CN211847970U

CN211847970U - Automatic change nucleic acid extraction appearance

Info

Publication number: CN211847970U
Application number: CN201921688171.2U
Authority: CN
Inventors: 侯跃加; 焦章平; 马原; 张金丽; 王颖希; 薛建; 路志勇; 王旭; 苏芹; 薛卢艳; 刘佳骊
Original assignee: Changchun Bokun Biological Technology Co ltd
Current assignee: Changchun Bokun Biological Technology Co ltd
Priority date: 2019-10-10
Filing date: 2019-10-10
Publication date: 2020-11-03
Anticipated expiration: 2029-10-10

Abstract

The utility model provides an automatic nucleic acid extraction instrument, wherein a tray is transversely movably arranged on a base, and long-strip-shaped adsorption grooves, washing holes and elution holes are arranged on the tray at intervals along the transverse direction; the magnetic bar sleeve carrier driving part is connected with the magnetic bar sleeve carrier and used for driving the magnetic bar sleeve carrier to vertically move, the magnetic bars are vertically inserted in the magnetic bar carrier and located right above the magnetic bar sleeves, the magnetic bar carrier driving part is connected with the magnetic bar carrier and used for driving the magnetic bar carrier to vertically move, and the tray driving part is arranged on the base or the support and connected with the tray and used for driving the tray to transversely move. The utility model discloses can realize the elution of bulky sample nucleic acid extraction and small volume, and stable in structure, easy and simple to handle, with low costs, design benefit, the structure is succinct, makes portably.

Description

Automatic change nucleic acid extraction appearance

Technical Field

The utility model relates to a nucleic acid extraction technique, in particular to automatic nucleic acid extraction appearance.

Background

In recent years, precision medical care has received wide attention from various countries. With the vigorous development of the field, dozens of tumor-targeted drugs are put into the market, and tens of millions of tumor patients benefit. Wherein, the purposes of early diagnosis, medication guidance, concomitant treatment and the like can be realized by extracting and detecting tumor free DNA (ctDNA). The content of CtDNA in serum or plasma is very low, and in order to obtain a sufficient test amount, it is generally necessary to extract the CtDNA from a large volume of serum or plasma sample (usually more than 5 ml).

At present, the common extraction method of ctDNA in large-volume plasma is a centrifugal column membrane passing method, which needs repeated membrane passing and centrifugation, needs manual operation in the whole process, is difficult to realize high-flux extraction, and increases risks of cross contamination, unstable result and the like.

An automatic nucleic acid extraction instrument is a preferred scheme for ctDNA extraction in various scientific research institutions, third-party detection companies and the like. However, at present, the extraction of 5-10 ml samples cannot be realized by various nucleic acid extractors on the market at home. For example: the mechanical structure and the operation process of a common 32-flux or 96-flux automatic nucleic acid extractor are both designed by a 96-hole deep-hole plate, the working volume is limited to 1 ml, and the volume of a processed sample is generally 200-400 microliters. Some nucleic acid extractors based on 24-well plate design can reach a working volume of 4mL, the volume of a processed sample is generally 1-2 mL, and the extraction of a large-volume serum or plasma sample (generally more than 5 mL) can not be achieved. Moreover, the nucleic acid extractor based on a 24-well plate cannot realize elution with a small volume at present, and the concentration of the finally obtained ctDNA solution is too low, which is not beneficial to subsequent detection. In addition, some large-scale full-automatic nucleic acid extraction instruments can disperse large-volume samples in a plurality of 24-well plates for synchronous processing by integrating the operation of a liquid-transferring arm, and then transfer the ctDNA-adsorbed magnetic beads to a 96-well plate for washing and elution in an enrichment way by the liquid-transferring operation, thereby realizing the extraction of the large-volume samples and the elution of small volumes. However, such large-scale automated workstations are expensive, complex in program setup, high in failure rate, slow in processing speed, and need to be maintained frequently, which greatly limits the applications thereof.

Because of the huge number of samples in the field, the nucleic acid extractor needs continuous work and has high use intensity. At this point, the durability and stability of the instrument is of paramount importance, directly determining whether a technique can be well applied.

Therefore, it is necessary to provide an automated nucleic acid extractor, which can extract nucleic acid from a large volume sample and elute the nucleic acid from the sample in a small volume, and has a stable structure, simple operation and low cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcomings in the prior art, an object of the utility model is to provide an automatic nucleic acid extraction instrument, it can realize the elution of bulky sample nucleic acid extraction and small volume, and stable in structure, easy and simple to handle, with low costs, be suitable for extensive popularization and application.

Another object of the utility model is to provide an automatic change nucleic acid extraction appearance, its design benefit, the structure is succinct, makes portably, is suitable for extensive popularization and application.

In order to achieve the above object, the utility model discloses an automatic nucleic acid extraction appearance, its characteristics are, including base, tray driver part, support, bar magnet carrier driver part, bar magnet cover carrier and bar magnet cover carrier driver part, wherein:

the tray is transversely movably arranged on the base, and long-strip-shaped adsorption grooves, washing holes and elution holes are arranged on the tray at intervals along the transverse direction;

the bracket is arranged on the base, the magnetic bar carrier driving component and the magnetic bar sleeve carrier driving component are arranged on the bracket, the magnetic bar sleeve is vertically inserted in the magnetic bar sleeve carrier and is positioned right above the long-strip-shaped adsorption groove, the magnetic bar sleeve carrier driving component is connected with the magnetic bar sleeve carrier and is used for driving the magnetic bar sleeve carrier to vertically move so as to enable the magnetic bar sleeve to be inserted into and pulled out of the long-strip-shaped adsorption groove, the magnetic bar is vertically inserted in the magnetic bar carrier and is positioned right above the magnetic bar sleeve, and the magnetic bar carrier driving component is connected with the magnetic bar carrier and is used for driving the magnetic bar carrier to vertically move so as to enable the magnetic bar to be inserted into and pulled out of the magnetic bar sleeve;

the tray driving part is arranged on the base or the bracket and connected with the tray for driving the tray to move transversely so that the washing holes and the elution holes pass through the position right below the magnetic rod sleeve.

Preferably, the number of the washing holes is multiple, and the washing holes are arranged at intervals along the transverse direction.

More preferably, the number of the washing holes is 6.

Preferably, the figure of rectangular shape adsorption tank, the figure of washing hole, the figure of elution hole, the figure of bar magnet with the figure of bar magnet cover is a plurality of, and is a plurality of rectangular shape adsorption tank, a plurality of washing hole, a plurality of elution hole, a plurality of bar magnet and a plurality of bar magnet cover all sets up along vertical interval, and is a plurality of rectangular shape adsorption tank, a plurality of washing hole and a plurality of elution hole one-to-one are followed horizontal interval sets up, and is a plurality of bar magnet and a plurality of bar magnet cover one-to-one sets up from top to bottom, and is a plurality of bar magnet cover and a plurality of rectangular shape adsorption tank one-to-one sets up from top to bottom.

More preferably, the number of the elongated adsorption grooves, the number of the washing holes, the number of the elution holes, the number of the magnetic rods, and the number of the magnetic rod sleeves are 8, 16, or 24.

Preferably, the automatic nucleic acid extractor further comprises an adsorption plate, a washing plate and an elution plate, wherein the adsorption plate, the washing plate and the elution plate are transversely detachably arranged on the tray, and the strip-shaped adsorption groove, the washing hole and the elution hole are respectively arranged in the adsorption plate, the washing plate and the elution plate.

Preferably, the tray driving part includes a driving motor, a vertical belt, a longitudinal transmission shaft, a transverse belt and a roller, wherein:

the driving motor is arranged on the support, a driving shaft of the driving motor is longitudinally arranged, the longitudinal transmission shaft is wound on the base in a longitudinal rotatable mode, the idler wheel is wound on the base in a longitudinal rotatable mode, the vertical belt sleeve is arranged on the driving shaft and the longitudinal transmission shaft is used for driving the longitudinal transmission shaft to wind the longitudinal rotation, the transverse belt sleeve is arranged on the longitudinal transmission shaft and the idler wheel in a transverse transmission shaft driving mode, the idler wheel winds the longitudinal rotation, and the tray is connected with the transverse belt and used for driving the tray to transversely move through the transverse belt.

Preferably, the automatic nucleic acid extractor further comprises a heating and cooling device, wherein the heating and cooling device is arranged on the tray and is matched with the elution holes for heating and cooling the elution holes.

Preferably, the sample processing volume of the strip-shaped adsorption groove is more than 5 ml.

Preferably, the support is an inverted U-shaped support, two support legs of the inverted U-shaped support are arranged on the base, and the tray is located between the two support legs.

The beneficial effects of the utility model mainly lie in:

1. the tray of the automatic nucleic acid extractor of the utility model is transversely movably arranged on the base, and long strip-shaped adsorption grooves, washing holes and elution holes are arranged on the tray along the transverse interval; the bracket is arranged on the base, the magnetic bar carrier driving part and the magnetic bar sleeve carrier driving part are arranged on the bracket, the magnetic bar sleeve is vertically inserted in the magnetic bar carrier and is positioned right above the long-strip-shaped adsorption groove, the magnetic bar sleeve carrier driving part is connected with the magnetic bar carrier for driving the magnetic bar sleeve carrier to vertically move so as to enable the magnetic bar sleeve to be inserted into and pulled out of the long-strip-shaped adsorption groove, the magnetic bar is vertically inserted in the magnetic bar carrier and is positioned right above the magnetic bar sleeve, the magnetic bar carrier driving part is connected with the magnetic bar carrier for driving the magnetic bar carrier to vertically move so as to enable the magnetic bar to be inserted into and pulled out of the magnetic bar sleeve, the tray driving part is arranged on the base or the bracket and is connected with the tray for driving the tray to transversely move so as to enable the washing hole and the elution hole to pass through the right below the magnetic bar sleeve, therefore, the extraction of large-volume sample nucleic acid and the elution, simple operation, low cost and suitability for large-scale popularization and application.

2. The tray of the automatic nucleic acid extractor of the utility model is transversely movably arranged on the base, and long strip-shaped adsorption grooves, washing holes and elution holes are arranged on the tray along the transverse interval; the support is arranged on the base, the magnetic bar carrier driving part and the magnetic bar sleeve carrier driving part are both arranged on the support, the magnetic bar sleeve is vertically inserted into the magnetic bar sleeve carrier and is positioned right above the long-strip-shaped adsorption groove, the magnetic bar sleeve carrier driving part is connected with the magnetic bar sleeve carrier and is used for driving the magnetic bar sleeve carrier to vertically move so as to enable the magnetic bar sleeve to be inserted into and pulled out of the long-strip-shaped adsorption groove, the magnetic bar is vertically inserted into the magnetic bar carrier and is positioned right above the magnetic bar sleeve, the magnetic bar carrier driving part is connected with the magnetic bar carrier and is used for driving the magnetic bar carrier to vertically move so as to enable the magnetic bar to be inserted into and pulled out of the magnetic bar sleeve, the tray driving part is arranged on the base or the support and is connected with the tray and is used for driving the tray to transversely move so as to enable the washing hole and the elution hole to pass through the right below the magnetic bar sleeve.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the appended claims, wherein like reference numerals refer to corresponding parts throughout the several views, and wherein like reference numerals refer to like parts throughout the several views.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the automated nucleic acid extractor of the present invention.

FIG. 2 is a schematic perspective view of the embodiment shown in FIG. 1 with the adsorption plate and the elution plate removed.

FIG. 3 is a schematic perspective view of the embodiment shown in FIG. 1 with the adsorption plate, elution plate, magnetic rods, magnetic rod carrier drive, magnetic rod sleeve carrier, and magnetic rod sleeve carrier drive removed.

Fig. 4 is a perspective view of the adsorption plate of the embodiment shown in fig. 1.

Fig. 5 is a schematic top view of the adsorption plate of the embodiment shown in fig. 1.

FIG. 6 is a schematic perspective front view of a magnetic rod sleeve of the embodiment of FIG. 1 for mixing and stirring.

FIG. 7 is a schematic perspective front view of the magnetic rod and magnetic rod sleeve of the embodiment shown in FIG. 1.

(symbol description)

1, a base; 2, a tray; 3 a tray driving part; 4, supporting the bracket; 5, magnetic rods; 6, a magnetic rod carrier; 7 a magnetic rod carrier driving part; 8, a magnetic rod sleeve; 9, a magnetic rod sleeve carrier; 10, sleeving a carrier driving part with a magnetic rod; 11, a strip-shaped adsorption groove; 12 washing the wells; 13 elution well; 14, an adsorption plate; 15 washing the plate; 16 an elution plate; 17 an adsorption zone; 18 a washing zone; 19 an elution zone; 20 driving a motor; 21 vertical belts; 22 a longitudinal drive shaft; 23 transverse belts; 24 rollers; 25 driving the shaft; 26 magnetic beads.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following embodiments are specifically illustrated in detail.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-5, in an embodiment of the present invention, the automatic nucleic acid extracting apparatus comprises a base 1, a tray 2, a tray driving part 3, a support 4, a magnetic rod 5, a magnetic rod carrier 6, a magnetic rod carrier driving part 7, a magnetic rod sleeve 8, a magnetic rod sleeve carrier 9 and a magnetic rod sleeve carrier driving part 10, wherein:

the tray 2 is transversely (i.e. an x axis in fig. 1-3) movably arranged on the base 1, and strip-shaped adsorption grooves 11, washing holes 12 and elution holes 13 are arranged on the tray 2 at intervals along the transverse direction;

the support 4 is arranged on the base 1, the magnetic rod carrier driving part 7 and the magnetic rod sleeve carrier driving part 10 are both arranged on the support 4, the magnetic rod sleeve 8 is vertically (i.e. z-axis in fig. 2) inserted in the magnetic rod sleeve carrier 9 and is positioned right above the elongated adsorption slot 11, the magnetic rod sleeve carrier driving part 10 is connected with the magnetic rod sleeve carrier 9 and is used for driving the magnetic rod sleeve carrier 9 to vertically move so as to enable the magnetic rod sleeve 8 to be inserted into and pulled out of the elongated adsorption slot 11, the magnetic rod 5 is vertically inserted in the magnetic rod carrier 6 and is positioned right above the magnetic rod sleeve 8, and the magnetic rod carrier driving part 7 is connected with the magnetic rod carrier 6 and is used for driving the magnetic rod carrier 6 to vertically move so as to enable the magnetic rod 5 to be inserted into and pulled out of the magnetic rod sleeve 8;

the tray driving part 3 is disposed on the base 1 or the bracket 4 and connected to the tray 2 for driving the tray 2 to move laterally so that the washing holes 12 and the elution holes 13 pass right under the magnetic rod cover 8.

The number of the washing holes 12 can be determined according to needs, for example, according to experimental requirements, and preferably, the number of the washing holes 12 is plural, and the plural washing holes 12 are arranged at intervals along the transverse direction. For example 6, 12, or even more. Referring to fig. 1, in an embodiment of the present invention, the number of the washing holes 12 is 6. Thus, the numbers here are actually lateral numbers.

The number of the elongated adsorption grooves 11, the number of the washing holes 12, the number of the elution holes 13, the number of the magnetic rods 5, and the number of the magnetic rod sleeves 8 may be determined according to the requirement, for example, the number of samples to be processed may be determined, preferably, the number of the elongated adsorption grooves 11, the number of the washing holes 12, the number of the elution holes 13, the number of the magnetic rods 5, and the number of the magnetic rod sleeves 8 are all plural, a plurality of the elongated adsorption grooves 11, a plurality of the washing holes 12, a plurality of the elution holes 13, a plurality of the magnetic rods 5, and a plurality of the magnetic rod sleeves 8 are all arranged at intervals along the longitudinal direction (i.e., the y axis in fig. 1 to 3), a plurality of the elongated adsorption grooves 11, a plurality of the washing holes 12, and a plurality of the elution holes 13 are arranged at intervals along the transverse direction in a one-to-one correspondence manner, a plurality of the magnetic rods 5 and a plurality of the magnetic rod sleeves 8 are arranged at an up-to-, the plurality of magnetic rod sleeves 8 and the plurality of strip-shaped adsorption grooves 11 are arranged up and down in a one-to-one correspondence manner. More preferably, the number of the elongated adsorption grooves 11, the number of the washing holes 12, the number of the elution holes 13, the number of the magnetic rods 5, and the number of the magnetic rod covers 8 are 8, 16, or 24. Referring to fig. 1, in an embodiment of the present invention, the number of the elongated adsorption grooves 11, the number of the washing holes 12, the number of the elution holes 13, the number of the magnetic rods 5, and the number of the magnetic rod covers 8 are all 24. Thus, the numbers here are actually longitudinal numbers.

In order to make the utility model have wider applicability, preferably, the automatic nucleic acid extractor further comprises an adsorption plate 14, a washing plate 15 and an elution plate 16, the adsorption plate 14, the washing plate 15 and the elution plate 16 are arranged along the transverse detachable manner on the tray 2, the strip-shaped adsorption groove 11, the washing holes 12 and the elution holes 13 are respectively arranged in the adsorption plate 14, the washing plate 15 and the elution plate 16. Referring to fig. 1, 4 and 5, in an embodiment of the present invention, the adsorption plate 14 may be an 8-hole adsorption plate, that is, 8 elongated adsorption grooves 11 are provided, and in case that the total number of the elongated adsorption grooves 11 is 24, 3 adsorption plates 14 may be placed in the longitudinal direction; the washing plate 15 may be a washing plate having 8 longitudinal holes, in which case 3 washing plates 15 may be placed in the longitudinal direction in the case where the total number of the longitudinal holes of the washing holes 12 is 24, and in which case 6 transverse holes of the washing holes 12, the washing plate 15 may be a 48-hole plate having 8 × 6 holes, such as the 48-hole plate disclosed in chinese utility model ZL201821764566.1, and in which case 12 transverse holes of the washing holes 12, the washing plate 15 may be a 96-hole plate having 8 × 12 holes, such as a universal 96-hole plate; the elution plate 16 may be an 8-well elution strip, that is, an elution strip with 8 elution wells 13, such as the elution strip with a cover disclosed in chinese utility model ZL201821764562.3, the bottom of each elution well 13 may have a narrowed design, elution with a minimum elution volume of 30 microliters may be achieved, and in case that the total number of the elution wells 13 is 24, 3 elution plates 16 may be placed in the longitudinal direction.

That is, the tray 2 may be divided into an adsorption zone 17, a washing zone 18, and an elution zone 19, in which the adsorption plate 14, the washing plate 15, and the elution plate 16 are placed, respectively. The width and the interval of the strip-shaped adsorption groove 11 can be consistent with those of a universal 96-pore plate, the length and the height of the strip-shaped adsorption groove 11 determine the working volume, and when the height and the length are consistent with those of the universal 96-pore plate, the total volume of the strip-shaped adsorption groove 11 is about 30 milliliters, the working volume is 20 milliliters, and 5-10 milliliters of samples can be processed. The total volume can be increased by increasing the height of the strip-shaped adsorption groove 11, and thus, the treatment of a larger volume of sample can be realized.

The tray driving part 3 may have any suitable structure, as shown in fig. 1 to 3, and in a specific embodiment of the present invention, the tray driving part 3 includes a driving motor 20, a vertical belt 21, a longitudinal transmission shaft 22, a transverse belt 23 and a roller 24, wherein:

the driving motor 20 is arranged on the support 4, a driving shaft 25 of the driving motor 20 is longitudinally arranged, the longitudinal transmission shaft 22 is arranged on the base 1 in a rotatable mode, the roller 24 is arranged on the base 1 in a rotatable mode, the vertical belt 21 is sleeved on the driving shaft 25 and the longitudinal transmission shaft 22 and used for driving the longitudinal transmission shaft 22 to rotate longitudinally through the driving shaft 25, the transverse belt 23 is arranged on the longitudinal transmission shaft 22 and the roller 24 and used for driving the roller 24 to rotate longitudinally through the longitudinal transmission shaft 22, and the tray 2 is connected with the transverse belt 23 and used for driving the tray 2 to transversely move through the transverse belt 23.

So-called lateral movement, i.e. movement only in the x-axis, has no displacement in both the y-axis and the z-axis. The moving space on the x-axis is at least from one end of the long-strip-shaped adsorption groove 11 far away from the elution hole 13 to the center of the elution hole 13.

In order to avoid the risk that the user does not take out the eluant for a long time, and the eluant that leads to volatilize excessively and lose, nucleic acid heats degradation for a long time etc, in a specific embodiment of the utility model, automatic nucleic acid extraction appearance still includes heating and cooling device (not shown in the figure), heating and cooling device set up on tray 2 and with elution hole 13 cooperation setting is used for heating and cooling elution hole 13.

The heating and cooling device may be any suitable heating and cooling device, and in one embodiment of the present invention, the heating and cooling device is a semiconductor heating plate. The heating elution can be realized by a semiconductor heating plate. After the elution is completed, the semiconductor heating sheet can be cooled and maintained at, for example, 10 degrees or less.

The sample treatment volume of the strip-shaped adsorption tank 11 can be determined as required, in a specific embodiment of the present invention, the sample treatment volume of the strip-shaped adsorption tank 11 is above 5 ml.

The support 4 may have any suitable shape, as shown in fig. 1 to 3, in an embodiment of the present invention, the support 4 is an inverted U-shaped support, two legs of the inverted U-shaped support are disposed on the base 1, and the tray 2 is located between the two legs.

In use, referring to fig. 6 and 7, the magnetic rod sleeve carrier driving part 10 and the magnetic rod carrier driving part 7 can drive the magnetic rod sleeve 8 and the magnetic rod 5 to move up and down on the z-axis, so that the magnetic rod sleeve 8 and the magnetic rod 5 can be combined and separated. When the magnetic rod cover 8 is separated from the magnetic rod 5, the magnetic rod cover 8 is not magnetic, and can be used as a stirring rod to disperse the magnetic beads 26. When the magnetic rod sleeve 8 is combined with the magnetic rod 5, the magnetic rod sleeve 8 is magnetic, and the magnetic beads 26 can be enriched.

The transverse movement of the tray 2, the up-down movement of the magnetic rod 5 and the magnetic rod sleeve 8 can realize the whole nucleic acid extraction process:

1) after the magnetic rod sleeve 8 extends into the strip-shaped adsorption groove 11, the tray 2 moves transversely, so that the magnetic rod sleeve 8 is transversely stirred in the strip-shaped adsorption groove 11, magnetic beads 26 are prompted to be suspended in an adsorption system formed by the sample and the lysate, and the adsorption of DNA in the sample is further realized (fig. 6).

2) When the magnetic rod 5 is inserted into the magnetic rod sleeve 8 and simultaneously extends into the strip-shaped adsorption groove 11, the magnetic beads 26 are enriched on the magnetic rod sleeve 8 along with the transverse movement of the tray 2, and then the enrichment of the magnetic beads 26 is realized (fig. 7).

3) After the magnetic bar 5 and the magnetic bar sleeve 8 completely enrich the magnetic beads 26, the magnetic bar moves upwards to be above the strip-shaped adsorption groove 11, the tray 2 moves transversely, and the washing holes 12 move to be right below the magnetic bar 5 and the magnetic bar sleeve 8. The magnetic rod sleeve 8 extends into the washing hole 12 and vibrates up and down to wash the magnetic beads 26. The magnetic rod sleeve 8 and the magnetic rod 5 simultaneously extend into the washing hole 12 to move up and down, so that the enrichment of the magnetic beads 26 is realized. By repeating this operation, the magnetic beads 26 can be transferred to a plurality of washing wells 12 (if any), and multiple washing can be performed.

4) Tray 2 lateral shifting moves elution hole 13 to bar magnet 5 and bar magnet cover 8 under, and bar magnet cover 8 stretches into the elution strip, shakes from top to bottom, realizes the elution of nucleic acid. The magnetic rod sleeve 8 and the magnetic rod 5 simultaneously extend into the elution strip and move up and down to realize the enrichment of the magnetic beads 26. After the magnetic beads 26 are transferred away, the remaining in the elution strip is the extracted nucleic acid solution.

Therefore, adopt the utility model discloses, following beneficial effect has:

1. the tray moves transversely and the long-strip-shaped adsorption groove is designed, so that the nucleic acid extraction of a large-volume sample is realized. By increasing the height of the strip-shaped adsorption groove, a sample with larger volume can be processed. Calculated according to the height of a common standard 96-well plate, the strip-shaped adsorption tank can process 5-10 ml of blood plasma and serum samples, which is the sample volume required in the fields of tumor early screening, accompanying diagnosis and the like. In this regard, no automation devices are available on the market.

2. The combination of the strip-shaped adsorption groove and the elution hole not only realizes the treatment of large-volume samples, but also can realize the elution of small volume. The concentration of the extracted nucleic acid is realized, and the sensitivity and the data quality of downstream detection can be improved.

3. The tray driving part of the tray is independent of the magnetic rod carrier and the magnetic rod sleeve carrier driving part, and the two parts of driving parts are not related and do not interfere with each other. This design can avoid: when the tray moves transversely with high strength, the tray affects the driving parts of the magnetic rod carrier and the magnetic rod sleeve carrier, such as the positioning accuracy, the movement position accuracy, the accuracy of the relative position of the magnetic rod and the magnetic rod sleeve and the like of the magnetic rod and the magnetic rod sleeve, so that the overall durability and the reliability of the instrument are improved.

4. The utility model discloses a heating and cooling device of nucleic acid extraction appearance configuration can realize the rapid cooling after the elution link. The risks of excessive volatilization loss of the eluent, long-term heating degradation of nucleic acid and the like caused by the fact that a user does not take out the elution strip for a long time are avoided.

5. The utility model discloses an automatic nucleic acid extraction appearance to bulky sample can be applied to many fields, for example, the ctDNA of bulky plasma sample draws, and DNA draws (transgenosis is distinguished) in the edible oil, the extraction of DNA in the skeleton lysate and so on.

Therefore, the utility model discloses utilize the lateral shifting of tray and the design of the rectangular shape adsorption tank of bulky, realized the lateral mixing of bulky sample, reach the purpose of magnetic bead mixing and enrichment, and then realize nucleic acid extraction, solved the current situation that lacks the automatic appearance of drawing that can realize bulky sample processing and little volume elution on the market. The tray driving part is independent of the magnetic rod sleeve carrier and the driving part of the magnetic rod carrier, so that the durability and the stability of the instrument are improved. The three steps of absorption, washing, elution that nucleic acid drawed correspond three kinds of independent consumptive materials, have realized the combination of bulky sample treatment with little volume elution, and independent consumptive material design also provides bigger expansion space for this utility model.

To sum up, the utility model discloses an automatic nucleic acid extraction appearance can realize the elution of bulky sample nucleic acid extraction and small volume, and stable in structure, and easy and simple to handle, and is with low costs, design benefit, and the structure is succinct, makes portably, is suitable for extensive popularization and application.

Therefore, the purpose of the utility model is completely and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments, and the embodiments may be modified without departing from the principles. Therefore, the present invention includes all modifications within the spirit and scope of the appended claims.

Claims

1. An automated nucleic acid extraction apparatus, comprising a base, a tray driving part, a holder, a magnetic rod carrier driving part, a magnetic rod cover carrier, and a magnetic rod cover carrier driving part, wherein:

2. The automated nucleic acid extractor of claim 1, wherein the number of the washing wells is plural, and the washing wells are arranged at intervals in the lateral direction.

3. The automated nucleic acid extractor of claim 2, wherein the number of wash wells is 6.

4. The automated nucleic acid extractor of claim 1, wherein the number of the elongated adsorption grooves, the number of the washing holes, the number of the elution holes, the number of the magnetic rods, and the number of the magnetic rod covers are plural, a plurality of the elongated adsorption grooves, a plurality of the washing holes, a plurality of the elution holes, a plurality of the magnetic rods, and a plurality of the magnetic rod covers are longitudinally spaced apart, a plurality of the elongated adsorption grooves, a plurality of the washing holes, and a plurality of the elution holes are one-to-one arranged along the transverse direction, a plurality of the magnetic rods and a plurality of the magnetic rod covers are one-to-one arranged up-down, and a plurality of the magnetic rod covers and a plurality of the elongated adsorption grooves are one-to-up arranged up-down.

5. The automated nucleic acid extractor of claim 4, wherein the number of the elongated adsorption grooves, the number of the washing wells, the number of the elution wells, the number of the magnetic rods, and the number of the magnetic rod covers are each 8, 16, or 24.

6. The automated nucleic acid extractor of claim 1, further comprising an adsorption plate, a washing plate, and an elution plate, wherein the adsorption plate, the washing plate, and the elution plate are detachably disposed on the tray in the transverse direction, and the elongated adsorption groove, the washing hole, and the elution hole are disposed in the adsorption plate, the washing plate, and the elution plate, respectively.

7. The automated nucleic acid extractor of claim 1, wherein the tray driving means comprises a driving motor, a vertical belt, a longitudinal driving shaft, a transverse belt, and rollers, wherein:

8. The automated nucleic acid extractor of claim 1, further comprising a heating and cooling device disposed on the tray and cooperating with the elution wells for heating and cooling the elution wells.

9. The automated nucleic acid extractor of claim 1, wherein the sample processing volume of the elongated adsorption tank is 5ml or more.

10. The automated nucleic acid extractor of claim 1, wherein the rack is an inverted U-shaped rack, two legs of the inverted U-shaped rack are disposed on the base, and the tray is located between the two legs.