Full-automatic DNA sequencer

Abstract

The invention relates to the field of DNA sequencers, in particular to a full-automatic DNA sequencer. The sequencer comprises a sequencer main body, supporting legs are fixedly connected to the fourcorners of the lower end of the sequencer main body, a bottom plate is fixedly connected between the supporting legs, a partition plate is fixedly connected to the middle of the upper end of the bottom plate, the upper end of the partition plate is fixedly connected to the lower end of the sequencer main body, and extrusion mechanisms are installed on the front and rear portions of the two sides of the partition plate. A moving mechanism and a pressing mechanism are arranged on the two sides of the sequencer main body; the extrusion mechanisms are arranged on two sides of the lower end of thesequencing instrument body; when the sequencer needs short-distance movement, an air cylinder of the pressing mechanism is used for pushing a turning plate of the moving mechanism, rollers mounted onthe turning plate are propped against the ground, so that the sequencer can slide on the ground or a tabletop, a worker can conveniently move the sequencer in a short distance, the turning plate onlyneeds to be pushed back to the original position by using compression springs and insertion rods of the extrusion mechanisms during placement, and the sequencer main body is supported by using the support legs.

Description

technical field [0001] The invention relates to the field of DNA sequencers, in particular to a full-automatic DNA sequencer. Background technique [0002] A DNA sequencer is one of the electronic devices used to detect human DNA, and a fully automatic DNA sequencer is one of the DNA sequencers. [0003] Most of the currently used DNA sequencers have a similar structure. Due to the large size of the DNA sequencer, when the staff moves the DNA sequencer for a short distance, two workers need to lift the DNA sequencer together. During the present invention, the staff needs to lift the DNA sequencer, because the sides of the DNA sequencer are mostly smooth, so they all use their hands to support the lower end of the DNA sequencer, and the DNA sequencer is held up. The hands of the staff generate a large load, and the hands of the staff tend to slide on the lower end of the DNA sequencer when moving, causing the DNA sequencer to fall to the ground and damage it. On the upper e...

AI Technical Summary

Problems solved by technology

[0004] Aiming at the problems in the prior art, the present invention provides a fully automatic DNA sequencer, which solves the problem that most of the currently used DNA sequencers have similar structures. Due to the large size of the DNA sequencer, the staff moves the DNA sequencer in a short distance. At this time, two staff members are required to lift the DNA sequencer together, and the operation process is cumbersome. When moving the present invention for a long distance, the staff needs to lift the DNA sequencer. Since the sides of the DNA sequencer are mostly smooth, they all use hands to lift the DNA sequencer. Support the lower end of the DNA sequencer and lift the DNA sequencer. This process not only creates a large load on the hands of the staff, but also tends to slide on the lower end of the DNA sequencer when moving, causing the DNA sequencer to Falling to the ground, damage occurs, most of the staff stack the wires on the DNA sequencer on the top of the DNA sequencer when moving, the wires will slip off the DNA sequencer during the moving process, dragged on the ground, and it is easy to trip the staff

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