CN109957505A - Porous sample-adding recorder - Google Patents

Abstract

The invention discloses a kind of porous sample-adding recorder, the porous sample-adding recorder includes microwell plate card slot；The microwell plate card slot includes the first side wall, second sidewall, third side wall and the 4th side wall, and the first side wall is parallel with the third side wall, the second sidewall is parallel with the 4th side wall；The microwell plate card slot includes the first testing agency, and first testing agency is arranged for detecting the sample-adding movement to the first microwell plate.Use porous sample-adding recorder of the invention, testing agency is selected with the microwell plate of different size when sample-adding, in sample-adding, porous sample-adding recorder detects sample-adding movement automatically, and shows on indication mechanism the location information of micropore for being loaded and/or not being loaded, reduction loading errors.

Description

Porous sample-adding recorder

Technical field

The present invention relates to experimental instrument field more particularly to a kind of porous sample-adding recorders.

Background technique

PCR generally uses 96 orifice plates or 384 orifice plates with microwell plate, when carrying out sample-adding operation, since hole is more, very close Collection, the spacing of Kong Yukong is very small, between Kong Yukong without obvious separation mark, so when being loaded with pipettor, often Obscure or omit there is a situation where row or column is loaded, causes experimental result abnormal.Therefore, it needs to operate during sample-adding Personnel's spirit high concentration, significantly increases the stress of staff.

One piece of 96 orifice plate or 384 orifice plates are further encountered in experiment simultaneously and need to add different reaction solutions in different zones Scene, in the case where this irregular sample-adding, this makes automatic sample arm system be difficult to operate, in the case where artificial sample-adding more It is easy to appear fault.

Summary of the invention

The purpose of the present invention is to solve the problems for being easy to malfunction, working efficiency is low during existing sample-adding.

To achieve the above object, the present invention provides a kind of porous sample-adding recorder, the porous sample-adding recorder includes Microwell plate card slot；The microwell plate card slot includes the first side wall, second sidewall, third side wall and the 4th side wall, first side Wall is parallel with the third side wall, the second sidewall is parallel with the 4th side wall；

The microwell plate card slot includes the first testing agency, and it is micro- to first that first testing agency is arranged for detection The sample-adding of orifice plate acts；

Wherein, first testing agency includes: the micropore of first microwell plate that be set to the first side wall and described The corresponding RF transmitter group of column, and, it is set to the infrared receiver group of the third side wall；Be set to institute RF transmitter group corresponding to state second sidewall and first microwell plate micropore row, and, it is set to described The infrared receiver group of four side walls.In use process, it is set to the red of the RF transmitter group transmitting of the first side wall The infrared ray that outside line and the RF transmitter group for being set to the second sidewall emit upright cross on microwell plate, so Infrared signal is arranged at the infrared receiver group of the third side wall respectively and is set to the red of the 4th side wall afterwards Infrared receiver in outer line receiver group receives, and each intersection point respectively corresponds a micropore.

Further, the microwell plate card slot further includes the second testing agency, and second testing agency is arranged for It detects and the sample-adding of the second microwell plate is acted；

Wherein, second testing agency includes: the micropore of second microwell plate that be set to the third side wall and described The corresponding RF transmitter group of column, and, it is set to the infrared receiver group of the first side wall；Be set to institute RF transmitter group corresponding to state the 4th side wall and second microwell plate micropore row, and, it is set to described The infrared receiver group of two side walls.In use process, it is set to the red of the RF transmitter group transmitting of the third side wall The infrared ray that outside line and the RF transmitter group for being set to the 4th side wall emit upright cross on microwell plate, so Infrared signal is arranged at the infrared receiver group of the first side wall respectively and is set to the red of the second sidewall afterwards Infrared receiver in outer line receiver group receives, and each intersection point respectively corresponds a micropore.

Further, the porous sample-adding recorder further includes indication mechanism, and the indication mechanism is arranged for showing The location information of microwell plate micropore.

Further, the porous sample-adding recorder further includes data processing unit, the data processing unit and described Each infrared receiver signal connection in infrared receiver group, and the data processing unit and indication mechanism letter Number connection.When infrared receiver detects the point of intersection infrared ray interruption of cross, infrared ray interrupt signal is transmitted To the data processing unit, the data processing unit judges that the micropore has been loaded and has issued signal to indication mechanism, described Indication mechanism changes the microwell plate micro well locations information of its display according to signal.

Further, the porous sample-adding recorder further includes control mechanism, and the control mechanism is arranged for selecting The first testing agency work or the work of the second testing agency.

Further, the porous sample-adding recorder further includes data storage cell, and the data storage cell is set Process data is loaded for storing.During being loaded using this porous sample-adding recorder, it can generate and be loaded number of passes According to these data include such as the Loading sequence of micropore and/or sample-adding number, these sample-adding process datas can store in institute State data storage cell.

Further, first microwell plate is 96 hole microwell plates.

Further, second microwell plate is 384 hole microwell plates.

Further, VISIBLE LIGHT EMISSION mechanism, the visible light hair are additionally provided on the side wall of the porous sample-adding recorder Penetrating mechanism includes multiple visible light emitters corresponding with micropore row, and the visible light beam of the visible light emitter transmitting passes through micro- The top of hole rows is used to indicate the row；Alternatively, the VISIBLE LIGHT EMISSION mechanism includes multiple and micropore arranges corresponding visible light hair The visible light beam of emitter, the visible light emitter transmitting passes through the top of micropore column, is used to indicate the column.Preferably, described The visible light beam of visible light emitter transmitting passes through the top of micropore row；It, can corresponding to the row when the row is loaded for the first time Light-exposed transmitter, which is triggered and emits visible light, indicates the row, if visible light emitter corresponding to lastrow is working, Visible light emitter corresponding to the lastrow is extinguished simultaneously.

Further, the VISIBLE LIGHT EMISSION mechanism includes the first visible light emitter group and the second visible light emitter Group, the first visible light emitter group are arranged for the row or column of the first microwell plate of instruction；Second VISIBLE LIGHT EMISSION Device group is arranged for the row or column of the second microwell plate of instruction.

Further, the porous sample-adding recorder further includes cold source case, and the cold source case is set to the microwell plate card slot Lower section.

Further, cold source is placed in the cold source case.

Further, the cold source is ice cube.

Further, the cold source box outer wall is made of heat-barrier material.

Technical effect

Using porous sample-adding recorder of the invention, with the one the first detection machine of the microwell plate selection of different size when sample-adding Structure or the second testing agency, in sample-adding, porous sample-adding recorder detects sample-adding movement automatically, and shows on indication mechanism The location information of sample-adding and/or the micropore not being loaded reduces loading errors；It is set below the microwell plate card slot of porous sample-adding recorder There is cold source case, it can be ensured that low temperature environment is in during sample-adding.

It is described further below with reference to technical effect of the attached drawing to design of the invention, specific structure and generation, with It is fully understood from the purpose of the present invention, feature and effect.

Detailed description of the invention

Fig. 1 is the microwell plate notch schematic diagram of a preferred embodiment of the invention, and display 96 orifice plates of cooperation use.

Fig. 2 is the microwell plate notch schematic diagram of a preferred embodiment of the invention, and display 384 orifice plates of cooperation make With.

Fig. 3 is the porous sample-adding recorder structural schematic diagram of a preferred embodiment of the invention.

Fig. 4 is the side structure schematic diagram of the porous sample-adding recorder of a preferred embodiment of the invention.

Specific embodiment

Embodiment 1

As shown in Figure 1, present embodiments providing a kind of porous sample-adding recorder, the porous sample-adding recorder includes micropore Board slot 1；The microwell plate card slot includes the first side wall 11, second sidewall 12, third side wall 13 and the 4th side wall 14, and described One side wall 11 is parallel with the third side wall 13, the second sidewall 12 is parallel with the 4th side wall 14；The microwell plate card slot 1 wraps The first testing agency is included, first testing agency is arranged for detection and adds to the first microwell plate 01 (such as 96 hole microwell plates) Sample movement.

First testing agency includes: the micropore column institute of first microwell plate that be set to the first side wall 11 and described Corresponding RF transmitter group, and, it is set to the infrared receiver group of the third side wall 13；Be set to described RF transmitter group corresponding to the micropore row of second sidewall 12 and described first microwell plate, and, it is set to described The infrared receiver group of four side walls 14.Wherein, RF transmitter group includes multiple RF transmitters 15, each infrared ray Transmitter 15 is corresponding with micropore row or micropore column respectively, and infrared receiver group includes multiple infrared receivers 16, each Infrared receiver 16 is corresponding with micropore row or micropore column respectively.

In use process, it is set to the infrared ray of the RF transmitter group transmitting of the first side wall 11 and is set to institute The infrared ray of the RF transmitter group transmitting of the second sidewall 12 upright cross on microwell plate is stated, then infrared signal It is arranged at the infrared receiver group of the third side wall 13 respectively and is set to the infrared receiver of the 4th side wall 14 Infrared receiver in device group receives, and each intersection point respectively corresponds a micropore.

For example, as shown in Figure 1, when first microwell plate 01 is 96 hole microwell plate, according to 96 orifice-plate microporosity rows and micro- The distribution situation of hole column corresponds to 8 row micropore rows and 8 groups of infrared generators (infraluminescence pipe) and infrared receiver is arranged (infrared receiving tube), corresponds to 12 column micropores column, 12 groups of infrared generators of setting and infrared receiver, and infrared ray cross is handed over Original records signal is formed when fork, forms a net containing 96 infrared ray right-angled intersection points above microwell plate entire in this way Lattice.Emit infrared ray using infrared generator, infrared receiver receives this infrared ray, and is amplified, rectifies formation height Level signal.When there is object to block infrared light, infrared receiver is not received by infrared signal, and amplifier will export low electricity It is flat, while data processing unit records this low level pulse.

In order to match the microwell plate of different model, as shown in Fig. 2, the microwell plate card slot 1 further includes in the present embodiment Two testing agencies, it is dynamic to the sample-adding of the second microwell plate 02 (384 hole microwell plate) that second testing agency is arranged for detection Make；Wherein, second testing agency includes: the micropore column institute of second microwell plate that be set to the third side wall 13 and described Corresponding RF transmitter group, and, it is set to the infrared receiver group of the first side wall 11；Be set to described RF transmitter group corresponding to the micropore row of 4th side wall 14 and described second microwell plate, and, it is set to described The infrared receiver group of two side walls 12.Wherein, RF transmitter group includes multiple RF transmitters 15, each infrared ray Transmitter 15 is corresponding with micropore row or micropore column respectively, and infrared receiver group includes multiple infrared receivers 16, each Infrared receiver 16 is corresponding with micropore row or micropore column respectively.

In use process, it is set to the infrared ray of the RF transmitter group transmitting of the third side wall 13 and is set to institute The infrared ray of the RF transmitter group transmitting of the 4th side wall 14 upright cross on the second microwell plate 02 is stated, it is then infrared Line signal is arranged at the infrared receiver group of the first side wall 11 respectively and is set to the infrared of the second sidewall 12 Infrared receiver in line receiver group receives, and each intersection point respectively corresponds a micropore.

As shown in Fig. 2, being arranged when second microwell plate 02 is 384 hole microwell plate according to 384 orifice-plate microporosity rows and micropore Distribution situation, correspond to 16 row micropore rows and 16 groups of infrared generators and infrared receiver be set, correspond to 24 column micropores Column setting 24 groups of infrared generators and infrared receiver, when infrared ray right-angled intersection, form original records signal, whole in this way A grid containing 384 infrared ray right-angled intersection points is formed above a microwell plate.

As shown in figure 3, the porous sample-adding recorder further includes indication mechanism 2, the indication mechanism 2 is arranged for showing Show the location information of microwell plate micropore.The porous sample-adding recorder further includes data processing unit 3, the data processing unit 3 connect with 16 signal of each infrared receiver in the infrared receiver group, and the data processing unit 3 and described The connection of 2 signal of indication mechanism.When some infrared receiver 16 detects that the point of intersection infrared ray of infrared ray cross interrupts When, infrared ray interrupt signal is passed into the data processing unit 3, the data processing unit 3 judges that the micropore has been loaded And signal is issued to indication mechanism 2, the indication mechanism 2 microwell plate micro well locations that signal changes its display based on the received are believed Breath.Indication mechanism 2 can be display screen (such as liquid crystal display, LED display), or array (one of LED light composition Or the corresponding micropore of multiple LED light).

For example, the point of intersection of the corresponding infrared ray cross of the micropore is red when the suction nozzle of pipettor is inserted into well Outside line signal is blocked, and data processing unit 3 identifies certain a line, the signal interruption of a certain column, indicates that the hole is loaded, data Processing unit 3 sends signal to indication mechanism 2, and the position of corresponding aperture can be lit record on indication mechanism 2, while next Well can be set to flash, and indicate next load position.In addition, indication mechanism 2 can be according to the sample-adding in a certain hole Number shows different colors to be distinguish, for example a certain micropore is loaded shown in red, second sample-adding for the first time and is shown as Green, third time sample-adding are shown as blue；It is repeatedly loaded, display can be recycled.

The porous sample-adding recorder of the embodiment of the present invention further includes control mechanism, and the control mechanism is arranged for selecting The first testing agency work or the work of the second testing agency.

As shown in figure 3, the porous sample-adding recorder of the present embodiment further includes data storage cell 4, the data storage is single Member 4 is arranged for storage sample-adding process data.During being loaded using this porous sample-adding recorder, it can generate and add Sample process data, these data include such as the Loading sequence of micropore and/or sample-adding number, if it is desired, these were loaded Number of passes evidence can store in the data storage cell 4.

In the present embodiment, VISIBLE LIGHT EMISSION mechanism, the visible light are additionally provided on the side wall of the porous sample-adding recorder Trigger mechanism includes multiple visible light emitters corresponding with micropore row, and the visible light beam of the visible light emitter transmitting passes through The top of micropore row is used to indicate the row.In other embodiments, the VISIBLE LIGHT EMISSION mechanism includes multiple and micropore column The visible light beam of corresponding visible light emitter, the visible light emitter transmitting passes through the top of micropore column, is used to indicate this Column.Visible light beam is direct beam, such as laser beam.

In the present embodiment, the visible light beam of the visible light emitter transmitting passes through the top of micropore row；When the row first When secondary sample-adding, visible light emitter corresponding to the row, which is triggered and emits visible light, indicates the row, if corresponding to lastrow Visible light emitter is working, then visible light emitter corresponding to the lastrow is extinguished simultaneously.

In order to cooperate the microwell plate of different size, the VISIBLE LIGHT EMISSION mechanism includes the first visible light emitter group and the Two visible light emitter groups, the first visible light emitter group are arranged for instruction the first microwell plate (such as 96 hole microwell plates) Row or column；The second visible light emitter group be arranged for instruction the second microwell plate (such as 384 hole microwell plates) row or Column.

In use, the visible light emitter of row locating for the hole is triggered when first hole sample-adding of the row, and sending can Light-exposed beam instruction sample-adding row, which opens until the corresponding visible light emitter of next line is opened.

As shown in figure 4, the porous sample-adding recorder of the embodiment of the present invention further includes cold source case 5, the cold source case 5 is set to institute State the lower section of microwell plate card slot 1.Cold source can be placed in the cold source case, to improve low temperature environment.The cold source can be ice Block.5 outer wall of cold source case is made of heat-barrier material.Porous sample-adding recorder provided in this embodiment, cold source case 5 is independently of micro- Orifice plate card slot 1, the sidewall opening of porous sample-adding recorder body, cold source case 5 are passed in and out in a manner of push-and-pull.In other embodiment In, porous sample-adding recorder body bottom opening, cold source case 5 can be embedded in inside porous sample-adding recorder body.Micropore board 1 inner wall of slot, which is equipped with, provides the support arm of support for microwell plate.

Aiming at the problem that present invention encounters during microwell plate sample-adding, a set of porous sample-adding recorder is devised, it is convenient fast Speed, accurate sample-adding.PCR sample-adding generally requires low temperature environment simultaneously, and the porous sample-adding recorder that the present invention designs is using independent cold Source, it is ensured that solution is in low temperature environment during sample-adding.For example, cold source case 5 is designed to drawing and pulling type structure, before needing sample-adding, After cold source case 5 plus water -20 are frozen, cold source case 5 is inserted into porous sample-adding recorder when sample-adding, the low temperature ring of 1h or so can be maintained Border meets the requirement during PCR is loaded for low temperature.

The preferred embodiment of the present invention has been described in detail above.It should be appreciated that those skilled in the art without It needs creative work according to the present invention can conceive and makes many modifications and variations.Therefore, all technologies in the art Personnel are available by logical analysis, reasoning, or a limited experiment on the basis of existing technology under this invention's idea Technical solution, all should be within the scope of protection determined by the claims.

Claims (10)

1. a kind of porous sample-adding recorder, which is characterized in that the porous sample-adding recorder includes microwell plate card slot；The micropore Board slot includes the first side wall, second sidewall, third side wall and the 4th side wall, and the first side wall and the third side wall are flat Capable, the described second sidewall is parallel with the 4th side wall；

The microwell plate card slot includes the first testing agency, and first testing agency is arranged for detection to the first microwell plate Sample-adding movement；

Wherein, first testing agency includes: the micropore column institute of first microwell plate that be set to the first side wall and described Corresponding RF transmitter group, and, it is set to the infrared receiver group of the third side wall；Be set to described RF transmitter group corresponding to the micropore row of two side walls and described first microwell plate, and, it is set to the 4th side The infrared receiver group of wall.

2. porous sample-adding recorder as described in claim 1, which is characterized in that the microwell plate card slot further includes the second detection Mechanism, second testing agency are arranged for detecting the sample-adding movement to the second microwell plate；

Wherein, second testing agency includes: the micropore column institute of second microwell plate that be set to the third side wall and described Corresponding RF transmitter group, and, it is set to the infrared receiver group of the first side wall；Be set to described RF transmitter group corresponding to the micropore row of four side walls and described second microwell plate, and, it is set to described second side The infrared receiver group of wall.

3. porous sample-adding recorder as described in claim 1, which is characterized in that the porous sample-adding recorder further includes display Mechanism, the indication mechanism are arranged for the location information of display microwell plate micropore.

4. porous sample-adding recorder as described in claim 1, which is characterized in that the porous sample-adding recorder further includes data Each infrared receiver signal in processing unit, the data processing unit and the infrared receiver group connects, and The data processing unit is connected with the indication mechanism signal.

5. porous sample-adding recorder as described in claim 1, which is characterized in that the porous sample-adding recorder further includes control Mechanism, the control mechanism are arranged for selecting the first testing agency work or the work of the second testing agency.

6. porous sample-adding recorder as described in claim 1, which is characterized in that the porous sample-adding recorder further includes data Storage unit, the data storage cell are arranged for storage sample-adding process data.

7. porous sample-adding recorder as described in claim 1, it is characterised in that first microwell plate is 96 hole microwell plates；Institute Stating the second microwell plate is 384 hole microwell plates.

8. porous sample-adding recorder as described in claim 1, which is characterized in that on the side wall of the porous sample-adding recorder also Equipped with VISIBLE LIGHT EMISSION mechanism, the VISIBLE LIGHT EMISSION mechanism includes multiple visible light emitters corresponding with micropore row, described The visible light beam of visible light emitter transmitting passes through the top of micropore row, is used to indicate the row；Alternatively, the VISIBLE LIGHT EMISSION machine Structure includes multiple and micropore arranges corresponding visible light emitter, and the visible light beam of the visible light emitter transmitting is arranged across micropore Top, be used to indicate the column；Preferably, the visible light beam of the visible light emitter transmitting passes through the top of micropore row；When When the row is loaded for the first time, visible light emitter corresponding to the row, which is triggered and emits visible light, indicates the row, if lastrow Corresponding visible light emitter is working, then visible light emitter corresponding to the lastrow is extinguished simultaneously.

9. porous sample-adding recorder as claimed in claim 8, which is characterized in that the VISIBLE LIGHT EMISSION mechanism can including first Light-exposed transmitter group and the second visible light emitter group, the first visible light emitter group are arranged for the first micropore of instruction The row or column of plate；The second visible light emitter group is arranged for the row or column of the second microwell plate of instruction.

10. porous sample-adding recorder as described in claim 1, which is characterized in that the porous sample-adding recorder further includes cold Source case, the cold source case are set to the lower section of the microwell plate card slot.