CN203754725U - Full-automatic fluorescent quantitative gene amplification instrument - Google Patents

Abstract

The utility model discloses a full-automatic fluorescent quantitative gene amplification instrument which is convenient to use, can continuously work and has high working efficiency and detection accuracy. The full-automatic fluorescent quantitative gene amplification instrument comprises a tank, a sample holder distribution device, at least two amplification rooms, a sample holder output room, a sample holder conveying room and a sample holder recycling room, wherein the sample holder distribution device is located in a sample holder distribution room of the tank, the at least two amplification rooms are spaced by non-heat conduction materials, the sample holder conveying room is communicated with the sample holder distribution room, a sample holder conveying channel and a sample holder conveying device are arranged in the sample holder conveying room, a sample holder discharging device is arranged in the sample holder output room, the sample holder conveying device is used for conveying sample holders onto the sample holder distribution device, the sample holder distribution device is used for taking out the detected sample holders from the two amplification rooms and conveying the detected sample holders to the sample holder output room, and then the sample holder discharging device is used for sending the sample holders into the sample holder recycling chamber. The full-automatic fluorescent quantitative gene amplification instrument can be widely applied to the field of gene amplification instruments.

Description

Full-automatic fluorescence quantitative gene extender

Technical field

The utility model relates to a kind of full-automatic fluorescence quantitative gene extender.

Background technology

Polymerase chain reaction (PCR) is the isothermal DNA amplification that the mid-80 grows up.It has special, responsive, the outstanding advantages such as productive rate is high, quick, easy, reproducible, easy automatization; Can in vitro the goal gene that will study or a certain DNA fragment be expanded to 100,000 and even 1,000,000 times within a few hours at one, make naked eyes directly observe and to judge; Can bleed from a hair,, even a cell, amplify enough DNA for analysis and research and detect qualification.The ultimate principle of round pcr is similar to the natural reproduction process of DNA, its specificity depends on the Oligonucleolide primers with the complementation of target sequence two ends, PCR is by sex change--annealing--extends three primitive reaction steps formations: the 1. sex change of template DNA: template DNA is after being heated to 93 DEG C of left and right certain hours, template DNA double-stranded DNA double-stranded or that form through pcr amplification is dissociated, make it to become strand, so that it is combined with primer, for lower whorl reaction is prepared; 2. the annealing (renaturation) of template DNA and primer: template DNA is after heat denatured becomes strand, and temperature is down to 55 DEG C of left and right, the complementary sequence pairing combination of primer and template DNA strand; 3. the extension of primer: DNA profiling--primer binding substances is under the effect of TaqDNA polysaccharase, taking dNTP as reaction raw materials, target sequence is template, by base pairing and semiconservative replication principle, three processes are extended in a synthetic new semiconservative replication chain recirculation sex change--annealing--with the complementation of template DNA chain, just can obtain more " semiconservative replication chain ", and this new chain can become again the template of circulation next time.

In prior art, real-time fluorescence quantitative gene extender refers to the probe that adds goal gene in reaction system, in gene amplification process, how many according to the expression amount of target gene, probe can fluoresce, real-time fluorescence quantitative gene extender records gene expression amount by detecting luciferase expression amount, thereby has reached simultaneous quantitative gene expression detection amount, does not need electrophoresis auxiliary.At present, existing gene-amplificative instrament is generally an amplification chamber, 96 orifice plates or 48 orifice plates can be placed in this amplification chamber, advantage is that the size of a sample that can test is large, but need to amplification pipe and specimen holder be put into amplification chamber by manual mode when work, after starting instrument, instrument starts to carry out gene amplification, after having increased, need instrument to quit work, by manual mode, the amplification pipe after amplification and specimen holder are taken out from amplification chamber again, so iterative cycles work, instrument not only can not non-stop run, at the bottom of causing working efficiency, therefore, clinical generally need to be all herbariums batch processing altogether, it is not too convenient to use, and, the gene-amplificative instrament of this 96 orifice plates or 48 AND DEWATERING FOR ORIFICE STRUCTURE, because the core component changing device area of amplification instrument is large, often cause centre and the edge of changing device to have obvious temperature contrast, cause the sample amplification effect of different sites there are differences, it is the position difference of changing device temperature, simultaneously, when fluorescent quantitation due to focal length or also location difference of the difference of fluoroscopic examination time, therefore also location difference of fluorescent quantitation, this species diversity easily has influence on the result of detection and fails to pinpoint a disease in diagnosis or mistaken diagnosis, this just exists certain weak point.

Utility model content

Technical problem to be solved in the utility model is to overcome the deficiencies in the prior art, provide a kind of easy to use, can continuity work and working efficiency is high and detect the high full-automatic fluorescence quantitative gene extender of precision.

The technical scheme that the utility model adopts is: the utility model comprises casing, be positioned at specimen holder distribution device and at least two amplification chambers that separated by thermally conductive material not and the fluorescence detection devices of the specimen holder distribution chamber of described casing, described amplification is indoor is all independently provided with heat lid and temperature cycling device, and described specimen holder distribution device receives after outside specimen holder and to be assigned to according to practical situation that different described amplifications is indoor carries out gene amplification and fluoroscopic examination.

Further, described full-automatic fluorescence quantitative gene extender also comprises that the specimen holder conveying chamber and the specimen holder that communicate with described specimen holder distribution chamber reclaim chamber, specimen holder transfer passage and specimen holder e Foerderanlage are set in described specimen holder conveying chamber, in described specimen holder distribution chamber, be also provided with specimen holder output chamber, the indoor specimen holder discharger that arranges of described specimen holder output, described specimen holder e Foerderanlage is transported to described specimen holder on described specimen holder distribution device, described specimen holder distribution device is delivered to described specimen holder distribution chamber by the described specimen holder after detecting from the indoor taking-up of described amplification, by described specimen holder discharger, described specimen holder being sent into described specimen holder again reclaims indoor.

Further, described specimen holder distribution device is three-dimensional motion parts, described specimen holder distribution device comprises horizontal driving motor, cross lead screw, lateral shaft bearing, sliding platform, longitudinally driving motor, longitudinally screw mandrel, longitudinal axes bearing, wiping action piece and lifting hydraulic cylinder, described horizontal driving motor is connected with described lateral shaft bearing by described cross lead screw, described sliding platform is arranged on described cross lead screw and its thread fit, described sliding platform and described guide rail are slidably matched, described longitudinal driving motor, described longitudinal screw mandrel, described longitudinal axes bearing, described wiping action piece is all arranged on described sliding platform, described longitudinal driving motor is connected with described longitudinal axes bearing by described longitudinal screw mandrel, described wiping action piece is arranged on described longitudinal screw mandrel and its thread fit, and the platform rail on described wiping action piece and described sliding platform is slidably matched, described lifting hydraulic cylinder is arranged on described wiping action piece, described specimen holder comprises interior plate and the outer panel being connected with described interior plate with web plate by transverse slat, on described transverse slat, be provided with multiple amplification pipe putting holes, on described outer panel, be provided with the specimen holder transfer port suitable with the piston rod of described lifting hydraulic cylinder.

Further, on described sliding platform, be also provided with the side shield that is positioned at described longitudinal screw mandrel both sides, two described side shields form middle slot to make way and have the ledge structure that supports described specimen holder, described outer panel is a little more than described interior plate, and the opening of described outer panel and described amplification chamber forms sealing.

Further, described fluorescence detection device is that top is detected or sidepiece detects or floor detection.

Further, described temperature cycling device is semi-conductor heating and cooling device or air type heating and cooling device or compressor-type heating and cooling device.

Further, described temperature cycling device is semi-conductor heating and cooling device, described temperature cycling device comprises the Metal Temperature piece, semiconductor cooler, scatterer, radiator fan and the temperature cycle lifting device that set gradually from top to bottom, is provided with described amplification and manages suitable amplification pipe mating holes on described Metal Temperature piece.

The beneficial effects of the utility model are: because full-automatic fluorescence quantitative gene extender described in the utility model comprises casing, be positioned at specimen holder distribution device and at least two amplification chambers that separated by thermally conductive material not and the fluorescence detection devices of the specimen holder distribution chamber of described casing, indoor heat lid and the temperature cycling device of being all independently provided with of described amplification, described specimen holder distribution device receives after outside specimen holder and to be assigned to according to practical situation that different described amplifications is indoor carries out gene amplification and fluoroscopic examination, by such structure, can carry out the full-automatic material-feeding of specimen holder, in work engineering, without waiting for all herbariums batch processing and easy to use altogether, simultaneously, can be in batches carry out gene amplification and fluoroscopic examination different described amplifications is indoor, importantly, independently the area of temperature cycling device and fluorescence detection device is little, can effectively reduce the otherness of temperature and fluorescence position, so the utility model is easy to use, can continuity work and working efficiency is high and it is high to detect precision.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the sectional view of the utility model amplification chamber;

Fig. 3 is the structural representation of the utility model specimen holder distribution device;

Fig. 4 is the structural representation of the utility model specimen holder e Foerderanlage;

Fig. 5 is the structural representation of the utility model specimen holder.

Embodiment

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, shown in Fig. 5, the utility model comprises casing 1, described casing 1 is divided into specimen holder conveying chamber 2, specimen holder distribution chamber 3 and specimen holder reclaim chamber 4, in described specimen holder conveying chamber 2, be provided with specimen holder transfer passage 20 and be positioned at specimen holder cross conveyor 21 and the specimen holder longitudinal conveying device 22 of described specimen holder transfer passage 20, at least two amplification chambers 31 that are provided with specimen holder transport unit 30 in described specimen holder distribution chamber 3 and separated by thermally conductive material not and fluorescence detection devices, described fluorescence detection device is for detection by quantitative sample real-time fluorescence intensity, described fluorescence detection device comprise excitation light source and with the suitable detector of described excitation light source, described excitation light source can be to be halogen tungsten lamp light source or Argon ion laser or LED source, described excitation light source can be arranged in described casing 1 as required, described detector is CCD detector or PMT detector, described detector can be top detection mode or sidepiece detection mode or floor detection mode, in the present embodiment, adopt the mode of top scanning to describe, between described specimen holder distribution chamber 3 and described specimen holder conveying chamber 2, be also provided with distribution chamber injection port 39, described specimen holder distribution chamber 3 and described specimen holder reclaim between chamber 4 and are provided with specimen holder outlet 40, described distribution chamber injection port 39 and described specimen holder outlet 40 also can arrange gate as required, so that described specimen holder distribution chamber 3 is sealed, the quantity of described amplification chamber 31 is according to practical situation setting, in the utility model, be provided with 10 described amplification chambers 31, in described amplification chamber 31, be provided with for amplification pipe being applied to the heat that constant temperature and pressure guaranteed reagent,G.R. that preheating 105 spends do not evaporated and cover, for ensureing the temperature cycling device of whole amplification procedure continuous circulation work at sex change/annealing/three kinds of different temperature such as extension, described temperature cycling device can be semi-conductor heating and cooling device or air type heating and cooling device or compressor-type heating and cooling device, in the utility model, preferably adopt semi-conductor heating and cooling device, described temperature cycling device comprises the Metal Temperature piece 32 setting gradually from top to bottom, semiconductor cooler 33, scatterer 34 and radiator fan 35 and temperature cycle lifting device 36, described temperature cycle lifting device 36 is for by described Metal Temperature piece 32, described semiconductor cooler 33, described scatterer 34 and described radiator fan 35 entirety move up and down, on described Metal Temperature piece 32, be provided with and the suitable amplification pipe mating holes 37 of pipe that increases, described specimen holder distribution device 30 is three-dimensional motion parts, described specimen holder distribution device 30 comprises horizontal driving motor 301, cross lead screw 302, lateral shaft bearing 303, sliding platform 304, longitudinally driving motor 305, longitudinally screw mandrel 306, longitudinal axes bearing 307, wiping action piece 308 and lifting hydraulic cylinder 309, described horizontal driving motor 301 is connected with described lateral shaft bearing 303 by described cross lead screw 302, described sliding platform 304 is arranged on described cross lead screw 302 and its thread fit, described sliding platform 304 is slidably matched with the guide rail 310 being arranged in described casing 1, described longitudinal driving motor 305, described longitudinal screw mandrel 306, described longitudinal axes bearing 307, described wiping action piece 308 is all arranged on described sliding platform 304, described longitudinal driving motor 305 is connected with described longitudinal axes bearing 307 by described longitudinal screw mandrel 306, described wiping action piece 308 is arranged on described longitudinal screw mandrel 306 and its thread fit, and described wiping action piece 308 is slidably matched with the platform rail 311 on described sliding platform 304, described lifting hydraulic cylinder 309 is arranged on described wiping action piece 308, described specimen holder 5 is single-column type structure, it comprises interior plate 50 and the outer panel 52 being connected with described interior plate 50 with web plate 55 by transverse slat 51, on described transverse slat 50, be provided with 2-15 amplification pipe putting hole 53, in the utility model, be provided with 10, it is single-row arranging, on described outer panel 52, be provided with the specimen holder transfer port 54 suitable with the piston rod 312 of described lifting hydraulic cylinder 309, described outer panel 52 is a little more than described interior plate 50, described outer panel 52 forms sealing with the opening of described amplification chamber 31, the hole wall of described amplification pipe putting hole 53 2/5 of the pipe that deeply approximately increases, make described amplification pipe be positioned on described specimen holder 5 rear lower unsettled, guarantee is combined closely with described amplification pipe mating holes 37 after making described specimen holder 5 enter amplification chamber 31.

In actual production, in described casing 1, be also provided with specimen holder output chamber 6, described specimen holder output chamber 6 is provided with specimen holder take-off equipment 60, described specimen holder cross conveyor 21 and described specimen holder longitudinal conveying device 22 and described specimen holder take-off equipment 60 all adopt same structure, it comprises respectively a motor 7, one bearing support 8 and connect the screw mandrel 9 of described motor 7 and described bearing support 8 and be arranged on the pushing block 10 on described screw mandrel 9, be mainly used for the movement of described specimen holder 5, certainly, also can adopt the modes such as chain mode or gear or turbine and worm to carry out transmission, in addition, also can be at described specimen holder transfer passage 20, described distribution chamber injection port 39, the places such as described specimen holder outlet 40 and described amplification chamber 31 arrange several inductor blocks and respond to, coordinate the work of sequence of control to complete whole automated process.

Principle of work of the present utility model is: after instrument starts, described amplification pipe is positioned on described specimen holder 5, described specimen holder 5 is positioned over the sample introduction place 201 of described specimen holder transfer passage 20, sense the described cross conveyor 21 of rear startup by inductor block, described cross conveyor 21 promotes described specimen holder 5 to described specimen holder longitudinal conveying device 22, promote described specimen holder 5 by described specimen holder longitudinal conveying device 22 and pass through described distribution chamber injection port 39 to described specimen holder distribution device 30, the described piston rod 312 of described specimen holder distribution device 30 rises and inserts in described specimen holder transfer port 54, and then described specimen holder 5 is advanced in described amplification chamber 31, after declining, described piston rod 312 discharges described specimen holder 5, when the sensor sensing that is positioned at described amplification chamber 31 is after described specimen holder 5, start described temperature cycle lifting device 36 and described temperature cycling device entirety is up pushed away, after described amplification pipe mating holes 37 is suitable with described amplification pipe, described Metal Temperature piece 32, semiconductor cooler 33, described scatterer 34, described radiator fan 35 and described excitation light source and described detector etc. carry out worked accordingly temperature cycle and fluoroscopic examination, in the time having other described specimen holder 5, described specimen holder distribution device 30 returns described distribution chamber injection port 39 and according to actual needs it is assigned to according to the order of sequence described in another and increases in chamber 31, until complete all transportation works, in the time working together in two adjacent described amplification chambers 31, by the start time of the described temperature cycling device in the described amplification chamber 31 starting after software system control, make described temperature cycling device in two adjacent described amplification chambers 31--annealing--process of extension of synchronously carrying out sex change, after sample amplification completes, described temperature cycling device declines, move to 31 places, corresponding described amplification chamber by described specimen holder distribution device 30, described piston rod 312 rises to insert in described specimen holder transfer port 54 described specimen holder 5 is taken out from described amplification chamber 31, and described specimen holder 5 is pushed in described specimen holder recovery chamber 4 through described specimen holder outlet 40, after declining, described piston rod 312 discharges described specimen holder 5, and described specimen holder distribution device 30 returns original position and carries out next one action.

The utility model can be widely used in gene-amplificative instrament field.

Claims (7)

1. a full-automatic fluorescence quantitative gene extender, it is characterized in that: described full-automatic fluorescence quantitative gene extender comprises casing, be positioned at specimen holder distribution device and at least two amplification chambers that separated by thermally conductive material not and the fluorescence detection devices of the specimen holder distribution chamber of described casing, described amplification is indoor is all independently provided with heat lid and temperature cycling device, and described specimen holder distribution device receives after outside specimen holder and to be assigned to according to practical situation that different described amplifications is indoor carries out gene amplification and fluoroscopic examination.

2. full-automatic fluorescence quantitative gene extender according to claim 1, it is characterized in that: described full-automatic fluorescence quantitative gene extender also comprises that the specimen holder conveying chamber and the specimen holder that communicate with described specimen holder distribution chamber reclaim chamber, specimen holder transfer passage and specimen holder e Foerderanlage are set in described specimen holder conveying chamber, in described specimen holder distribution chamber, be also provided with specimen holder output chamber, the indoor specimen holder discharger that arranges of described specimen holder output, described specimen holder e Foerderanlage is transported to described specimen holder on described specimen holder distribution device, described specimen holder distribution device is delivered to described specimen holder output chamber by the described specimen holder after detecting from the indoor taking-up of described amplification, by described specimen holder discharger, described specimen holder being sent into described specimen holder again reclaims indoor.

3. full-automatic fluorescence quantitative gene extender according to claim 1, it is characterized in that: described specimen holder distribution device is three-dimensional motion parts, described specimen holder distribution device comprises horizontal driving motor, cross lead screw, lateral shaft bearing, sliding platform, longitudinally driving motor, longitudinally screw mandrel, longitudinal axes bearing, wiping action piece and lifting hydraulic cylinder, described horizontal driving motor is connected with described lateral shaft bearing by described cross lead screw, described sliding platform is arranged on described cross lead screw and its thread fit, described sliding platform is slidably matched with the guide rail being arranged in described casing, described longitudinal driving motor, described longitudinal screw mandrel, described longitudinal axes bearing, described wiping action piece is all arranged on described sliding platform, described longitudinal driving motor is connected with described longitudinal axes bearing by described longitudinal screw mandrel, described wiping action piece is arranged on described longitudinal screw mandrel and its thread fit, and the platform rail on described wiping action piece and described sliding platform is slidably matched, described lifting hydraulic cylinder is arranged on described wiping action piece, described specimen holder comprises interior plate and the outer panel being connected with described interior plate with web plate by transverse slat, on described transverse slat, be provided with multiple amplification pipe putting holes, on described outer panel, be provided with the specimen holder transfer port suitable with the piston rod of described lifting hydraulic cylinder.

4. full-automatic fluorescence quantitative gene extender according to claim 3, it is characterized in that: on described sliding platform, be also provided with the side shield that is positioned at described longitudinal screw mandrel both sides, two described side shields form middle slot to make way and have the ledge structure that supports described specimen holder, described outer panel is a little more than described interior plate, and the opening of described outer panel and described amplification chamber forms sealing.

5. full-automatic fluorescence quantitative gene extender according to claim 1, is characterized in that: described fluorescence detection device is that top is detected or sidepiece detects or floor detection.

6. according to the full-automatic fluorescence quantitative gene extender described in claim 1-5 any one, it is characterized in that: described temperature cycling device is semi-conductor heating and cooling device or air type heating and cooling device or compressor-type heating and cooling device.

7. full-automatic fluorescence quantitative gene extender according to claim 6, it is characterized in that: described temperature cycling device is semi-conductor heating and cooling device, described temperature cycling device comprises Metal Temperature piece, semiconductor cooler, scatterer and the radiator fan and the temperature cycle lifting device that set gradually from top to bottom, is provided with and the suitable amplification pipe mating holes of pipe that increases on described Metal Temperature piece.