efficiency height, has improved usage ratio of equipment greatly, has reduced the detection cost.

In a word, the utility model has overcome the defective of existing biochip supplies analysis, reduced the error that manual operation brings, testing result is reliable and stable, and dirigibility is good, and the parallel detection of the many marks of many person-portions has not only improved detection efficiency greatly, and help the accuracy of testing result, this system operation is simple, not only is fit to the scientific research and the application of laboratory and hospital, and can be used for the large-scale sample examination of large hospital and blood station.

Description of drawings

Figure .1 is the schematic three dimensional views of a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .2 is the following apparent direction synoptic diagram of a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .3 is the last apparent direction synoptic diagram of sample preparation module among a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .4 is the schematic three dimensional views that the sample preparation module is moved the liquid mechanical arm among a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .5 is the schematic three dimensional views of Tip storage module among a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .6 is the schematic three dimensional views of reaction wash module among a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .7 is the schematic three dimensional views of reagent storage module among a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Figure .8 is the schematic three dimensional views of sample storage module among a kind of embodiment of full-automatic biological chips detection system described in the utility model;

Embodiment

Below in conjunction with drawings and Examples the utility model is further specified:

As shown in the figure, (1) is Tip storage module, (2) be the biochip storage module, (3) be Tip recovery area, (4) be detection module, (5) be the automatic sample processing module, (6) be the reaction wash module, (7) be the reagent storage module, (8) be the sample storage module, (9) be computing machine, (10) be adjustable caster group, (11) be auxiliary guide rail in the X-axis motion, (12) be the link of X-axis and Y-axis, (13) be used guide pillar and the screw mandrel of Y direction motion with (14), (15) for moving the liquid mechanical arm, (16) be conveying robot, (17) be the Y-axis overarm brace, (18) be the X-axis electronic control translation stage, (19) be fixed support A, be used for fixing Y direction motion and Z shaft movement mechanism, (20) drive motor that moves for Y direction, (21) be to be with synchronously, (22) be the Y direction drive nut, (23) be the guide pillar overcoat, (24) be the Z axis drive motor, (25) be the Z shaft movement mechanism, (26) be fixed support B, be used for fixing the Z shaft movement mechanism, microsyringe, pushrod movement mechanism, Tip fabricated section and the mechanism that removes the Tip head etc., (27) be push rod Z axle motion drive motor, (28) be the push rod web member, (29) be push rod, (30) for removing TIP Z axle motion drive motor, (31) be microsyringe, (32) for removing Tip spare, (33) be TIP fabricated section, (34) are disposable Tip head, and (35) are Tip storage rack, (36) deposit base for the Tip head, (37) be vertical movement mechanism, (38) are horicontal motion mechanism, and (39) are cleaning head, (40) be rinse bath, (41) be dodge gate, (42) are biochip, and (43) are reaction instrument objective table, (44) be constant temperature oven, (45) be reaction instrument base, (46) are reaction instrument shell, and (47) are liquid feeding interface, (48) be disposable storage tank, (49) be the reagent storage base, (50) for to hold the test tube that sample is used, (51) are the test tube storage rack.

A kind of full-automatic biological chips detection system described in the utility model, adopt modular construction, comprise automatic sample processing module (5), reaction wash module (6), detection module (4), Tip storage module (1), reagent storage module (7), biochip storage module (2), sample storage module a plurality of functional modules such as (8), also comprise the detection system base in addition, mounting bracket, adjustable caster group (10), operation electric cabinet and each module under control of computer software realize sampling automatically, automatic application of sample, the automatic constant-temperature reaction, automatically washing, the carrying chip, automatically detect and analyze automatically all biological chip detection processes such as testing result.And each module can work alone, and also can arbitrary combination get up to form a cover system and cooperate operation.

The holder part (12) (17) that automatic sample processing module (5) described in this embodiment includes the accurate electronic control translation stage of X-axis, Y-axis guide pillar (13), Y-axis screw mandrel (14), 10 mechanical arms independent of each other (15) (16) and cooperates.Wherein mechanical arm comprises two kinds: 8 are moved liquid mechanical arm (15) and 2 conveying robots (16), each mechanical arm all has and oneself independently moves in control system, coordinated with each other, between distance can pass through computing machine (9) control as required and carry out relative motion and regulate.And, these two kinds of mechanical arms adopt general mode of motion and control mode, two kinds of mechanical arms all include fixed support A (19), fixed support B (26), Y direction motion drive motor (20), be with synchronously (21), Y direction drive nut (22), guide pillar overcoat (23), Z axis drive motor (24), Z shaft movement mechanism (25), and by Y direction motion drive motor (20) driving Y direction drive nut (22), Y direction drive nut (22) rotates on Y-axis screw mandrel (14) and moves on Y direction, and the motion of Z-direction then drives Z shaft movement mechanism (25) by Z axis drive motor (24) and finishes.But the assembly that move wherein that liquid mechanical arm (15) also comprises push rod Z axle motion drive motor (27), push rod web member (28), push rod (29), removes Tip Z axis drive motor (30), microsyringe (31), removes Tip part (32), a Tip fabricated section (33) etc. is used to move liquid, wherein push rod Z axle motion drive motor (27) drives push rod web member (28), thereby the push rod (29) of push-and-pull microsyringe (31), the sampling and the application of sample of control microsyringe (31); Conveying robot (16) has then only been installed carrying and has been clamped hand, is born against and is installed to the centre by two conveying robots (16) and finish the carrying of biochip (42).

Detection module described in this embodiment (4) comprises base, horizontal electromigration platform, be connected the objective table that can release the detector shell on the electromigration platform, the CCD camera, optical system, the CCD mounting bracket, camera bellows, detector shell etc., biochip (42) is placed and is installed on the objective table of detector by conveying robot (16), the objective table band biochip (42) and is got back in the camera bellows of detection module (4), carrying out picture by optical system and CCD camera then obtains, be connected with computing machine (9) by data line again, images and data, and analyze data automatically by image analysis software, obtain testing result.

Full-automatic biological chips detection system described in this embodiment has comprised 8 groups Tip storage module (1), and wherein said each Tip storage module (1) comprises that Tip head (34), a Tip storage rack (35) and Tip head deposit base (36).Wherein Tip head (34) is the international disposable Tip head of standard.

Full-automatic biological chips detection system described in this embodiment has comprised 4 reaction wash module (6), the described wash module (6) of respectively reacting comprises vertical movement mechanism (37), horicontal motion mechanism (38), cleaning head (39), rinse bath (40), dodge gate (41), reaction instrument objective table (43), constant temperature oven (44), reaction instrument base (45), reaction instrument shell (46), and at the pump of fuselage interior, valve, pipeline, power supply, parts such as control circuit board, cleaning head (39) carries out the motion of Z axle and X-axis both direction by vertical movement mechanism (37) and horicontal motion mechanism (38), and each gaging hole of listing and indexing that is installed in the biochip (42) on the reaction instrument objective table (43) is washed successively.Wherein, cleaning head (39) comprises row's fluid injection pin and row's aspirating needle, and wherein the fluid injection pin is responsible for injecting washing lotion in the hole toward detecting, and aspirating needle is responsible for the soiling solution that correspondence detects in the hole is absorbed, and the fluid injection pin is shorter than aspirating needle.Biochip (42) is placed on the objective table (43) of reaction instrument, can enter the constant temperature that carries out under the uniform temperature in the constant temperature oven (44) and hatch, and cleaning head (39) is to detecting the cleaning automatically successively by rows of hole, place then.

Full-automatic biological chips detection system described in this embodiment has comprised 6 group reagent storage module (7), and described reagent storage module (7) comprises liquid feeding interface (47), disposable reagent storage tank (48), reagent storage base (49).Wherein said disposable reagent storage tank (48) is 4 elongated slots side by side, and elongated slot is the special shape of V-belt fillet.Also contain a plurality of elongated slots on the described reagent storage base (49), its quantity is corresponding one by one with shape with the elongated slot quantity of shape and disposable reagent storage tank (48).Corresponding reagent can be pre-existing in the reagent bottle, inject disposable reagent storage tank (48) by valve unit and liquid feeding interface (47), also can before biochip test, in disposable reagent storage tank (48), manually add corresponding reagent, put on the reagent storage base of correspondence.

Full-automatic biological chips detection system described in this embodiment has comprised 6 groups of biochip storage module (2), is used for putting of biochip (42).

Full-automatic biological chips detection system described in this embodiment has comprised 3 groups of sample storage module (8), and described sample storage module (8) comprises test tube (50), test tube storage rack (51).Described test tube (50) is 8mm～12mm test tube for general external diameter on the market.Described test tube storage rack (51) is formed for the multilayer orifice plate, and have deformable around each hole to the extruding design of center, hole, can deposit the stability that the different test tube of external diameter (50) guarantees that simultaneously test tube is placed, the quantity of the test tube that can put on the frame (50) is 48.

In above-described reaction wash module (6), detection module (4), a Tip storage module (1), reagent storage module (7), biochip storage module (2), the sample storage module various modules such as (8) separately base bottom all have with whole full-automatic biological chips detection system base on the match projection (or groove) of location of groove (or projection) so that the installation of each functional module and location.

Testing process below in conjunction with a kind of more typical biochip is further introduced using method of the present utility model:

Open the power supply of full-automatic biological chips detection system and computing machine at first successively, allow all motions make zero, system recovery is to original state, then biochip (42) is put on the biochip storage module (2), corresponding reagent is added in the disposable reagent groove (48), and put reagent storage module (7), the testing sample that will be contained in the test tube (50) is put in the sample storage module (8), in Control Software, set the detected parameters that needs then, comprise and select corresponding chip putting position, the reagent storage position, the sample putting position, application of sample position and order, the needed temperature of isothermal reaction in the testing process, reaction time, the number of times of washing and washing intensity, detect the time shutter etc., after parameter sets, just can bring into operation, the detections end that be exactly to wait that the testing staff will do then afterwards comes to check examining report, and this system can finish all testing processes automatically.At first conveying robot (16) is carried biochip (42) and the reaction wash module (6) of some free time that is installed, by moving liquid mechanical arm (15) testing sample is quantitatively transferred to from sample storage module (8) in the corresponding detection hole of this biochip (42) as required then, finish this biochip (42) isothermal reaction for the first time and automatic washing process by this reaction wash module (6), when the isothermal reaction first time with after washing process is finished automatically, can also detect in the hole to corresponding biochip (42) by shifting a certain amount of reagent (ELIAS secondary antibody etc.) in the reagent trough that moves liquid mechanical arm (15) correspondence from reagent storage module (7), carry out an isothermal reaction and automatic washing process by reaction wash module (6) again, to the last blot raffinates all in the biochip test hole by cleaning head (39), by conveying robot (16) this biochip (42) is carried then and the objective table of the detection module that is installed (4) on, detect in the hole to corresponding biochip (42) by shifting a certain amount of reagent (luminous substrate etc.) in the reagent trough that moves liquid mechanical arm (15) correspondence from reagent storage module (7), at last by detection module (4) to this biochip pictures taken of exposing, and with data transmission in the computing machine (9), calculate by automatic analyser and to obtain testing result.

Should be understood that the module described in the utility model can arbitrary combination, array mode all covers within the utility model content arbitrarily.After reading foregoing of the present utility model, those skilled in the art can do various increases and decreases or modification to the utility model, and these equivalent form of values fall within the application's appended claims institute restricted portion equally.

Claims

1. full-automatic biological chips detection system, it is characterized in that, this system adopts modular construction, comprises automatic sample processing module (5), 1～6 reaction wash module (6), detection module (4), 1～20 group Tip storage module (1), 1～20 group reagent storage module (7), 1～20 group of biochip storage module (2), 1～10 group of sample storage module (8), system's base, electric cabinet and computing machine;

Described automatic sample processing module (5) comprises the accurate electronic control translation stage (18) of X-axis, X-axis auxiliary guide rail (11), Y-axis guide pillar (13), Y-axis screw mandrel (14), Y-axis overarm brace (17), link (12), 1～12 liquid mechanical arm (15), 2 conveying robots (16) and holder part of moving independent of each other, each mechanical arm is independent separately, can make its motor coordination, cooperation by computer control; One of Y-axis overarm brace (17) is fixed on the accurate electronic control translation stage of X-axis (18), the other end is then gone up at X-axis auxiliary guide rail (11) and is slided, Y-axis guide pillar (13) and Y-axis screw mandrel (14) are installed on the Y-axis overarm brace (17) by link (12), move guide pillar overcoat (23) on liquid mechanical arm (15) and the conveying robot (16) and Y direction drive nut (22) respectively with Y-axis guide pillar (13), Y-axis screw mandrel (14) coaxial cooperation, make and all move liquid mechanical arm (15) and conveying robot (16) moves along Y-axis guide pillar (13) direction;

Described reaction wash module (6) comprises vertical movement mechanism (37), horicontal motion mechanism (38), cleaning head (39), rinse bath (40), dodge gate (41), reaction instrument objective table (43), constant temperature oven (44), reaction instrument base (45), reaction instrument shell (46) and at pump, valve, pipeline, power supply, the control circuit board of fuselage interior; Biochip (42) is installed on the objective table (43), dodge gate (41) is installed in a side of objective table (43), can be along objective table (43) direction of motion activity, objective table (43) is installed on the constant temperature oven (44), can in constant temperature oven (44), move, and can stretch out constant temperature oven (44), cleaning head (39) is installed on the vertical movement mechanism (37), vertical movement mechanism (37) is installed on the horicontal motion mechanism (38), by the motion of horicontal motion mechanism (38) and vertical movement mechanism (37), cleaning head (39) can be done the motion of level and vertical both direction in biochip (42) top;

Described detection module (4) comprises the detector base, horizontal electromigration platform, objective table, the CCD camera, optical system, the CCD mounting bracket, camera bellows, the detector shell, camera bellows is installed on the base, horizontal electromigration platform is installed in the camera bellows, and objective table is installed on the horizontal electromigration platform, and can be with biochip to release together outside the detection module shell, so that pick and place biochip, optical system is installed on the CCD camera, the CCD camera is installed on the base by the CCD mounting bracket, biochip is by optical system and CCD camera imaging, be connected with computing machine by data line, images and data, and analyze data automatically by image analysis software, obtain testing result;

A described Tip storage module (1) comprises that Tip head (34), a Tip storage rack (35), Tip head deposit base (36); On Tip the storage rack (35) a plurality of pore space structures are arranged, a plurality of Tip heads (34) are arranged on Tip the storage rack (35) by its most advanced and sophisticated pore space structure that inserts correspondence, and Tip storage rack is placed in the Tip head and deposits on the base (36), deposits projection below the base (36) or the depressions or protrusions on depression and the workbench by the Tip head and cooperates and be positioned on the workbench;

Described reagent storage module (7) comprises liquid feeding interface (47), disposable reagent storage tank (48), reagent storage base (49); The corresponding groove of a plurality of and disposable reagent storage tank (48) is arranged on the reagent storage base (49), disposable reagent storage tank (48) is placed in reagent storage base (49) and goes up on the corresponding groove, and a distal process of liquid feeding interface (47) goes out in disposable reagent storage tank (48) top, the other end then can connecting line, can add reagent toward the groove the inside of disposable reagent storage tank (48) by pipeline;

Described sample storage module (8) comprises test tube (50), test tube storage rack (51);

Described biochip storage module (2) comprises that biochip deposits base and be placed in biochip on the base;

Each module base bottom of described reaction wash module (6), detection module (4), a Tip storage module (1), reagent storage module (7), biochip storage module (2), sample storage module (8) all have with the system base on groove or projection the match projection or the groove of location;

Described automatic sample processing module (5), reaction wash module (6), detection module (4) can independent operatings, Tip storage module (1), reagent storage module (7), biochip storage module (2), sample storage module (8) then can be placed in other system and use, these modules also each other independent assortment use;

Described computing machine is by electric cabinet control automatic sample processing module (5), reaction wash module (6), the state of detection module (4), action, cooperation, data transmission, data analysis processing, printed report.

2. a kind of full-automatic biological chips detection system according to claim 1 is characterized in that the described liquid mechanical arm (15) that moves is by fixed support A (19), fixed support B (26), Y direction motion drive motor (20), be with synchronously (21), Y direction drive nut (22), guide pillar overcoat (23), Z axis drive motor (24), Z shaft movement mechanism (25), push rod Z axle motion drive motor (27), push rod (29), push rod web member (28), remove Tip Z axis drive motor (30), microsyringe (31), remove Tip part (32), Tip fabricated section (33) formed; Y direction motion drive motor (20), synchronous band (21), Y direction drive nut (22), guide pillar overcoat (23), Z axis drive motor (24), Z shaft movement mechanism (25) are installed on the fixed support A (19), push rod Z axle motion drive motor (27), push rod (29), push rod web member (28), remove Tip Z axis drive motor (30), microsyringe (31), remove Tip part (32), a Tip fabricated section (33) is installed on the fixed support B (26), fixed support B (26) by Z shaft movement mechanism (25) can with fixed support A (19) relative motion; This moves liquid manipulator (15) and drives Y direction drive nut (22) by Y direction motion drive motor (20), and Y direction drive nut (22) moves on Y direction in the last rotation of Y-axis screw mandrel (14) and by the guiding of Y-axis guide pillar (13), each manipulator (15) is coordinated each other distance and motion by computing machine (9) and electric cabinet control; Z axis drive motor (24) drives fixed support B (26) and push rod Z axle motion drive motor (27), push rod web member (28), microsyringe (31) mounted thereto, removes Tip Z axis drive motor (30), goes Tip part (32) and Tip fabricated section (33) etc. to move up and down in Z-direction by Z shaft movement mechanism (25); Push rod Z axle motion drive motor (27) makes the push rod (29) of microsyringe move up and down in Z-direction by push rod web member (28); And go Tip Z axis drive motor (30) to go Tip part (32) to move up and down in Z-direction by driving, and the Tip head is released downwards from Tip fabricated section (33).

3. a kind of full-automatic biological chips detection system according to claim 1 is characterized in that described conveying robot (16) comprises that fixed support A, fixed support B, Y direction motion drive motor, band, Y direction drive nut, guide pillar overcoat, Z axis drive motor, Z shaft movement mechanism, carrying synchronously clamp hand; Y direction motion drive motor, synchronous band, Y direction drive nut, guide pillar overcoat, Z axis drive motor, Z shaft movement mechanism etc. are installed on the fixed support A (19); Y direction motion drive motor driving Y direction drive nut rotates on the Y-axis screw mandrel and moves on Y direction; Carrying clamps hand and then is connected to the Z shaft movement mechanism by fixed support B, moves up and down in Z-direction.

4. a kind of full-automatic biological chips detection system according to claim 1, it is characterized in that the cleaning head in the described reaction wash module (6) comprises row's fluid injection pin and row's aspirating needle, wherein the fluid injection pin is responsible for injecting washing lotion in the hole toward detecting, and aspirating needle is responsible for the soiling solution that correspondence detects in the hole is absorbed, and the fluid injection pin is shorter than aspirating needle; Fluid injection pin and aspirating needle are arranged side by side, and the distance between the fluid injection pin is 4.5mm, 9mm or 18mm, and the distance between the aspirating needle also is 4.5mm, 9mm or 18mm accordingly.

5. a kind of full-automatic biological chips detection system according to claim 1, it is characterized in that the disposable reagent storage tank (48) in the described reagent storage module (7) is 1～10 elongated slot side by side, elongated slot can be square, circular, V-arrangement, polygon or polygon band fillet.