CN205576154U - Press from both sides dress platform - Google Patents

Abstract

The utility model discloses a press from both sides dress platform belongs to the technical scheme in the gene sequencing field, and it includes that the platform base fixes a position the fixed dress frame that presss from both sides with being used for to gene sequencing chip, press from both sides the dress frame with platform base pivot hookup, so that it can turn over to leaving with turning over to press from both sides the dress frame the platform base, a serial communication port, the upper surface of platform base is equipped with and is used for the installation gene sequencing chip's installing zone, install the control by temperature change chip in the installing zone. Because in the installing zone is located to the control by temperature change chip, thus the control by temperature change chip can with gene sequencing chip direct contact for efficiency of heat transfer, the control by temperature change chip has the temperature control accuracy, adjusts rapid characteristics moreover, thus solved prior art temperature control exist lag behind, unsafe problem.

Description

Clamp platform

Technical field

This utility model relates to the parts of a kind of gene sequencing equipment, clamps platform particularly to one.

Background technology

Along with the development of gene sequencing technology, second filial generation high throughput sequencing technologies has been widely used for In each research field, but along with the popularization of application, the weak point of secondary order-checking highlights the most day by day.Such as, Needing library construction, process is not only complicated but also the most long；Need to carry out PCR amplification, easily produce partially Good property, causes the distortion of original gene ratio；Sequencing reading length is shorter, to follow-up sequence assembly and assembling etc. Bioinformatic analysis brings difficulty.Therefore third generation single-molecule sequencing technology is arisen at the historic moment, and it uses single point Sub-reading technology, has higher sensitivity and faster data reading speed, without the need for PCR (Polymerase Chain Reaction) expands, it is ensured that the real information of detection sample, the most further Reduce order-checking cost.Wherein, PCR cries again polymerase chain reaction, and polymerase chain reaction is a kind of using In amplifying the Protocols in Molecular Biology expanding specific DNA fragmentation, it is considered as the special DNA of in vitro Replicating, the maximum feature of PCR, is to be significantly increased by the DNA of trace.

Wherein, above-mentioned third generation single-molecule sequencing technology is applied to need to keep reaction temperature accurate, in existing skill In art, gene sequencing chip is arranged on and clamps on platform, and the bottom clamping platform is provided with heater strip, heater strip Directly do not contact with gene sequencing chip；But owing to the thermal inertia of heater strip is relatively big, the regulation to temperature has There is bigger hysteresis quality, thus bring bad impact for gene sequencing.

Utility model content

The purpose of this utility model is to provide one to clamp platform, inaccurate to solve the control of prior art temperature True problem.

In order to solve above-mentioned technical problem, this utility model provides one and clamps platform, including platform base With for clamping frame to what gene sequencing chip was fixed on the positioning, described in clamp frame and turn with described platform base Axle couple so that described in clamp frame can turn over to turn over from described platform base, the upper table of described platform base Face is provided with the installing zone for installing described gene sequencing chip, is provided with Temperature Controlling Chip in described installing zone.

Preferably, the both sides of described installing zone are equipped with reagent pod apertures, the upper port of described reagent pod apertures For connecting with described gene sequencing chip.

Preferably, described platform base is respectively provided with a rotating shaft platform in the both sides of described installing zone；

The described frame that clamps includes that two clamp limit and limit, a location, described two one end clamping limit respectively with The two ends on limit, described location are vertically connected and connect, and described two other ends clamping limit turn with described rotating shaft platform respectively Axle couples so that described in clamp frame and turn over when described platform base, described in clamp frame and can be centered around described installation The periphery in district.

Preferably, limit, described location is provided with snap close, described base platform with corresponding position, described snap close position Being provided with lock station, described lock station is provided with unblock button；

Described snap close is used for inserting in described lock station, with this realize clamping between frame and base platform sealed fixed Position；

The described frame that clamps is fixed by described unblock button for releasing described lock station.

Preferably, clamp limit described in and can be provided with boss, described boss use towards the surface of described platform base In in embedding described gene sequencing chip, it being positioned.

Preferably, clamp limit described in and described rotating shaft platform connection place is provided with torsion spring, one end of described torsion spring and institute State and clamp that limit abuts, the other end abuts with described rotating shaft platform, with this make described in clamp frame and be maintained at and open shape State.

The beneficial effects of the utility model are as follows:

Temperature Controlling Chip is located in installing zone, so Temperature Controlling Chip directly can contact with gene sequencing chip, adds Fast heat transference efficiency；And Temperature Controlling Chip has temperature precise control, regulates rapid feature, thus solve Prior art of having determined temperature controls to there is problem delayed, inaccurate.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical solution of the utility model, will make required in embodiment below Accompanying drawing be briefly described, it should be apparent that, below describe in accompanying drawing the most of the present utility model Some embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, Other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 be this utility model preferred embodiment provide clamp beating when gene sequencing chip do not installed by platform Open state schematic diagram；

Fig. 2 is the part A enlarged diagram of Fig. 1；

Fig. 3 be this utility model preferred embodiment provide clamp pass when gene sequencing chip do not installed by platform Closed state schematic diagram；

Fig. 4 be this utility model preferred embodiment provide clamp stage+module gene sequencing chip after open View；

Fig. 5 is the closedown clamped after stage+module gene sequencing chip that this utility model preferred embodiment provides View；

Fig. 6 is the diagrammatic side-view cross-sectional schematic diagram clamping platform that this utility model preferred embodiment provides；

Fig. 7 is the gene sequencing chip structure schematic diagram that this utility model preferred embodiment provides.

Reference is as follows:

2, platform is clamped；21, platform base；211, installing zone；212, reagent pod apertures；213, turn Pillow block；214, lock station；215, button is unlocked；22, Temperature Controlling Chip；23, frame is clamped；231, limit is clamped； 232, limit, location；233, snap close；234, boss；24, torsion spring；6, gene sequencing chip；61, fixed Hole, position；62, the first gene sequencing passage；63, the second gene sequencing passage.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, to the skill in this utility model embodiment Art scheme is clearly and completely described.

Knowable to Fig. 1 is to 7, the platform 2 that clamps described in the utility model includes platform base 21 and for right What gene sequencing chip was fixed on the positioning clamps frame 23, described in clamp frame 23 and described platform base 21 turns Axle couple so that described in clamp frame 23 can turn over to turn over from described platform base 21, described platform base The upper surface of 21 is provided with the installing zone 211 for installing described gene sequencing chip, in described installing zone 211 Temperature Controlling Chip 22 is installed.

When clamping frame 23 and turning over from platform base 21, gene sequencing chip just can be arranged on installing zone 211 In, or gene sequencing chip is removed in installing zone 211；When gene sequencing chip is arranged on installing zone After 211, just can turn over clamping frame 23 to platform base 21, with this, gene sequencing chip be carried out folder and consolidate calmly； And the technical program uses Temperature Controlling Chip 22 to control the reaction temperature in gene sequencing chip, its temperature controls Accurately, easy to adjust, this be prior art use electric-heating-wire-heating cannot realize.

Further, as it is shown in figure 1, the both sides of described installing zone 211 are equipped with reagent pod apertures 212, The upper port of described reagent pod apertures 212 is for connecting with described gene sequencing chip.When this utility model should Time on gene sequencer, the lower port of reagent pod apertures 212 is then for connecting with fluid control device.

Further, as it is shown in figure 1, described platform base 21 respectively sets in the both sides of described installing zone 211 There is a rotating shaft platform 213；The described frame 23 that clamps includes that two clamp limit 231 and limit 232, a location, institute State the two ends respectively with limit, described location 232, two one end clamping limit 231 to be vertically connected and connect, described two The other end clamping limit 231 couples with the rotating shaft of described rotating shaft platform 213 respectively so that described in clamp frame 23 turn over to During described platform base 21, described in clamp frame 23 and can be centered around the periphery of described installing zone 211.

Further, as it is shown in figure 1, limit, described location 232 is provided with snap close 233, described base platform Being provided with lock station 214 with corresponding position, described snap close 233 position, described lock station 214 is provided with unblock button 215； Described snap close 233 is used for inserting in described lock station 214, realizes clamping between frame 23 and base platform with this Sealed location；Described unblock button 215 clamps the fixing of frame 23 for releasing described lock station 214 to described.

Further, as shown in figs. 1 and 4, clamping limit 231 described in can be towards described platform base 21 Surface be provided with boss 234, described boss 234 is for positioning it in embedding described gene sequencing chip 6. Wherein, the both sides of the most described gene sequencing chip 6 are equipped with hole 61, location, and described boss 234 is used for To in embedding hole, described location 61, described gene sequencing chip 6 is positioned.

Further, as in figure 2 it is shown, described in clamp limit 231 and be provided with described rotating shaft platform 213 connection place Torsion spring 24, one end of described torsion spring 24 with described clamp limit 231 abut, the other end and described rotating shaft platform 213 Abut, with this make described in clamp frame 23 and be maintained at the state of opening.

As it is shown in figure 1, in normal state, owing to torsion spring 24 persistently exerts a force to clamping limit 231, so folder Frame up and 23 will remain in the state of opening, turn over to platform base 21 if frame 23 now will be clamped, then snap close 233 To embed in lock station 214, so that clamp frame 23 can be centered around the periphery of installing zone 211, and with this shape State keeps fixing, the most as shown in Figure 3；And after pressing unblock button 215, lock station 214 is to snap close 233 Unlock, thus torsion spring 24 again will clamp frame 23 and push away platform base 21, the most just can be surveyed by gene Sequence chip 6 is arranged in installing zone 211, and the state after installation is as shown in Figure 4；Finally, as long as will clamp Frame 23 turns over to platform base 21, makes snap close 233 just will can enter gene sequencing chip 6 in embedding lock station 214 Row is fixing, and wherein, described boss 234 will embed in hole, described location 61, with this further enchancer Sequence testing chip fixing, concrete visible Fig. 5 and Fig. 6, now gene sequencing chip 6, Temperature Controlling Chip 22, flat Platform base 21 and mobile platform 5 will be arranged the most from top to bottom.

It addition, as it is shown in fig. 7, described gene sequencing chip 6 is provided with the first gene sequencing passage 62 and Two gene order-checking passage 63, after gene sequencing chip 6 is arranged on installing zone 211, described first gene is surveyed Sequence passage 62 and the second gene sequencing passage 63 connect and are connected with reagent pod apertures.

The above is preferred implementation of the present utility model, it is noted that general for the art For logical technical staff, on the premise of without departing from this utility model principle, it is also possible to make some improvement and Retouching, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (6)

1. clamp a platform, including platform base with for clamping that gene sequencing chip is fixed on the positioning Frame, described in clamp frame and couple with described platform base rotating shaft so that described in clamp frame can turn over to turn over from institute State platform base, it is characterised in that the upper surface of described platform base is provided with for installing described gene sequencing The installing zone of chip, is provided with Temperature Controlling Chip in described installing zone.

The most according to claim 1 clamp platform, it is characterised in that the both sides of described installing zone are equipped with Reagent pod apertures, the upper port of described reagent pod apertures is for connecting with described gene sequencing chip.

The most according to claim 1 clamp platform, it is characterised in that

Described platform base is respectively provided with a rotating shaft platform in the both sides of described installing zone；

The described frame that clamps includes that two clamp limit and limit, a location, described two one end clamping limit respectively with The two ends on limit, described location are vertically connected and connect, and described two other ends clamping limit turn with described rotating shaft platform respectively Axle couples so that described in clamp frame and turn over when described platform base, described in clamp frame and can be centered around described installation The periphery in district.

The most according to claim 3 clamp platform, it is characterised in that

Limit, described location is provided with snap close, and described base platform is being provided with lock station with corresponding position, described snap close position, Described lock station is provided with unblock button；

Described snap close is used for inserting in described lock station, with this realize clamping between frame and base platform sealed fixed Position；

The described frame that clamps is fixed by described unblock button for releasing described lock station.

The most according to claim 3 clamp platform, it is characterised in that described in clamp limit can be towards described The surface of platform base is provided with boss, and described boss is for positioning it in embedding described gene sequencing chip.

The most according to claim 3 clamp platform, it is characterised in that described in clamp limit and described rotating shaft platform Connection place is provided with torsion spring, with described, one end of described torsion spring clamps that limit abuts, the other end supports with described rotating shaft platform Connect, with this make described in clamp frame and be maintained at the state of opening.