CN108315212B - 384-hole plate primer transfer device - Google Patents

Abstract

The invention discloses a 384-hole plate primer transferring device which comprises an upper platform, a lower platform and a lifting platform, wherein the lifting platform comprises a 384-hole plate supporting platform and two 96-hole plate supporting platforms, the upper end of the lower platform is provided with a lifting mechanism, the upper end of the lifting mechanism is fixedly connected with the 384-hole plate supporting platform, the upper end of the lower platform is fixedly provided with a sliding rod, the upper end of the sliding rod penetrates through the lifting platform to be fixedly connected with the upper platform, the upper end of the 384-hole plate supporting platform is provided with a 384-hole plate, a 384-hole pressing plate is arranged above the 384-hole plate, each 96-hole plate supporting platform is provided with two 96-hole plates, 96 Kong Yaban, 384 Kong Yaban and 96 Kong Yaban are correspondingly arranged above each 96-hole plate supporting platform, the upper end of each 96-hole pressing plate is provided with 96-hole first pipe connectors, and 384-hole pressing plates are respectively connected with the first pipe connectors through hoses. The 384-hole plate primer transfer device has simple structure and strong practicability, and is suitable for large-scale popularization.

Description

384-hole plate primer transfer device

Technical Field

The invention relates to a primer transfer device, in particular to a 384-well plate primer transfer device.

Background

With the development of biology and the increasing demand for low cost and high throughput of artificially synthesized DNA, large synthetic biology companies in China are now tending to synthesize oligonucleotide chains with a synthesizer with a throughput of 768 for PCR amplification splice assembly into long chain genes. Taking the dr.oligo768 synthesizer imported from the united states as an example, the synthesis throughput is 768 oligonucleotide chains and the final ammonolyzed oligonucleotide chains are in 2 384 well plates. In addition, 384-well PCR apparatus were also 384-well plates, which were all the same size. Because each microwell on 384-well plates is small in size and not suitable for subsequent production experiments, products in 384-well plates are generally packaged in 4 96-well plates and then used for subsequent processing, such as packaging primers in 384-reaction plates in 4 96-well plates and then sequencing by a previous generation sequencer during actual production and test. The common practice of packing the samples in 384 well plates into 4 96 well plates is to use manual sampling, because the size of the micro-holes in 384 well plates is small and the accurate manual packing is very prone to error, although the packing is also performed by using a pipetting workstation, the cost is very high, taking a swiss Tecan pipetting workstation as an example and the standard price of a pipetting workstation is 120 ten thousand RMB, and about 60 minutes are required for packing a 384 well plate into 4 96 well plates. Adding a lot of equipment cost to production and experiment and taking a long time.

Disclosure of Invention

The invention aims to provide a 384-hole plate primer transfer device which has simple structure and strong practicability and is suitable for large-scale popularization.

In order to achieve the above purpose, the present invention provides the following technical solutions:

384 orifice plate primer transfer device, including upper platform, lower platform, lift platform sets up between upper platform and lower platform, lift platform includes 384 orifice plate saddle and two 96 orifice plate saddle, the lower platform upper end is equipped with elevating system, elevating system upper end and 384 orifice plate saddle fixed connection, the lower platform upper end is fixed with the slide bar, the slide bar upper end passes lift platform and upper platform fixed connection, lift platform can reciprocate on the slide bar, 384 orifice plate saddle upper end is equipped with 384 orifice plates, 384 orifice plate top is equipped with 384 Kong Yaban, all be equipped with two 96 orifice plates on every 96 orifice plate saddle, every 96 orifice plate top all corresponds and is equipped with 96 Kong Yaban, 384 Kong Yaban and 96 Kong Yaban all install on the upper platform, every 96 orifice plate upper end all is equipped with 96 coupling one, 384 orifice plate upper end is equipped with 384 coupling two, coupling one and coupling two pass through hose connection respectively.

Preferably, the 384-well plate pallet and the two 96-well plate pallets are of an integrally formed structure.

Preferably, the number of the sliding rods is 4 or more.

Preferably, an argon inlet is formed in the upper end of the 384-hole pressing plate.

Preferably, the two 96-well plate pallets are symmetrically arranged with respect to the 384-well plate pallet.

Preferably, the upper end of the 384-well plate supporting table is provided with a groove for fixing the 384-well plate, and the two 96-well plate supporting tables are respectively provided with a groove for fixing the 96-well plate.

Compared with the prior art, the invention has the beneficial effects that:

the invention has simple structure, convenient operation and extremely low cost, can split the primer in a 384-pore plate into 4 96-pore plates in about 3 minutes, has simple structure and strong practicability, and is suitable for large-scale popularization.

Drawings

FIG. 1 is a front view of a 384-well plate primer transfer device in an embodiment of the present invention;

FIG. 2 is a top view of a 384 well plate primer transfer device in an embodiment of the present invention;

FIG. 3 is a side view of a 384 well plate primer transfer device in an embodiment of the present invention;

in the figure, 1, an upper platform, 2, a lower platform, 3, 384-hole plate pallets, 4, 96-hole plate pallets, 5, a lifting mechanism, 6, a sliding rod, 7, 384-hole plates, 8, 384 Kong Yaban, 9, 96-hole plates, 10, 96 Kong Yaban, 11, a first pipe joint, 12, a second pipe joint, 13, a hose, 14 and an argon inlet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to FIGS. 1-3, a 384-well plate primer transfer device comprises an upper platform 1, a lower platform 2 and a lifting platform, wherein the lifting platform is arranged between the upper platform 1 and the lower platform 2, the lifting platform comprises a 384-well plate supporting platform 3 and two 96-well plate supporting platforms 4, the 384-well plate supporting platform 3 and the two 96-well plate supporting platforms 4 are of an integrated structure, the two 96-well plate supporting platforms 4 are symmetrically arranged about the 384-well plate supporting platform 3, the upper end of the lower platform 2 is provided with a lifting mechanism 5, the lifting mechanism 5 can be an air cylinder, the upper end of the lifting mechanism 5 is fixedly connected with the 384-well plate supporting platform 3, the upper end of the lower platform 2 is fixedly connected with slide bars 6, the number of the slide bars 6 is 4 or more, the upper end of the slide bars 6 passes through the lifting platform to be fixedly connected with the upper platform 1, the lifting platform can move up and down on the slide bars 6, the upper end of a 384-hole plate supporting table is provided with a groove for fixing a 384-hole plate, the 384-hole plate is fixed in the corresponding groove at the upper end of the 384-hole plate supporting table, 384 Kong Yaban is arranged above the 384-hole plate 7, each 96-hole plate supporting table 4 is provided with two 96-hole plates 9, each 96-hole plate supporting table is provided with a groove for fixing a 96-hole plate, each 96-hole plate 9 is correspondingly provided with 96 Kong Yaban 10, 384 Kong Yaban 8 and 96 Kong Yaban 10 which are respectively arranged on the upper platform 1, each 96-hole pressing plate 10 is provided with 96 first pipe joints 11 at the upper end, 384 second pipe joints 12 are arranged at the upper end of the 384-hole pressing plate 8, the first pipe joints 11 and the second pipe joints 12 are respectively connected through hoses 13, and argon inlets 14 are arranged at the upper end of the 384-hole pressing plate 8.

Working principle: firstly, fixing a 384-hole plate 8 filled with a sample in a corresponding groove on a 384-hole plate supporting table 3, fixing 4 empty 96-hole plates 9 in a corresponding groove on the 96-hole plate supporting table 4, and then lifting the lifting platform by a lifting mechanism 5 to enable the upper surface of the 384-hole plate 7 to be tightly pressed and sealed with the lower surface of a 384-hole pressing plate 8, wherein the 96-hole plates 9 and 96 Kong Yaban are closed but not sealed; then argon is introduced into 384 Kong Yaban from an argon inlet 14, air in 384-well plates 7 and 384-well Kong Yaban is discharged from a gap between the 96-well plate 9 and the 96-well pressing plate 10 through a hose 13, and samples in the 384-well plates 7 are split-packed into 4 corresponding 96-well plates 9; after the split charging, the lifting mechanism 5 is lowered to the lowest position to manually take out the empty 384-well plate 7 and 4 96-well plates 9 filled with samples.

The foregoing is merely illustrative and explanatory of the invention, as it is well within the scope of the invention, as it is intended to provide those skilled in the art with various modifications, additions and substitutions to the specific embodiments disclosed and those skilled in the art without departing from the scope of the invention as disclosed in the accompanying claims.

Claims (4)

1.384 well plate primer transfer device, its characterized in that: the lifting platform is arranged between the upper platform and the lower platform, the lifting platform comprises 384-hole plate pallets and two 96-hole plate pallets, the upper end of the lower platform is provided with a lifting mechanism, the upper end of the lifting mechanism is fixedly connected with the 384-hole plate pallets, the upper end of the lower platform is fixedly provided with a sliding rod, the upper end of the sliding rod penetrates through the lifting platform to be fixedly connected with the upper platform, the lifting platform can move up and down on the sliding rod, the upper end of the 384-hole plate pallet is provided with 384-hole plates, 384-Kong Yaban are arranged above the 384-hole plates, each 96-hole plate pallet is provided with two 96-hole plates, 96-Kong Yaban are correspondingly arranged above each 96-hole plate pallet, 384-hole plates Kong Yaban and 96-Kong Yaban are respectively arranged on the upper platform, each 96-hole plate pallet is provided with 96-hole pipe joints I, and 384-hole plate pressing plates are respectively connected with 384-hole pipe joints II through hoses;

the number of the sliding rods is 4 or more than 4;

an argon inlet is formed in the upper end of the 384-hole pressing plate.

2. The 384-well plate primer transfer device of claim 1, wherein: the 384-hole plate supporting table and the two 96-hole plate supporting tables are of an integrated structure.

3. The 384-well plate primer transfer device of claim 1, wherein: the two 96-well plate pallets are symmetrically arranged with respect to the 384-well plate pallet.

4. The 384-well plate primer transfer device of claim 1, wherein: the upper end of the 384-hole plate supporting table is provided with a groove for fixing the 384-hole plate, and the two 96-hole plate supporting tables are respectively provided with a groove for fixing the 96-hole plate.