CN203715614U - Closed extraction apparatus for single sample nucleic acid - Google Patents

Abstract

The utility model discloses a closed extraction apparatus for a single sample nucleic acid. The closed extraction apparatus comprises a cabin body with a safety door, wherein the inner top surface of the cabin body is provided with a magnetic bead moving mechanism, the inner bottom surface of the cabin body is provided with test tube groups, accommodating tubes are processed on the test tube groups, magnetic bar protective jackets are accommodated in the accommodating tubes, and fans and exhaust vents for discharging air to the outside are arranged on the side wall of the cabin body; the magnetic bar protective sleeves are provided with clipping holes; the inner top surface of the cabin body is also provided with a test tube cover moving mechanism and the center axis of the magnetic bars in the magnetic bead moving mechanism, the center axis of a mechanical arm for opening test tube covers in the test tube cover moving mechanism and the center axis of test tubes in the test tube groups are located at the same vertical plane. The cross contamination between samples is avoided by virtue of the closed extraction apparatus disclosed by the utility model and the interference between the test tubes is avoided because the test tubes are continued to remain closed after each step is completed, thereby obtaining the extraction result with high quality and high purity and improving the nucleic acid extraction efficiency.

Description

The closed extraction apparatus of a kind of single sample nucleic acid

Technical field

The utility model belongs to nucleic acid extraction field, relates to instrument for extracting nucleic acid, is specifically related to the closed extraction apparatus of a kind of single sample nucleic acid.

Background technology

Acid extraction purifying is almost accompanied by whole molecular biology research process, from initial goal gene, extract the experimentations such as extraction of plasmid PCR product purification or " glue recovery " and gene clone, all be unable to do without nucleic acid extraction purifying, nucleic acid extraction work is the duplication of labour without any technology content substantially.

Nucleic acid extraction purifying is the starting point of molecular biosciences research, so instrument for extracting nucleic acid Application Areas is more extensive, comprises the research of genomics, as animals and plants, microorganism or the DNA of virus or the extraction of RNA; Clinical sample molecular diagnosis, CDC; Animal and veterinary, as avian influenza virus, Pestivirus suis etc.; Legal medical expert's application, comprises the extraction purifying of the DNA such as hair root, cartilage, nail.

The Full automatic instrument for extracting nucleic acid of most all adopts paramagnetic particle method to extract nucleic acid, in leaching process, test tube mouth all opens wide, and be all for multiple sample, to extract the test tube group of design, test tube group is the extraction platform of an opening, on these test tubes in test tube group, test tube cap is not set, easily crossed contamination in nucleic acid extraction process, final extraction result is to be also placed in uncovered test tube.And these extraction equipment volumes are large, and cost is high, and consumable quantity is large.

Summary of the invention

The deficiency existing for prior art, the purpose of this utility model is, provides a kind of single sample nucleic acid closed extraction apparatus, realizes under the condition of sealing single sample is carried out to nucleic acid extraction, and the result of nucleic acid extraction can be retained in the test tube of sealing.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme to be achieved:

The closed extraction apparatus of single sample nucleic acid, comprises the cabin body with relief door, on the body inner top surface of cabin, magnetic bead travel mechanism is installed, and on the body inner bottom surface of cabin, test tube group is installed, and in test tube group, is processed with disposed tubes, is placed with bar magnet protective sleeve in disposed tubes; On described cabin body sidewall, be provided with fan and the ventilation opening of outwards supplying gas; On described bar magnet protective sleeve, be provided with hole clipping;

Described test tube group comprises the test tube of single-row arrangement successively, described test tube comprises the washing test tube in the middle of being arranged on, be arranged on the cracking test tube of washing test tube front end and be arranged on the wash-out test tube that washs test tube rear end, cracking test tube is placed in cracking heat block, wash-out test tube is placed in wash-out heat block, and cracking heat block and wash-out heat block are all fixed on Ti Nei bottom surface, cabin; The test tube cap that resilient material is made is all installed on each test tube, on test tube cap, is processed with inverted steps blind hole;

Described magnetic bead travel mechanism comprises the first tangential movement motor being arranged on the body end face of cabin, first tangential movement electric machine control pedestal tangential movement on the body end face of cabin, on pedestal, be processed with guide rail, on the pedestal of guide rail one side, be provided with motor, in the rotating shaft of motor, travelling belt is installed, on guide rail, by slide block, linear electric motors pedestal is installed, linear electric motors bearing is connected with travelling belt, and motor drives linear electric motors pedestal to move on guide rail by travelling belt; On described linear electric motors pedestal, be installed with linear electric motors, in the rotating shaft of linear electric motors, be fixed with screw mandrel, on linear electric motors pedestal, be also fixedly installed tail rod, mobile mechanical arm is installed on tail rod, on mobile mechanical arm, be provided with the dop coordinating with hole clipping, be consolidated with screw mandrel flange on mobile mechanical arm, screw mandrel is assemblied in screw mandrel flange, the rotation of linear electric motors drives mobile mechanical arm to move along tail rod, and screw mandrel end is consolidated with bar magnet;

On described cabin body inner top surface, test tube cap travel mechanism is installed, described test tube cap travel mechanism comprises the second tangential movement motor being arranged on the body end face of cabin, second tangential movement electric machine control pedestal tangential movement on the body end face of cabin, on pedestal, be processed with guide rail, on the pedestal of guide rail one side, be provided with motor, in the rotating shaft of motor, travelling belt is installed, on guide rail, by slide block, linear electric motors pedestal is installed, linear electric motors bearing is connected with travelling belt, and motor drives linear electric motors pedestal to move on guide rail by travelling belt; On described linear electric motors pedestal, be installed with linear electric motors, in the rotating shaft of linear electric motors, be fixed with screw mandrel, on linear electric motors pedestal, be also fixedly installed tail rod, button test tube cap mechanical arm is installed on tail rod, on button test tube cap mechanical arm, be consolidated with screw mandrel flange, screw mandrel is assemblied in screw mandrel flange, the rotation of linear electric motors drives button test tube cap mechanical arm to move along tail rod, screw mandrel end is consolidated with out test tube cap mechanical arm, opens and on test tube cap mechanical arm, is provided with the flange matching with inverted steps blind hole on test tube cap;

In bar magnet central axis in described magnetic bead travel mechanism, test tube cap travel mechanism, open test tube central axis in test tube cap mechanical arm central axis and test tube group in same vertical plane.

The utility model also has following technical characterictic:

The number of described washing test tube is more than three or three.

On described wash-out test tube, be provided with reserved thief hole.

Described test tube cap adopts rubber to make.

The utility model compared with prior art, has following technique effect:

The utility model patent compared with prior art, realize in enclosed environment automatization and extracted the process of single sample nucleic acid, avoided crossed contamination between sample and sample, in the middle of leaching process, reduce and contact with air as much as possible, after each step completes, this test tube can be continued to sealing, avoided the interference between test tube and test tube, thereby obtain high quality, highly purified extraction result, improved the extraction efficiency of nucleic acid.The utility model is retained in final extraction result in the test tube of sealing, and reserved thief hole, effectively reduce in leaching process or extract finish after with the contacting of air, thereby obtain highly purified extraction result.DNA and RNA in the samples such as the utility model can rapid extraction animal vegetable tissue, blood, body fluid, bacterium, a criminal corpse or other object for laboratory examination and chemical testing, be widely used in the fields such as medical treatment, Disease Control and Prevention Center, colleges and universities, institute, quality surveillance, reagent company, herding, the administration of justice.

Accompanying drawing explanation

Fig. 1 is one-piece construction schematic diagram of the present utility model.

Fig. 2 is the structural representation of facing of Fig. 1.

The structural representation of Tu3Shi magnetic bead travel mechanism.

Fig. 4 is the broken section structural representation of Fig. 3.

The structural scheme of mechanism of Tu5Shi test tube cap travel mechanism.

Fig. 6 is the A-A complete section structural representation of Fig. 5.

Fig. 7 is the structural representation of test tube group.

Fig. 8 is the structural representation of facing of test tube group.

Fig. 9 is wash-out test tube structural representation.

Figure 10 is the process schematic diagram that obtains bar magnet protective sleeve.

Figure 11 is the process schematic diagram of reset bar magnet protective sleeve.

Figure 12 is the process schematic diagram that obtains test tube cap.

Figure 13 is the process schematic diagram of removing test tube cap.

In figure, the implication of each label is: 1-cabin body, 2-relief door, 3-magnetic bead travel mechanism, 4-test tube cap travel mechanism, 5-test tube group, 6-fan, 7-ventilation opening, 8-pedestal, 9-guide rail, 10-motor, 11-travelling belt, 12-slide block, 13-linear electric motors pedestal, 14-linear electric motors, 15-tail rod, 16-screw mandrel, 17-screw mandrel flange, 18-disposed tubes, 19-bar magnet protective sleeve, 20-hole clipping; (3-1)-the first tangential movement motor, (3-2)-mobile mechanical arm, (3-3)-bar magnet, (3-4)-dop, (4-1)-the second tangential movement motor, (4-2)-button test tube cap mechanical arm, (4-3)-Kai test tube cap mechanical arm, (4-4)-flange, (5-1)-cracking test tube, (5-2)-washing test tube, (5-3)-wash-out test tube, (5-4)-test tube cap, (5-5)-cracking heat block, (5-6)-wash-out heat block, (5-7)-reserved thief hole, (5-8)-inverted steps blind hole.

Below in conjunction with drawings and Examples, particular content of the present utility model is described in more detail.

Embodiment

Below provide specific embodiment of the utility model, it should be noted that the utility model is not limited to following specific embodiment, all equivalents of doing on present techniques scheme basis all fall into protection domain of the present utility model.

Defer to technique scheme, as shown in Figures 1 to 9, the present embodiment provides the closed extraction apparatus of a kind of single sample nucleic acid, comprise the cabin body 1 with relief door 2, on cabin body 1 inner top surface, magnetic bead travel mechanism 3 is installed, on cabin body 1 inner bottom surface, test tube group 5 is installed, in test tube group 5, is processed with disposed tubes 18, in disposed tubes 18, be placed with bar magnet protective sleeve 19; On described cabin body 1 sidewall, be provided with fan 6 and the ventilation opening 7 of outwards supplying gas; On described bar magnet protective sleeve 19, be provided with hole clipping 20;

Described test tube group 5 comprises the test tube of single-row arrangement successively, described test tube comprises the washing test tube 5-2 in the middle of being arranged on, be arranged on the cracking test tube 5-1 of washing test tube 5-2 front end and be arranged on the wash-out test tube 5-3 that washs test tube 5-2 rear end, cracking test tube 5-1 is placed in cracking heat block 5-5, wash-out test tube 5-3 is placed in wash-out heat block 5-6, and cracking heat block 5-5 and wash-out heat block 5-6 are all fixed on the bottom surface in cabin body 1; The test tube cap 5-4 that resilient material is made is all installed on each test tube, on test tube cap 5-4, is processed with inverted steps blind hole 5-8;

Described magnetic bead travel mechanism 3 comprises the first tangential movement motor 3-1 being arranged on cabin body 1 end face, the first tangential movement motor 3-1 controls pedestal 8 tangential movement on cabin body 1 end face, on pedestal 8, be processed with guide rail 9, on the pedestal 8 of guide rail 9 one sides, be provided with motor 10, travelling belt 11 is installed in the rotating shaft of motor 10, on guide rail 9, by slide block 12, linear electric motors pedestal 13 is installed, linear electric motors bearing 13 is connected with travelling belt 11, and motor 10 drives linear electric motors pedestal 13 to move on guide rail 9 by travelling belt 11; On described linear electric motors pedestal 13, be installed with linear electric motors 14, in the rotating shaft of linear electric motors 14, be fixed with screw mandrel 16, on linear electric motors pedestal 13, be also fixedly installed tail rod 15, mobile mechanical arm 3-2 is installed on tail rod 15, on mobile mechanical arm 3-2, be provided with the dop 3-4 coordinating with hole clipping 20, on mobile mechanical arm 3-2, be consolidated with screw mandrel flange 17, screw mandrel 16 is assemblied in screw mandrel flange 17, the rotation of linear electric motors 14 drives mobile mechanical arm 3-2 to move along tail rod 15, and screw mandrel 16 ends are consolidated with bar magnet 3-3;

On described cabin body 1 inner top surface, test tube cap travel mechanism 4 is installed, described test tube cap travel mechanism 4 comprises the second tangential movement motor 4-1 being arranged on cabin body 1 end face, the second tangential movement motor 4-2 controls pedestal 8 tangential movement on cabin body 1 end face, on pedestal 8, be processed with guide rail 9, on the pedestal 8 of guide rail 9 one sides, be provided with motor 10, travelling belt 11 is installed in the rotating shaft of motor 10, on guide rail 9, by slide block 12, linear electric motors pedestal 13 is installed, linear electric motors bearing 13 is connected with travelling belt 11, motor 10 drives linear electric motors pedestal 13 to move on guide rail 9 by travelling belt 11, on described linear electric motors pedestal 13, be installed with linear electric motors 14, in the rotating shaft of linear electric motors 14, be fixed with screw mandrel 16, on linear electric motors pedestal 13, be also fixedly installed tail rod 15, button test tube cap mechanical arm 4-2 is installed on tail rod 15, on button test tube cap mechanical arm 4-2, be consolidated with screw mandrel flange 17, screw mandrel 16 is assemblied in screw mandrel flange 17, the rotation of linear electric motors 14 drives button test tube cap mechanical arm 4-2 to move along tail rod 15, screw mandrel 16 ends are consolidated with out test tube cap mechanical arm 4-3, open and on test tube cap mechanical arm 4-3, be provided with the flange 4-4 matching with inverted steps blind hole 5-8 on test tube cap 5-4,

In bar magnet 3-3 central axis in described magnetic bead travel mechanism 3, test tube cap travel mechanism 4, open test tube central axis in test tube cap mechanical arm 4-3 central axis and test tube group 5 in same vertical plane.

The number of washing test tube 5-2 is more than three or three.

On wash-out test tube 5-3, be provided with reserved thief hole 5-7.

Test tube cap 5-4 adopts rubber to make.

It should be noted that the starting position of magnetic bead travel mechanism 3 and test tube cap travel mechanism 4 is all at the interior side near cracking test tube 5-1 of cabin body 1, the wherein more close cracking test tube of magnetic bead travel mechanism 3 5-1.

Working process of the present utility model is as described below:

Step 1, take out the pre-packaged single part of reagent in test tube group 5, in the reagent in cracking test tube 5-1, also have magnetic bead, open the test tube cap 5-4 on cracking test tube 5-1, in cracking test tube 5-1 according to reagent requirement, add the sample of corresponding measurement, then buckle test tube cap 5-4, by adding excellent test tube group 5, put into cabin body 1, cracking test tube 5-1 is placed on cracking heat block 5-5, it is upper that wash-out test tube 5-3 is placed on wash-out heat block 5-6, and closed safe door 2, opens fan 6.

Step 2, starts cracking process: 5-5 heats according to reagent requirement cracking heat block.

Step 3; obtain bar magnet protective sleeve 19: directly over the disposed tubes 18 moving in test tube group 5 by the first tangential movement motor 3-1Jiang magnetic bead travel mechanism 3; rotation by linear electric motors 14 is down to lowest part by mobile mechanical arm 3-2; motor 10 drives linear electric motors pedestal 13 that mobile mechanical arm 3-2 is declined by travelling belt 11; the dop 3-4 of mobile mechanical arm 3-2 lower end inserts in the hole clipping 20 on bar magnet protective sleeve 19; as shown in figure 10; motor 10 rotates backward and drives mobile mechanical arm 3-2 to rise, and makes bar magnet protective sleeve 19 depart from disposed tubes 18.

Step 4, open the test tube cap 5-4 on cracking test tube 5-1: by the second tangential movement motor 4-1Jiang test tube cap travel mechanism 4 move to cracking test tube 5-1 directly over, rotation by linear electric motors 14 rises to highest point by button test tube cap mechanical arm 4-2, motor 10 drives linear electric motors pedestal 13 that test tube cap mechanical arm 4-3 is declined by travelling belt 11, the flange 4-4 that opens test tube cap mechanical arm 4-3 lower end is inserted into arriving in ladder blind hole 5-8 on test tube cap 5-4, as shown in figure 12, motor 10 rotates backward to drive leaves test tube cap mechanical arm 4-3 rising, make test tube cap 5-4 depart from cracking test tube 5-1, the second tangential movement motor 4-1 drives test tube cap travel mechanism 4 away from the starting position of cracking test tube 5-1Zhi test tube cap travel mechanism 4, as shown in figure 13.

Step 5, absorption magnetic bead: move to directly over cracking test tube 5-1 by the first tangential movement motor 3-1Jiang magnetic bead travel mechanism 3, magnetic bead travel mechanism 3 will move to bar magnet protective sleeve 19 in cracking test tube 5-1, motor 10 rotates and drive bar magnet protective sleeves 19 mix and blend that moves up and down in cracking test tube 5-1, candidate agent, magnetic bead and sample fully mix, after cracking completes, nucleic acid is combined on magnetic bead, rotation by linear electric motors 14 is risen mobile mechanical arm 3-2, drive bar magnet protective sleeve 19 to rise, bar magnet 3-3 drops to bar magnet protective sleeve 19 bottoms with respect to bar magnet protective sleeve 19, motor 10 drives bar magnet 3-3 fast-descending, make bar magnet protective sleeve 19 fast-descendings to the liquid level place in cracking test tube 5-1, then descending at slow speed is to cracking test tube 5-1 bottom, magnetic bead in cracking test tube 5-1 is adsorbed on the bottom of bar magnet protective sleeve 19 completely by bar magnet 3-3, motor 10 drives mobile mechanical arm 3-2 to rise, the first tangential movement motor 3-1Jiang magnetic bead travel mechanism 3 moves to directly over disposed tubes 18.

Step 6, buckle the test tube cap 5-4 on cracking test tube 5-1: by the second tangential movement motor 4-1Jiang test tube cap travel mechanism 4 move to cracking test tube 5-1 directly over, motor 10 drives linear electric motors pedestal 13 that test tube cap mechanical arm 4-3 is declined by travelling belt 11, the test tube cap 5-4 that opens the suspension of test tube cap mechanical arm 4-3 lower end is buckled on cracking test tube 5-1, by the rotation of linear electric motors 14, will detain test tube cap mechanical arm 4-2 declines, button test tube cap mechanical arm 4-2 withstands on test tube cap 5-4, now motor 10 is worked with linear electric motors 14 simultaneously, motor 10 drives button test tube cap mechanical arm 4-2 and opens test tube cap mechanical arm 4-3 and rise simultaneously, and linear electric motors 14 rotate control button test tube cap mechanical arm 4-2 along tail rod 15 declines, the button test tube cap mechanical arm 4-2 lowering speed that the button test tube cap mechanical arm 4-2 lift velocity that motor 10 is controlled is controlled with linear electric motors equates, make to detain test tube cap mechanical arm 4-2 and keep static with respect to cracking test tube 5-1, and open test tube cap mechanical arm 4-3, with respect to cracking test tube 5-1, rise, so just make test tube cap 5-4 be separated from test tube cap mechanical arm 4-3, test tube cap 5-4 is buckled on cracking test tube 5-1, starting position is got back to by test tube cap travel mechanism 4 afterwards.

Step 7; mobile magnetic bead: open the test tube cap 5-4 on washing test tube 5-2 according to the identical method of the process with step 4; magnetic bead travel mechanism 3 move to washing test tube 5-2 directly over; there are the bar magnet protective sleeve 19 of magnetic bead and bar magnet 3-3 together to stretch in the reagent in washing test tube 5-2 absorption; by linear electric motors 14, bar magnet protective sleeve 19 is declined with respect to bar magnet 3-3; magnetic bead loses adsorptive power after away from bar magnet 3-3, all drops on the heating of closing cracking heat block 5-5 in washing test tube 5-2.

Step 8; washing process: the stirring movement up and down by bar magnet protective sleeve 19 in washing test tube 5-2 is washed magnetic bead; washing times requires to carry out according to concrete sample, after having washed, according to the identical method of the process with step 6, buckles test tube cap 5-4 at every turn.

Step 9, elution process: the test tube cap 5-4 that opens wash-out test tube 5-3, magnetic bead is moved to wash-out test tube 5-3, the wash-out heat block 5-6 that requires according to reagent and sample starts heating, nucleic acid is departed from from magnetic bead, stay in the reagent of wash-out test tube 5-3, then by magnetic bead travel mechanism 3, magnetic bead is moved in washing test tube 5-2, wash-out heat block 5-6 closes heating, by test tube cap travel mechanism 4, test tube cap 5-4 is buckled on wash-out test tube 5-3, complete the closed extraction of single sample nucleic acid, the nucleic acid finally extracting is stayed in the wash-out test tube 5-3 of sealing, prevent that external substance from polluting it, on wash-out test tube 5-3, be provided with reserved thief hole 5-7, reserved thief hole 5-7, only needs to reserve thief hole 5-7 and fractures in closed state for conventionally in the time of need to sampling, and can from reserved thief hole 5-7, take out sample.

Step 10, reset bar magnet protective sleeve 19: by and directly over the disposed tubes 18 that tangential movement motor 3-1Jiang magnetic bead travel mechanism 3 moves in test tube group 5, motor 10 drives linear electric motors pedestal 13 that mobile mechanical arm 3-2 is declined by travelling belt 11, bar magnet protective sleeve 19 on mobile mechanical arm 3-2 enters in disposed tubes 18, rotation by linear electric motors 14 is risen mobile mechanical arm 3-2 with respect to bar magnet 3-3, bar magnet 3-3 contacts with bar magnet protective sleeve 19 bottoms, bar magnet protective sleeve 19 is backed down, hole clipping 20 on bar magnet protective sleeve 19 is departed from the dop 3-4 on mobile mechanical arm 3-2, bar magnet protective sleeve 19 falls into disposed tubes 18, as shown in figure 11, starting position is got back to by magnetic bead travel mechanism 3, single sample nucleic acid extraction process completes.

Effect comparison test:

Adopt the closed extraction apparatus of single sample nucleic acid of the present utility model to carry out nucleic acid extraction and common open type instrument for extracting nucleic acid compares, adopt with the test that hockets of batch high density positive sample and negative sample, extracting result increases by real time fluorescent quantitative amplification instrument, test result is as shown in table 1, result shows, the closed extraction apparatus of single sample nucleic acid carries out high density positive sample and negative sample is repeatedly alternately extracted test result, negative sample does not have contaminated situation to occur, and use common open type instrument for extracting nucleic acid, there is the situation of pollution to occur, prove that the nucleic acid that the closed extraction apparatus of single sample nucleic acid of the present utility model extracts can not be subject to the pollution of external environment.

Table 1 alternately extracts test result

Note: in upper table, "-" represents that void value is out tested, test result is normal, if there is value to occur, shows to have pollution and occurs.

Claims (4)

1. the closed extraction apparatus of single sample nucleic acid, comprise the cabin body (1) with relief door (2), on cabin body (1) inner top surface, magnetic bead travel mechanism (3) is installed, on cabin body (1) inner bottom surface, test tube group (5) is installed, in test tube group (5), be processed with disposed tubes (18), in disposed tubes (18), be placed with bar magnet protective sleeve (19); It is characterized in that: on described cabin body (1) sidewall, be provided with fan (6) and the ventilation opening (7) of outwards supplying gas; On described bar magnet protective sleeve (19), be provided with hole clipping (20);

Described test tube group (5) comprises the test tube of single-row arrangement successively, described test tube comprises the washing test tube (5-2) in the middle of being arranged on, be arranged on the cracking test tube (5-1) of washing test tube (5-2) front end and be arranged on the wash-out test tube (5-3) that washs test tube (5-2) rear end, cracking test tube (5-1) is placed in cracking heat block (5-5), wash-out test tube (5-3) is placed in wash-out heat block (5-6), and cracking heat block (5-5) and wash-out heat block (5-6) are all fixed on the bottom surface in cabin body (1); The test tube cap (5-4) that resilient material is made is all installed on each test tube, on test tube cap (5-4), is processed with inverted steps blind hole (5-8);

Described magnetic bead travel mechanism (3) comprises the first tangential movement motor (3-1) being arranged on cabin body (1) end face, the first tangential movement motor (3-1) is controlled pedestal (8) tangential movement on cabin body (1) end face, on pedestal (8), be processed with guide rail (9), on the pedestal (8) of guide rail (9) one sides, be provided with motor (10), travelling belt (11) is installed in the rotating shaft of motor (10), guide rail (9) is upper is provided with linear electric motors pedestal (13) by slide block (12), linear electric motors bearing (13) is connected with travelling belt (11), motor (10) drives linear electric motors pedestals (13) in the upper motion of guide rail (9) by travelling belt (11), on described linear electric motors pedestal (13), be installed with linear electric motors (14), in the rotating shaft of linear electric motors (14), be fixed with screw mandrel (16), on linear electric motors pedestal (13), be also fixedly installed tail rod (15), mobile mechanical arm (3-2) is installed on tail rod (15), on mobile mechanical arm (3-2), be provided with the dop (3-4) coordinating with hole clipping (20), on mobile mechanical arm (3-2), be consolidated with screw mandrel flange (17), screw mandrel (16) is assemblied in screw mandrel flange (17), the rotation of linear electric motors (14) drives mobile mechanical arm (3-2) to move along tail rod (15), screw mandrel (16) end is consolidated with bar magnet (3-3),

On described cabin body (1) inner top surface, test tube cap travel mechanism (4) is installed, described test tube cap travel mechanism (4) comprises the second tangential movement motor (4-1) being arranged on cabin body (1) end face, the second tangential movement motor (4-2) is controlled pedestal (8) tangential movement on cabin body (1) end face, on pedestal (8), be processed with guide rail (9), on the pedestal (8) of guide rail (9) one sides, be provided with motor (10), travelling belt (11) is installed in the rotating shaft of motor (10), guide rail (9) is upper is provided with linear electric motors pedestal (13) by slide block (12), linear electric motors bearing (13) is connected with travelling belt (11), motor (10) drives linear electric motors pedestals (13) in the upper motion of guide rail (9) by travelling belt (11), on described linear electric motors pedestal (13), be installed with linear electric motors (14), in the rotating shaft of linear electric motors (14), be fixed with screw mandrel (16), on linear electric motors pedestal (13), be also fixedly installed tail rod (15), button test tube cap mechanical arm (4-2) is installed on tail rod (15), on button test tube cap mechanical arm (4-2), be consolidated with screw mandrel flange (17), screw mandrel (16) is assemblied in screw mandrel flange (17), the rotation of linear electric motors (14) drives button test tube cap mechanical arm (4-2) to move along tail rod (15), screw mandrel (16) end is consolidated with out test tube cap mechanical arm (4-3), open and on test tube cap mechanical arm (4-3), be provided with the flange (4-4) matching with inverted steps blind hole (5-8) on test tube cap (5-4),

In bar magnet (3-3) central axis in described magnetic bead travel mechanism (3), test tube cap travel mechanism (4), open test tube central axis in test tube cap mechanical arm (4-3) central axis and test tube group (5) in same vertical plane.

2. the closed extraction apparatus of single sample nucleic acid as claimed in claim 1, is characterized in that: the number of described washing test tube (5-2) is more than three or three.

3. the closed extraction apparatus of single sample nucleic acid as claimed in claim 1, is characterized in that: on described wash-out test tube (5-3), be provided with reserved thief hole (5-7).

4. the closed extraction apparatus of single sample nucleic acid as claimed in claim 1, is characterized in that: described test tube cap (5-4) adopts rubber to make.