CN208689063U - A kind of sample analysis system - Google Patents

Abstract

The utility model is suitable for a kind of medical diagnostic equipment field, disclose a kind of sample analysis system, including sample transporting apparatus, first sample analyzer and the second sample analyser, the sample transporting apparatus includes the first feeding channel and second feeds channel, the first and second loading buffer area and the first and second unloading buffer area and transmission channel, and transmission channel is at least connected on described first and loads buffer area, the first unloading buffer area and the second loading buffer area.A kind of sample analysis system provided by the utility model, sample can be placed in unified loading attachment by user, and unified loading attachment loads the sample rack of sample to be detected, and the allotment for passing through transmission channel to transmission channel, sample rack can be made to enter corresponding loading buffer area, detection efficiency is high.

Description

A kind of sample analysis system

Technical field

The utility model belongs to a kind of medical diagnostic equipment field more particularly to a kind of sample analysis system.

Background technique

In medical diagnostic field, sample analysis apparatus is used to detect blood equal samples, and sample is generally loaded into sample It on this, is transported with by assembly line, to realize that streamlined detects operation.Multiple analysis instruments are cascaded by assembly line Together, can unified management and scheduling to all samples, to complete efficient sample measurement.

Pipeline-type sample analysis apparatus usually has placement platform and recycling platform in independent sample set, the two are flat Platform would be likely placed at the two sides or ipsilateral of assembly line.Placement platform is located at the side of assembly line, can when user places sample rack Initiative recognition, and start scheduling, sample rack is assigned to by each instrument by outer rail transmission mechanism, carries out analysis measurement.Instrument Front side is additionally provided with independent loading buffer area, and instrument receives placement platform and dispatches the sample rack to come, can be first temporary by sample rack It deposits, waits instrument idle, then start analysis detection, low efficiency.

Utility model content

The purpose of the utility model is to overcome above-mentioned the deficiencies in the prior art, provide a kind of sample analysis system, Detection efficiency is high.

The technical solution of the utility model is: a kind of sample analysis system, including the analysis of sample transporting apparatus, first sample Instrument and the second sample analyser,

The sample transporting apparatus includes:

First feeding channel and second feeding channel, it is described first feeding channel and it is described second feeding channel respectively with institute It states first sample analyzer and the second sample analyser is corresponding, at least one in the first feeding channel and the second feeding channel A is bi-directionally transmitted channel, and the bi-directionally transmitted channel is used to the sample rack detected being reversely sent to corresponding sample analysis Double sampling analysis is carried out at instrument；

First loads buffer area and the first unloading buffer area, and described first loads buffer area and the first unloading buffer area It is corresponding with the first feeding channel respectively；

Second loads buffer area and the second unloading buffer area, and described second loads buffer area and the second unloading buffer area It is corresponding with the second feeding channel respectively；

Transmission channel, for conveying sample rack, the transmission channel is at least connected on described first and loads buffer area, described First unloading buffer area and second loads buffer area；

Unified loading attachment, for storing sample rack and to the transmission channel sample loading frame；

First loader mechanism and the first feel trim actuator, first loader mechanism are used for the sample in the transmission channel Frame is transported to the first loading buffer area and for the sample rack of the first loading buffer area storage to be transported to described the One feeding channel；First feel trim actuator is used to the sample rack on first feeding channel being transported to first unloading Buffer area storage；And

Second loader mechanism and the second feel trim actuator, second loader mechanism are used for the sample in the transmission channel Frame is transported to the second loading buffer area and for the sample rack of the second loading buffer area storage to be transported to described the Two feeding channels；Second feel trim actuator is used to the sample rack on second feeding channel being transported to second unloading Buffer area storage.

Optionally, first feel trim actuator is also used to for the sample rack on the first unloading buffer area being transported to described Transmission channel.

Optionally, the transmission channel is at least successively connected on described first and loads buffer area, the first unloading caching Area, second load buffer area and the second unloading buffer area；Second feel trim actuator is also used to will be on the second unloading buffer area Sample rack is transported to the transmission channel.

Optionally, the unified loading attachment is connected to one end of the transmission channel, the other end of the transmission channel It is connected with and uniformly unloads carrying platform；Alternatively, the second unloading buffer area is uniformly to unload carrying platform.

Optionally, the sample transporting apparatus further includes hand sampling device, and the hand sampling device is located at described the One loads between buffer area and the first unloading buffer area and corresponds to first feeding channel, the hand sampling device For closed sampling device.

Optionally, the sample transporting apparatus further includes hand sampling device, and the hand sampling device is located at described the Two load between buffer area and the second unloading buffer area and correspond to second feeding channel, the hand sampling device For open sampling device or closed sampling device.

Optionally, the side of the unified loading attachment or the transmission channel is provided with sample rack information detector, The sample rack information detector is used to obtain the identification information of sample rack and is selected according to identification information by the sample rack Distribution loads buffer area and second to described first and loads buffer area.

Optionally, first loader mechanism includes:

Bracket is used to support first loader mechanism；

It pawls, the sample rack for driving described first to load buffer area storage is slided towards first feeding channel It is dynamic；

It pawls driving device, is arranged on the bracket, for driving described pawl to execute above-mentioned motion process.

Optionally, the driving device of pawling includes:

Level push component, is arranged on the bracket；

It pawls mounting base, is connected with the horizontal push component, the horizontal push component is able to drive described pawl Mounting base carries out horizontal movement；And

Component is supported, described pawl in mounting base is set to；

Wherein, it is described support component and be able to drive described pawl close to sample rack so that described pawl offsets with sample rack Linkage is held, the horizontal push component is able to drive the mounting base of pawling and carries out horizontal movement, and then makes the drive of pawling The sample rack is slided towards first feeding channel on the panel.

Optionally, the closed sampling device includes:

Sample storehouse, the sample storehouse are provided with the accommodating cavity for accommodating sample container；

Translation mechanism, the translation mechanism include sample storehouse mounting seat and driving assembly, and the sample storehouse is mounted on institute It states in sample storehouse mounting seat, the driving end of the driving component is connected with the sample storehouse mounting seat, described in driving Sample storehouse mounting seat is mobile, for driving the sample storehouse in the manual " loaded " position of sample container and the sample analyser It is moved between manual sampling area.

Sample can be placed in unified loading attachment by a kind of sample analysis system provided by the utility model, user, Unified loading attachment loads the sample rack of sample to be detected to transmission channel, and by the allotment of transmission channel, can make sample Frame enters corresponding loading buffer area, and detection efficiency is high.

Detailed description of the invention

In order to illustrate more clearly of the technical scheme in the embodiment of the utility model, will make below to required in embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are merely some embodiments of the present invention, For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings Other attached drawings.

Fig. 1 is the structural schematic diagram of the first embodiment of the utility model sample analysis system；

Fig. 2 is the structural schematic diagram of the third embodiment of the utility model sample analysis system；

Fig. 3 is the structural schematic diagram of the 4th kind of embodiment of the utility model sample analysis system；

Fig. 4 is the perspective view of one embodiment of hand sampling device in the utility model sample analysis system；

Fig. 5 is a kind of structural schematic diagram of embodiment of the first loader mechanism in the utility model sample analysis system；

Fig. 6 is the perspective view of sample transporting apparatus in the utility model sample analysis system

Fig. 7 is the perspective view for the first sample rack (elongated bottle) that the utility model sample analysis system uses；

Fig. 8 is the perspective view for second of sample rack (micro tube) that the utility model sample analysis system uses；

Fig. 9 is the first knot for being loaded into bit detector, first direction identification mechanism in the utility model sample analysis system Structure schematic diagram；

Figure 10 is that station design when the first loader mechanism carries out two-way loading in the utility model sample analysis system is shown It is intended to.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

It should be noted that it can be directly another when element is referred to as " being fixed on " or " being set to " another element On one element or it may be simultaneously present centering elements.When an element is known as " being connected to " another element, it can To be directly to another element or may be simultaneously present centering elements.

It is only each other relatively it should also be noted that, the positional terms such as left and right, upper and lower in the utility model embodiment Concept or be reference with the normal operating condition of product, and should not be regarded as restrictive.

Embodiment one:

As shown in Figure 1, the first embodiment that the utility model sample analysis system provides, including sample transporting apparatus, First sample analyzer 20 and the second sample analyser 30.

First sample analyzer 20 and the second sample analyser 30 can be used for body fluid sample (such as blood etc.) or urine Liquid sample etc. is analyzed.First sample analyzer 20 and the second sample analyser 30 may be the same or different, the first sample This analyzer 20 and the second sample analyser 30 can be blood cell analysis machine, Special Protein Analyzer, glycosylated hemoglobin analysis Instrument, sheet pushing machine, blood type analytical instrument etc., but it is not limited to above-mentioned listed, user may be set according to actual conditions.First sample analysis Be provided with display screen at least one in instrument 20, the second sample analyser 30 or two platforms, make that operator can be convenient from Obtain the operating status of system on display screen, display screen can for can touch-sensitive display screen, operator can also be by can touch-control Formula display screen is instructed to system input control.

The sample transporting apparatus includes: that unified loading attachment 340, first feeds channel 120 and the second feeding channel 130, first buffer area 140 and the first unloading buffer area 180, second loading buffer area 150 and the second unloading buffer area are loaded 210, transmission channel 230, the first loader mechanism 160 and the first feel trim actuator 190, the second loader mechanism 170 and the second unloader Structure 220.First loader mechanism 160 and the first feel trim actuator 190, the second loader mechanism 170 and the second feel trim actuator 220 can be Manipulator mechanism, pusher dog mechanism, mechanism of pawling, magnetic mechanism etc. can move the mechanical mechanism of sample rack.

Wherein, unified loading attachment 340 is used to store sample rack and to 230 sample loading frame of transmission channel, sample rack can It is placed manually by user or is placed on unified loading attachment 340 by devices such as manipulators.Unified loading attachment 340 can be with Sample rack is transferred to transmission channel 230.Sample rack can be transported to corresponding position for conveying sample rack by transmission channel 230 It sets, such as corresponding loading buffer area etc..In the present embodiment, unified loading attachment 340 is connected to the starting of transmission channel 230 End.

First feeding channel 120 and second feeding channel 130 respectively with first sample analyzer 20 and the second sample analysis Instrument 30 is corresponding；First feeding channel 120 can be used for for sample rack being transported to progress sampling analysis at first sample analyzer 20.The Two feeding channels 130 can be used for for sample rack being transported to progress sampling analysis at the second sample analyser 30.

First loading buffer area 140 and the first unloading buffer area 180 are corresponding with the first feeding channel 120 respectively, the first sample This analyzer 20 is located at the side in the first feeding channel 120, and first sample analyzer 20 feeds channel 120 close to first Middle part.First, which loads buffer area 140 and the first unloading buffer area 180, can be located at first other side for feeding channel 120, and first It loads buffer area 140 and the first unloading buffer area 180 is divided into the both ends close to the first feeding channel 120.

First loader mechanism 160 can be used for the sample rack in the transmission channel 230 being transported to described first Buffer area 140 is loaded, the first loader mechanism 160 can also be used to sample rack loading first feeding of the feeding of buffer area 140 from first The one end in channel 120.Under the transport in the first feeding channel 120, sample rack can reach the sampling of first sample analyzer 20 At analysis, sample rack can reach the other end in the first feeding channel 120, at this, sample after first sample analyzer 20 This is transferred to the first unloading buffer area 180 by the first feel trim actuator 190.

Second loading buffer area 150 and the second unloading buffer area 210 are corresponding with the second feeding channel 130 respectively, the second sample This analyzer 30 is located at the side in the second feeding channel 130, and the second sample analyser 30 feeds channel 130 close to second Middle part.Second, which loads buffer area 150 and the second unloading buffer area 210, can be located at second other side for feeding channel 130, and second It loads buffer area 150 and the second unloading buffer area 210 is divided into the both ends close to the second feeding channel 130, second loads caching Area 150 and the second unloading buffer area 210 are located between the second feeding channel 130 and transmission channel 230.

Second loader mechanism 170 can be used for for the sample rack in the transmission channel 230 being transported to described second and load Buffer area 150, the second loader mechanism 170 can be also used for loading buffer area 150 and being sent into second and feed sample rack from second leading to The one end in road 130.Then, under the transport in the second feeding channel 130, sample rack can reach adopting for the second sample analyser 30 At sample analysis, sample rack can reach the other end in the second feeding channel 130 and by second after the second sample analyser 30 Feel trim actuator 220 is transferred to the second unloading buffer area 210.

In the present embodiment, at least one of the first feeding channel 120 and the second feeding channel 130 are bi-directionally transmitted logical Road, bi-directionally transmitted channel can transport sample rack forward or backwards, it should be noted that the forward direction of the present embodiment meaning refers to One feeding channel 120 from first load buffer area 140 to first unloading 180 direction of buffer area transport sample rack, also refer to second into Buffer area 150, which is loaded, from second to channel 130 transports sample rack to the second unloading 210 direction of buffer area.It is reversed then with positive phase Instead.The bi-directionally transmitted channel carries out sampling analysis in addition to can be used for positive send sample rack to corresponding sample analyser, It can be also used for the sample rack that will have been detected and be reversely sent to progress double sampling analysis at corresponding sample analyser.I.e. first Sample rack can be reversely sent to progress double sampling analysis at first sample analyzer 20 by feeding channel 120；Second feeding Sample rack can be reversely sent to progress double sampling analysis at the second sample analyser 30 by channel 130.In the present embodiment, the One feeding channel 120 and the second feeding channel 130 can be set as bi-directionally transmitted channel simultaneously, can also be only logical by the first feeding Road 120 or the second feeding channel 130 are set as bi-directionally transmitted channel.

Transmission channel 230 is at least correspondingly connected to the first loading buffer area 140, first unloading buffer area 180 and the second dress Buffer area 150 is carried, i.e. the one or both ends of transmission channel 230 can also continue to extend to setting position, example according to actual needs It such as extends to the second unloading buffer area 210 or uniformly unloads carrying platform, when being provided with three or three sample above analyzers, The one or both ends of transmission channel 230 are also extend to the corresponding unloading buffer area of other sample analysers, load buffer area Deng.In the present embodiment, transmission channel 230 is sequentially connected to unified loading attachment 340, first and loads the unloading of buffer area 140, first Buffer area 180 and second loads buffer area 150.

In concrete application, first can also be deployed by transmission channel 230 and loads buffer area 140 and the second loading buffer area The quantity of sample rack in 150, the corresponding loader mechanism of the lesser loading buffer area of sample rack quantity is by sample rack from the transmission Channel 230 is transported to corresponding loading buffer area.By loading the sample rack placed in buffer area 140 in two samples to first Deployed between analyzer so that resource can reasonable utilization, improve test and analyze efficiency.Specifically comprise the following steps:

Identification first loads buffer area 140 and second and loads the quantity of sample rack in buffer area 150；

The wherein method that identification loads the quantity of sample rack in buffer area, includes the following steps:

Sensor is set at the both ends for loading buffer area, sensor forms detection zone at the both ends for loading buffer area and is used for Detect sample rack；

The maximum quantity for loading cache bank memories and putting sample rack is calculated according to the distance between two detection zones；

The sample rack in loader mechanism propelling loading buffer area is controlled to one end motion of buffer area is loaded, when sample rack enters When in the detection zone of sensor, sensor issues signal and controls loader mechanism stop motion；

Then controlling loader mechanism again pushes sample rack to another end motion of buffer area is loaded, and delays when sample rack enters loading When depositing in the detection zone of another end sensor in area, sensor issues signal and controls loader mechanism stop motion；

According to the maximum of loader mechanism sample rack in the move distance and loading buffer area between two detection zones Storage quantity is obtained with the quantity for loading current sample rack in buffer area.

It is wherein identifying in each loading buffer area after the quantity of sample rack, if a certain sample rack number loaded in buffer area Relatively fewer or less than setting value is measured, which preferentially can be transferred to the loading for sample rack Buffer area makes the quantity of sample rack in each loading buffer area match with the sampling analysis efficiency of each sample analyser.

Control method used by sample analysis system for the first embodiment the following steps are included:

Unified loading attachment 340 loads the sample rack with sample to be detected to transmission channel 230, and sample rack can be by user It places or is placed on unified loading attachment 340 by devices such as manipulators manually, unified loading attachment 340 again moves sample rack It send to transmission channel 230, sample rack can at least be transported respectively and load the loading of buffer area 140, second through first by transmission channel 230 150 corresponding region of buffer area.First loader mechanism 160 and the second loader mechanism 170 are by sample rack from pair in transmission channel 230 It answers region to be transported to the first loading buffer area 140 and second respectively and loads buffer area 150；

As the first situation, sample rack is when fortune in transmission channel 230 loads 140 corresponding position of buffer area through first, and the Sample rack can be transported to the first loading buffer area 140 from transmission channel 230 by one loader mechanism 160, subsequently into the first sample The analysis process of this analyzer 20.The analysis process of first sample analyzer 20 may include following: the first loader mechanism 160 will Sample rack is transported to first feeding corresponding with first sample analyzer 20 channel 120 from the first loading buffer area 140.First into Sample rack is transported in first sample analyzer 20 to channel 120 and carries out sampling analysis, is carried out through first sample analyzer 20 Sample rack after sampling analysis is transported to the end in the first feeding channel 120, the first feel trim actuator by the first feeding channel 120 Sample rack behind the first feeding channel 120 is transported to the first unloading buffer area 180 by 190.

As second situation, sample rack is when fortune in transmission channel 230 loads 150 corresponding position of buffer area through second, and the Sample rack can be transported to the second loading buffer area 150 from transmission channel 230 by two loader mechanisms 170, subsequently into the second sample The analysis process of this analyzer 30.The analysis process of second sample analyser 30 may include following: the second loader mechanism 170 will Sample rack is transported to the second feeding channel 130 from the second loading buffer area 150, and sample rack is transported to by the second feeding channel 130 Sampling analysis is carried out in second sample analyser 30, the sample rack after the second sample analyser 30 carries out sampling analysis is by second Feeding channel 130 is transported to the end in the second feeding channel 130, and the second feel trim actuator 220 will be behind the second feeding channel 130 Sample rack be transported to the second unloading buffer area 210.

It will of course be understood that ground, when being provided with three or three sample above analyzers, and transmission channel 230 is connected to Corresponding to other sample analysers when loading buffer area, the sample rack into transmission channel 230 can also be transported through other samples Loading buffer area corresponding to analyzer, and can by corresponding loader mechanism by sample rack from transmission channel 230 load to Corresponding loading buffer area, then sample can enter the analysis process of the sample analyser, comprising: corresponding loader mechanism Sample rack is transported to corresponding feeding channel from corresponding loading buffer area, sample rack is transported in corresponding feeding channel It send and carries out sampling analysis into corresponding sample analyser, the sample after corresponding sample analyser carries out sampling analysis Frame is transported to end by corresponding feeding channel, and corresponding feel trim actuator is by the sample behind corresponding feeding channel Frame is transported to corresponding unloading buffer area.

It is to be appreciated that first sample analyzer 20 corresponding first loads the sample rack in buffer area 140, in addition to coming from Outside transmission channel 230, sample rack can also directly be put in such a way that machine is placed automatically or operator places by hand Enter the first loading buffer area 140.

Similarly, the second sample analyser 30 corresponding second loads the sample rack in buffer area 150, in addition to from transmission Outside channel 230, sample rack can also be directly placed into such a way that machine is placed automatically or operator places by hand Two load buffer area 150.

The sample that at least one of the first feeding channel 120 and second feeding channel 130 will also have been detected Frame is reversely sent to progress double sampling analysis at corresponding sample analyser.The first corresponding first sample point in feeding channel 120 Analyzer 20；Second corresponding second sample analyser 30 in feeding channel.

The situation possible as the first in secondary analysis, only sample rack is reversely sent to the by the first feeding channel 120 Double sampling analysis is carried out at one sample analyser 20.That is, when the sample in first feeding channel 120 needs to recheck, The sample rack that first feeding channel 120 will also have been detected reversely is sent to be adopted to progress is secondary at first sample analyzer 20 Sample analysis.

The situation possible as second in secondary analysis, only sample rack is reversely sent to the by the second feeding channel 130 Double sampling analysis is carried out at two sample analysers 30.That is, when the sample in the second channel 120 needs to recheck, it is described The sample rack detected is also reversely sent to progress double sampling point at the second sample analyser 30 by the second feeding channel 130 Analysis.

The situation possible as the third in secondary analysis, the first feeding channel 120 and the second feeding channel 130 respectively will Sample rack is reversely sent to progress double sampling analysis at the first, second sample analyser 20,30.

In concrete application, first can also be deployed by transmission channel 230 and loads buffer area 140 and the second loading buffer area The quantity of sample rack in 150, the corresponding loader mechanism of the lesser loading buffer area of sample rack quantity is by sample rack from the transmission Channel 230 is transported to corresponding loading buffer area.By loading the sample rack placed in buffer area 140 in two samples to first Deployed between analyzer so that resource can reasonable utilization, improve test and analyze efficiency.Specifically comprise the following steps:

Identification first loads buffer area 140 and second and loads the quantity of sample rack in buffer area 150；

The wherein method that identification loads the quantity of sample rack in buffer area, includes the following steps:

Sensor is set at the both ends for loading buffer area, sensor forms detection zone at the both ends for loading buffer area and is used for Detect sample rack；

The maximum quantity for loading cache bank memories and putting sample rack is calculated according to the distance between two detection zones；

The sample rack in loader mechanism propelling loading buffer area is controlled to one end motion of buffer area is loaded, when sample rack enters When in the detection zone of sensor, sensor issues signal and controls loader mechanism stop motion；

Then controlling loader mechanism again pushes sample rack to another end motion of buffer area is loaded, and delays when sample rack enters loading When depositing in the detection zone of another end sensor in area, sensor issues signal and controls loader mechanism stop motion；

According to the maximum of loader mechanism sample rack in the move distance and loading buffer area between two detection zones Storage quantity is obtained with the quantity for loading current sample rack in buffer area.

It is wherein identifying in each loading buffer area after the quantity of sample rack, if a certain sample rack number loaded in buffer area Relatively fewer or less than setting value is measured, which preferentially can be transferred to the loading for sample rack Buffer area makes the quantity of sample rack in each loading buffer area match with the sampling analysis efficiency of each sample analyser.

Embodiment two:

As shown in Figure 1, second of embodiment that the utility model sample analysis system provides, second of embodiment and first The difference of kind embodiment is only that:

First feel trim actuator 190 is also used to for the sample rack on the first unloading buffer area 180 being transported to described Transmission channel 230 allows to enter transmission channel 230 by the sample rack of first sample analyzer 20, and sample rack can continue To sample detecting is carried out in next sample analyser, unified recycling platform can also be entered from transmission channel 230.

Control method used by sample analysis system for second of embodiment is the following steps are included: described first unloads After sample rack behind first feeding channel 120 is transported to the first unloading buffer area 180 by mounted mechanism 190, described the The sample rack of first unloading buffer area 180 is transported to the transmission channel 230 by one feel trim actuator 190.Transmission channel 230 can be with Sample rack is transported to 150 corresponding position of the second loading buffer area, sample rack can also be directly transported to recycling platform.

As the first situation, sample rack can be transported to 150 corresponding position of the second loading buffer area by transmission channel 230, Sample rack in transmission channel 230 can be transferred to the second loading buffer area 150 by the second loader mechanism 170.Into the second dress The sample rack for carrying buffer area 150 can enter the analysis process of the second sample analyser 30.The analysis of second sample analyser 30 Process may include following: sample rack is transported to the second feeding channel from the second loading buffer area 150 by the second loader mechanism 170 130, sample rack is transported in the second sample analyser 30 by the second feeding channel 130 carries out sampling analysis, through the second sample point Analyzer 30 carries out the sample rack after sampling analysis and is transported to the end in the second feeding channel 130 by the second feeding channel 130, and second Sample rack behind the second feeding channel 130 is transported to the second unloading buffer area 210 by feel trim actuator 220.It is to be appreciated that When being provided with three or three sample above analyzers, and transmission channel 230 is also attached to corresponding to other sample analysers When loading buffer area, the sample rack of transmission channel 230 is entered from the corresponding unloading buffer area of any sample analyser, it can be with biography Defeated channel 230 fortune through loading buffer area corresponding to other sample analysers, and can be loaded by corresponding loader mechanism to Corresponding loading buffer area, then sample can enter the analysis process of the sample analyser.

As second situation, the sample rack of the first unloading buffer area 180 is transported to institute by first feel trim actuator 190 Transmission channel 230 is stated, transmission channel 230 will can directly be transported to recycling platform from sample rack, recycle sample in order to unified Frame.It is appreciated that when being provided with three or three sample above analyzers, and transmission channel 230 is also attached to other samples point Corresponding to analyzer when unloading buffer area, the sample of transmission channel 230 is entered from the corresponding unloading buffer area of any sample analyser This, if not needing to carry out sampling analysis, it can be transported to transmission channel 230 and uniformly unload carrying platform (recycling platform), be conducive to system One recycling.

Embodiment three:

As shown in Fig. 2, the third embodiment that the utility model sample analysis system provides, the third embodiment and first The difference of kind embodiment is only that:

The transmission channel 230 is at least successively connected on described first and loads buffer area 140, the first unloading buffer area 180, second buffer area 150 and the second unloading buffer area 190 are loaded；Second feel trim actuator 170 is also used to unload described second Sample rack on buffer area 190 is transported to the transmission channel 230.Sample rack on second unloading buffer area 190 enters transmission Behind channel 230, sample rack can be transported to by transmission channel 230 uniformly unloads carrying platform (recycling platform).

Control method used by sample analysis system for second of embodiment the following steps are included:

Sample rack behind second feeding channel 130 is transported to the second unloading by second feel trim actuator 170 After buffer area 210, the sample rack of the second unloading buffer area 210 is transported to the transmission channel by second feel trim actuator 170 230.Transmission channel 230 will can directly be transported to recycling platform from sample rack, recycle sample rack in order to unified.It can manage Solution, when being provided with three or three sample above analyzers, and transmission channel 230 is connected to corresponding to other sample analysers When unloading buffer area, enter the sample rack of transmission channel 230 from the corresponding unloading buffer area of any sample analyser, if not needing Sampling analysis is carried out, can be transported to transmission channel 230 and uniformly unload carrying platform (recycling platform), be conducive to unified recycling.

As another situation, it is possible to understand that ground, when being provided with three or three sample above analyzers, and transmission channel 230 when being also attached to loading buffer area corresponding to other sample analysers, from the corresponding unloading caching of any sample analyser Area enters the sample rack of transmission channel 230, can transport with transmission channel 230 and cache through loading corresponding to other sample analysers Area, and can be loaded by corresponding loader mechanism to corresponding loading buffer area, then sample can enter the sample analysis The analysis process of instrument.

Example IV:

As shown in figure 3, the 4th kind of embodiment that the utility model sample analysis system provides, the 4th kind of embodiment and third The difference of kind embodiment is only that:

The unified loading attachment 340 is connected to one end of the transmission channel 230, the transmission channel 230 it is another End, which is connected with, uniformly unloads carrying platform 330.Sample rack into transmission channel 230 can be transported to and uniformly unload carrying platform 330, Sample rack is recycled convenient for unified.Each sample analyser and corresponding feeding channel and loading and unloading buffer area can be along transmission channels 230 set gradually, and unify loading attachment 340 and uniformly unload the both ends that carrying platform 330 is set to transmission channel 230, fill from unified Carry set 340 enter transmission channels 230 sample rack correspondence can be transferred to by the corresponding loader mechanism of any sample analyser Buffer area is loaded, the corresponding sample rack unloaded on buffer area of any sample analyser can also be by corresponding sample feel trim actuator It is transferred to and enters transmission channel 230.

Alternatively, the second unloading buffer area 210 (the unloading buffer area near 230 end of transmission channel) can also be used as system One unloads carrying platform 330, and the sample rack capacity of the second unloading buffer area 210 can be greater than or equal to the first unloading buffer area 180 Sample rack capacity；The sample rack capacity of second unloading buffer area 210 can be greater than or equal to the first sample for loading buffer area 140 Frame capacity；The sample rack capacity of second unloading buffer area 210 can be greater than or equal to the sample rack that second loads buffer area 150 and hold Amount.The sample analyzed by first sample analyzer 20, the sample by the analysis of the second sample analyser 30 and by first, the The sample rack of two sample analysers 20,30 analysis can enter the second unloading buffer area 210 (recycling platform), and user can be the It is unified on two unloading buffer areas 210 to take sample rack away.The path of sample rack can refer to as follows:

(1) sample rack first feeds channel after 20 sampling analysis of first sample analyzer, out in the first feeding channel 120 120, buffer area 210 is unloaded into the first unloading buffer area 180, into transmission channel 230, into second.

(2) sample rack second feeds channel after 30 sampling analysis of the second sample analyser, out in the second feeding channel 130 130, into the second unloading buffer area 210.

By the second recycling platform of the unloading buffer area 210 as sample analysis system, sample rack can be with United Dispatching to the Two unloading buffer areas 210 are stored, and the recycling platform that the second unloading buffer area 210 is unified as one is made.

Embodiment five:

During actually detected, when have special sample needs manually complete detection, such as not the sample of bar code, recheck sample Sheet, Trace Blood sample etc. can implement hand sampling by triggering emergency treatment movement.For this purpose, being different from preceding four kinds of embodiments, sample This transporting apparatus further includes first manual sampling device 50.

First manual sampling device 50 corresponds to the first feeding channel 120, first manual sampling device 50 and first sample Analyzer 20 can be divided into the two sides in the first feeding channel 120.First manual sampling device 50 is located at first and loads buffer area 140 and first unload between buffer area 180.

First manual sampling device 50 can closed sampling device.Closed sampling device then has built-in suction needle, Sample is clamped by built-in clamping device and is shaken up by clamping device, built-in suction needle to be held on the sample of clamping device into Row sampling.

The first manual sampling device 50 automatic sampling apparatus corresponding with first sample analyzer 20 can be using same One suction needle, the i.e. suction needle can move between sample position in hand sampling position and automatic inhale, and hand sampling and automatic sample of inhaling are adopted With same path, sample soakage of the same suction needle in hand sampling, when automatic suction sample is equal, therefore need to only carry out primary Calibration, test job, streamline operation and the consistency that can guarantee analysis result.Pass through two roads according to two suction needles Diameter sample introduction need to be calibrated twice and be unfavorable for guaranteeing the consistency of analysis result.

In the present embodiment, as shown in figure 4, first manual sampling device 50 includes sample storehouse 51 and translation mechanism 52, sample Storehouse 51 is provided with the accommodating cavity for accommodating sample container, and translation mechanism 52 includes sample storehouse mounting seat 5206 and driving group Part, sample storehouse 51 are mounted in sample storehouse mounting seat 5206, driving end and 5206 phase of sample storehouse mounting seat of driving assembly Connection, to drive sample storehouse mounting seat 5206 to move horizontally, for driving sample storehouse 51 in the manual " loaded " position of sample container It is moved horizontally between the manual sampling area S of sample analyser.Wherein the manual " loaded " position of sample container is arranged far from sample The side of this analyzer 20 facilitates operator to pick and place sample container.

Control method used by sample analysis system for the 5th kind of embodiment the following steps are included:

When emergency treatment action triggers, the door of closed sampling device is opened in first sample analyzer 20, and operator will Sample to be detected is placed in closed sampling device, and suction needle protrudes into sample to be detected and starts suction sample, first sample analyzer 20 can analyze sample.

Embodiment six:

During actually detected, when have special sample needs manually complete detection, such as not the sample of bar code, recheck sample Sheet, Trace Blood sample etc. can implement hand sampling by triggering emergency treatment movement.For this purpose, the utility model sample analysis system Difference of the 6th kind of embodiment that system provides, the 6th kind of embodiment and first five kind embodiment is only that: sample transporting apparatus also wraps The second manual sampling device 60 is included, the structure of the second manual sampling device 60 can be filled with the first manual sample introduction in embodiment five It is identical to set 50.Second manual sampling device 60 corresponds to the second feeding channel 130, and the second manual sampling device 60 is located at the second dress It carries between buffer area 150 and the second unloading buffer area 210.

Second manual sampling device 60 is open sampling device or closed sampling device.When transmission channel 230 does not connect When being connected between the second loading buffer area 150 and the second unloading buffer area 210, the second manual sampling device 60 can for it is open into Sampling device or closed sampling device.When transmission channel 230 is connected to the second loading buffer area 150 and the second unloading buffer area When between 210, the second manual sampling device 60 only can be closed sampling device.

When being equipped with open sampling device, sample directly can be extended to the second manual sampling device 60 by operator Before, when being equipped with closed sampling device, sample to be detected is placed in the door of closed sampling device by operator, is not necessarily to Sample is placed in corresponding loading buffer area and is waited in line, is quickly divided suitable for emergency treatment, the sample jumped the queue etc. in special circumstances Analysis.

In concrete application, when configuring open sampling device, emergency treatment action triggers, emergency treatment movement has higher preferential Grade, operator can move to sample to be detected in second sample analyser 30 at the suction needle of open sampling device, inhale sample Needle protrudes into sample to be detected and starts suction sample；Second sample analyser 30 can analyze sample.

Alternatively, when configuring closed sampling device, emergency treatment action triggers, closed sample introduction dress in the second sample analyser 30 The door set is opened, and sample to be detected is placed in closed sampling device by operator, and the second sample analyser 30 can be to sample This is analyzed.

The second manual sampling device 60 automatic sampling apparatus corresponding with the second sample analyser 30 same can be inhaled Sample component inhales sample, and inhaling sample component can be the suction needle being reciprocally moveable, i.e., suction sample component can be in hand sampling position and automatic It inhales and is moved between sample position, hand sampling uses same path with automatic sample of inhaling, and same suction sample component is in hand sampling, automatic suction Sample soakage when sample is equal, therefore need to only carry out primary calibration, test job, streamline operation and certifiable analysis knot The consistency of fruit.According to two suction sample components (suction needle) by two path sample introductions, it need to be calibrated and be unfavorable for twice Guarantee the consistency of analysis result.

Embodiment seven:

The 7th kind of embodiment that the utility model sample analysis system provides, in the 7th kind of embodiment and the first to the 6th times A kind of difference of embodiment is only that:

Specifically sample rack infomation detection can be set in the corresponding position of unified loading attachment 340 or 230 side of transmission channel Device.The sample rack information detector is used to obtain the identification information of sample rack and is selected according to identification information by the sample This distribution loads buffer area 140 and second to described first and loads buffer area 150.Identification process can be scanned by camera The bar code of sample rack, two dimensional code, or the mark etc. by the color identification device identification preset different colours of sample rack.

Control method used by sample analysis system for the 7th kind of embodiment is further comprising the steps of:

The identification information for identifying sample rack, according to the identification information, sample rack is transported to pair by corresponding loader mechanism The loading buffer area answered.I.e. by identification information, system can obtain the sample analyser position entered needed for sample rack, sample rack When operation is to corresponding position in transmission channel 230, sample rack is transported to pair by corresponding loader mechanism from transmission channel 230 The loading buffer area answered, so that sample rack, which can enter in the sample analyser, carries out sampling analysis, after sampled analysis, sample Frame can return to transmission channel 230 from corresponding unloading buffer area.

In concrete application, can identify the sample rack on unified loading attachment 340 or in transmission channel 230 whether need by First sample analyzer 20, the second sample analyser 30 successively carry out sampling analysis；

To the sample rack for needing successively to be carried out sampling analysis by first sample analyzer 20, the second sample analyser 30, sample This enters transmission channel 230 from unified loading attachment 340, enters back into the first loading buffer area 140, subsequently into the first feeding Channel 120 is after 20 sampling analysis of first sample analyzer, into the first unloading buffer area 180 and through transmission channel 230, then Buffer area 150, second, which is loaded, into second feeds channel 130 and through carrying out sampling analysis in the second sample analyser 30；

To only need by first sample analyzer 20 and do not need by the second sample analyser 30 carry out sampling analysis sample This, sample rack enters transmission channel 230 from unified loading attachment 340, and sample rack enters the first feeding channel 120 and passes through first After 20 sampling analysis of sample analyser, then by the first feel trim actuator 190 by by first feeding channel 120 after sample rack transport It is stored to the first unloading buffer area 180；The sample rack of first unloading buffer area 180 is sent after can also entering transmission channel 230 Platform is recycled to unified.

To only need by the second sample analyser 30 and do not need by first sample analyzer 20 carry out sampling analysis sample This, sample rack enter after transmission channel 230 from unified loading attachment 340 be directly entered the second loading buffer area 150, second into To channel 130 and through carrying out sampling analysis in the second sample analyser 30.

Embodiment eight:

As shown in figure 5, the first loader mechanism 160 in the utility model sample analysis system includes: bracket 161, pawls 162 are used to support the first loader mechanism 160 with driving device 163 of pawling, bracket 161, and driving device of pawling 163 is set to bracket It is sliding for driving the sample rack direction first that 162 drives load the storage of buffer area 140 with first of pawling to feed channel 120 on 161 It is dynamic.

Incorporated by reference to shown in Fig. 6, the first loading buffer area 140 in the utility model sample analysis system includes for carrying The panel 141 of sample rack offers long hole 142 on panel 141.The driving device 163 of pawling of first loader mechanism 160 includes: Level push component 1631, mounting base of pawling 1632 and lifting assembly 1633, level push component 1631 are set to bracket 161 On, horizontal movement can be carried out with respect to bracket 161, mounting base of pawling 1632 is connected with level push component 1631, and level pushes away Sending component 1631 is able to drive 1632 horizontal movement of mounting base of pawling.Lifting assembly 1633, which is set to, pawls in mounting base 1632, It pawls on 162 setting lifting assemblies 1633, the drive of lifting assembly 1633 is pawled 162 risings, 162 is at least partly worn so as to pawl Long hole 142 on panel 141, and matched with the bottom of sample rack, level push component 1631 is able to drive mounting base of pawling 1632 carry out horizontal movement, and then make 162 drive sample racks the first feeding of direction sliding of channel 120 on panel 141 of pawling.

As a preferred embodiment, horizontal push component 1631 can be motor synchronous belt driving structure, utilize Motor drives synchronous belt rotation, so that driving is pawled, mounting base 1632 carries out horizontal movement.Certainly, horizontal push component 1631 is gone back It can be linear motor, the primary of linear motor drives mounting base 1632 of pawling to carry out horizontal rectilinear motion.In order to guarantee to pawl Mounting base 1632 can be stable operation, linear guide 164 can also be installed on bracket 161, the mounting base that will pawl 1632 is sliding It is dynamic to be mounted in linear guide 164.Lifting assembly 1633 can select lifting cylinder, and the cylinder body of lifting cylinder is fixed on and is pawled In mounting base 1632, will pawl 162 is fixedly connected on the piston rod of lifting cylinder, passes through the piston rod band of control lifting cylinder Dynamic 162 elevating movements of pawling.

In the above-described embodiments, lifting assembly 1633 for drive pawl it is 162 close to sample rack so that pawl 162 with Sample rack offsets linkage.It is understood that can also supporting component and replace lifting assembly using other forms, be used for Driving pawls and supports sample rack, such as: it supports component and can drive and pawl from two side of sample rack to intermediate close, make to pawl from sample This sandwich sample rack supports linkage with sample rack to make to pawl, when pawl mounting base horizontal movement when, pawling can be with It drives sample rack to feed channel 120 towards first on panel to slide.

Further, in order to position to the position for 162 movements of pawling, bracket 161 is provided with position sensing Device 165, position sensor 165 mounting base 1632 or can pawl with pawling and 162 match system controller is made to be pawled 162 movement position.Its Position Sensor 165 is preferably optocoupler, and optocoupler piece is provided in mounting base 1632 pawling, when pushing away When pawl mounting base 1632 is moved to close to the first feeding channel 120, optocoupler piece and optocoupler phase separation make optocoupler issue inductive signal, To make system controller may determine that pawl 162 position.

Above only describes a kind of structure of embodiment of the first loader mechanism 160 in the utility model sample analysis system, It is understood that the first loader mechanism 160 can also be robot manipulator structure.Actually in the utility model sample analysis system The first feel trim actuator 190, the second loader mechanism 170 and the second feel trim actuator 220 can also use and the first loader mechanism 160 Identical structure.

It should be noted that sample rack 40 have can with 162 structures matched of pawling, as shown in fig. 6, sample rack 40 bottom interval offers kerve 401, and when 162 long hole 142 from panel 141 of pawling stretches out upwards, sample can be inserted In the kerve 401 of this 40 bottoms, so that sample rack 40 be driven to move synchronously.In the prior art, the face of buffer area is loaded Plate side has a bending edges structure, is stuck in a side bayonet slot of sample rack in bending edges structure, prevents sample rack from moving Topple in the process.Since there are bending edges structures, sample rack can only be pushed into from the side of panel and load in buffer area, if by sample This is directly put into from the top for loading buffer area directly down, and it will cause sample rack one end to fall in bending edges structure, makes The posture that sample rack is high with one end, one end is low is located on panel, and toppling over for sample rack is be easy to cause when pawling and pushing sample rack. And in the embodiments of the present invention, panel two sides are provided with guiding side wall, and guiding side wall does not have a bending edges structure, and two It is oriented to the placement mouth that side wall forms opening upwards, the placement mouth of opening upwards can make sample rack directly be placed in panel from top to bottom On, and being oriented to side wall can be from both ends limitation sample rack；Simultaneously as 162 height of pawling is set as being connected to just and sample This 40 bottoms, it is ensured that be not easy to topple in sample rack moving process.Certainly pawling 162 can also be from 40 bottom of sample rack Front and rear sides push sample rack 40 to slide on panel 141.In addition, the utility model sample analysis system both can be to Fig. 7 institute The sample rack 40 of the elongated bottle of carrying shown carries out sampling analysis, can also carry out sampling point to the sample rack 40 of carrying Trace Blood Analysis, as shown in figure 8, being provided with the socket 402 that can accommodate micro tube on the sample rack 40, and corresponding each on the sample rack 40 The socket 402 of micro tube is additionally provided with bar code sticking area 403.

Before Fig. 7 and sample rack shown in Fig. 8 40 enter sample analyser progress sampling analysis, sample analyser needs The bar code of test tube is on scanned samples frame 40 to obtain the sampling analysis task of corresponding sample, therefore corresponds to each on sample rack 40 The side wall of test tube putting hole offers scanning holes 404, can scan the bar code pasted on test tube convenient for scanner.But such as Fruit sample rack 40 enters the first feeding channel 120 in a reverse direction, then the scanning holes 404 opened up on sample rack 40 will be back to sweeping Instrument is retouched, makes scanner that can not scan the bar code on test tube, then first sample analyzer 20 can not be to the sample in sample rack 40 Carry out sampling analysis.As shown in Figure 7 and Figure 8, it is redirected back into the first feeding channel 120 in order to avoid there is sample rack 40, The side of one feeding channel 120 towards the first loading buffer area 140 is provided with first and is loaded into bit detector 121, and first loads It is used to load the progress direction inspection of sample rack 40 that buffer area 140 enters the first feeding channel 120 to from first to bit detector 121 It surveys, when the positive modes of emplacement of sample rack 40 enters in the first feeding channel 120, first, which is loaded into bit detector 121, is detected The placement direction of sample rack 40 is correct, and sample rack 40 can be just sent into first sample analyzer 20 by the first feeding channel 120；It is no Then, oppositely positioned sample rack 40 will not be sent into first sample analyzer 20 by the first feeding channel 120, and issue alarm signal Number remind operator.

Further, the side of the first feeding channel 120 towards the first loading buffer area 140 is provided with first direction identification Mechanism 122, first direction identification mechanism 122 are used to cooperate with sample rack 40, when correct sample rack 40 from first is placed in direction When loading buffer area 140 enters the first feeding channel 120, first direction identification mechanism 122 enables sample rack 40 to trigger first It is loaded into bit detector 121；Otherwise, first direction identification mechanism 122 limits the triggering of sample rack 40 first and is loaded into bit detector 121。

Specifically, as shown in Figure 6 and Figure 7, the bottom of sample rack 40 side identical with scanning holes 404 on sample rack 40 is set It is equipped with lug boss 405；As shown in figure 9, first direction identification mechanism 122 is to load the first of the setting of buffer area 140 towards first Direction discernment step, first direction, which identifies, is reserved with the gap that can accommodate 40 upper projecting portion 405 of sample rack below step, the One be loaded into bit detector 121 be setting in a first direction identify step side microswitch, if sample rack 40 is with correct Direction be placed in the first loading buffer area 140, the lug boss 405 and scanning holes 404 on sample rack 40 both facing to first into To channel 120 and scanner, when sample rack 40 is transported in the first feeding channel 120 from the first loading buffer area 140, sample Lug boss 405 on this 40 can enter first direction identification step below gap in, while lug boss 405 can trigger it is micro- Dynamic switch, microswitch issues detection signal to system controller, then controls the first feeding channel 120 and be transported to sample rack 40 Sampling analysis is carried out in first sample analysis.If sample rack 40 is oppositely positioned in the first loading buffer area 140, sample Lug boss 405 and scanning holes 404 on frame 40 will be back to the first feeding channel 120 and scanners, when sample rack 40 is filled from first When load buffer area 140 is transported in the first feeding channel 120, first direction identification step will withstand on the side of sample rack 40 Face, microswitch will not be triggered by sample rack 40, then system controller will not control the first feeding channel 120 and transport sample rack 40 It is sent in first sample analyzer 20, while alarm signal can be issued and remind operator.

Other than the specific structure of first direction identification mechanism provided in above embodiments, other can also be used Form identifies sample rack direction to realize, carries out direction discernment for example, by using magnetic texure, sets in the two sides of sample rack The opposite magnet of magnetic pole is set, setting magnet is as direction discernment mechanism in feeding channel and express passway, when putting for sample rack When setting in the right direction, the magnet poles of sample rack direction identification mechanism are different with the magnetic pole of direction discernment mechanism, sample rack Feeding channel can be absorbed by direction discernment mechanism；If the placement direction mistake of sample rack, the identification of sample rack direction The magnet poles of mechanism are identical as the magnetic pole of direction discernment mechanism, and under the repulsive interaction of magnetive attraction, sample rack is pushed out feeding Channel, feeding channel can not transmit sample rack.The concrete form that direction discernment mechanism can use in the application is not Uniquely, as long as can be realized the mechanism that is identified to the placement direction of sample rack all within the scope of protection of this application.

As shown in Figure 10, the is transported to when needing the first loader mechanism 160 to load the sample rack in buffer area 140 for first When in one feeding channel 120, firstly, pawling loads the below the panel shifting that buffer area 140 carries sample rack from first under driving Move the side to sample rack far from the first feeding channel 120, the first loading buffer area 140 pawl stopping position as first The positive of loader mechanism 160 loads start bit, control pawl it is positive load at start bit from the long hole on panel stretch out after to Side translation close to the first feeding channel 120 pawls and pushes first to load several sample racks in buffer area 140 together to the One feeding channel 120 is slided, and is entered in the first feeding channel 120 when close to a sample rack of the first feeding 120 side of channel When, first bit detector 121 is loaded into the first feeding of sample rack triggering channel 120, and stopping of pawling is logical to the first feeding The propulsion in 120 direction of road acts, and then pawls and is moved to the first feeding channel 120 and the first loading caching after being down to below the panel At the position that area 140 has a common boundary, which loads separation position as the positive of the first loader mechanism 160, and control is pawled to be filled in forward direction Carry separation position at is raised above insertion close to first feeding channel 120 sample rack bottom kerve in, then driving pawl to Far from the first feeding 120 side of channel movement, make in the sample rack and the first feeding channel 120 in the first loading buffer area 140 Sample rack generate certain interval, the gap formed security bit then pawl and moved at security bit after being separated again with sample rack It is raised up to above panel, security bit is also the first loader mechanism 160 positive position for loading stop of pawling after the completion every time.Setting The purpose of security bit is based on from the aspect of two, and one is solid back to one after hours in each push in order to make to pawl At fixed position, and the top of panel is rested on, makes to pawl when not working in the position that operator is observed that, keep away Exempt from operator and sample rack is placed into top of pawling, causes to pawl and knock over the sample rack of top when being raised above；It is another It is for the boundary for occupying the first feeding channel 120 and the first loading buffer area 140 when not working that makes to pawl from the aspect of a Position prevents operator that sample rack is placed into the boundary position in the first feeding channel 120 and the first loading buffer area 140 Place, the sample rack for causing the first feeding channel 120 to load when transporting sample rack with first in buffer area 140 generate adhesion.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Made any modification, equivalent replacement or improvement etc., should be included in the guarantor of the utility model within novel spirit and principle Within the scope of shield.

Claims (10)

1. a kind of sample analysis system, which is characterized in that including sample transporting apparatus, first sample analyzer and the second sample point Analyzer,

The sample transporting apparatus includes:

First feeding channel and the second feeding channel, the first feeding channel and second feeding channel are respectively with described the One sample analyser and the second sample analyser are corresponding, and at least one of the first feeding channel and the second feeding channel are Bi-directionally transmitted channel, the bi-directionally transmitted channel is for the sample rack detected to be reversely sent at corresponding sample analyser Carry out double sampling analysis；

First loads buffer area and the first unloading buffer area, and described first loads buffer area and the first unloading buffer area difference It is corresponding with the first feeding channel；

Second loads buffer area and the second unloading buffer area, and described second loads buffer area and the second unloading buffer area difference It is corresponding with the second feeding channel；

Transmission channel, for conveying sample rack, the transmission channel is at least connected on described first and loads buffer area, described first It unloads buffer area and second and loads buffer area；

Unified loading attachment, for storing sample rack and to the transmission channel sample loading frame；

First loader mechanism and the first feel trim actuator, first loader mechanism are used to transport the sample rack in the transmission channel Send to it is described first loading buffer area and for by it is described first loading buffer area storage sample rack be transported to described first into To channel；First feel trim actuator is used to the sample rack on first feeding channel being transported to first unloading and cache Area's storage；And

Second loader mechanism and the second feel trim actuator, second loader mechanism are used to transport the sample rack in the transmission channel Send to it is described second loading buffer area and for by it is described second loading buffer area storage sample rack be transported to described second into To channel；Second feel trim actuator is used to the sample rack on second feeding channel being transported to second unloading and cache Area's storage.

2. a kind of sample analysis system as described in claim 1, which is characterized in that first feel trim actuator is also used to institute The sample rack stated on the first unloading buffer area is transported to the transmission channel.

3. a kind of sample analysis system as claimed in claim 1 or 2, which is characterized in that the transmission channel at least successively phase It is connected to described first and loads buffer area, the first unloading buffer area, the second loading buffer area and the second unloading buffer area；Second Feel trim actuator is also used to the sample rack on the second unloading buffer area being transported to the transmission channel.

4. a kind of sample analysis system as claimed in claim 3, which is characterized in that the unified loading attachment is connected to described One end of transmission channel, the other end of the transmission channel, which is connected with, uniformly unloads carrying platform；Alternatively, the second unloading buffer area Uniformly to unload carrying platform.

5. a kind of sample analysis system as described in claim 1, which is characterized in that the sample transporting apparatus further includes manual Sampling device, the hand sampling device are located at described first and load between buffer area and the first unloading buffer area and correspond to In first feeding channel, the hand sampling device is closed sampling device.

6. a kind of sample analysis system as described in claim 1, which is characterized in that the sample transporting apparatus further includes manual Sampling device, the hand sampling device are located at described second and load between buffer area and the second unloading buffer area and correspond to In second feeding channel, the hand sampling device is open sampling device or closed sampling device.

7. a kind of sample analysis system as claimed in claim 1 or 2, which is characterized in that the unified loading attachment or described The side of transmission channel is provided with sample rack information detector, and the sample rack information detector is for obtaining sample rack Identification information simultaneously distributes the sample rack to the first loading buffer area and the second loading caching according to identification information selection Area.

8. a kind of sample analysis system according to claim 1 or 2, which is characterized in that first loader mechanism includes:

Bracket is used to support first loader mechanism；

It pawls, the sample rack for driving described first to load buffer area storage is slided towards first feeding channel；

It pawls driving device, is arranged on the bracket, for driving described pawl.

9. a kind of sample analysis system according to claim 8, which is characterized in that the driving device of pawling includes:

Level push component, is arranged on the bracket；

It pawls mounting base, is connected with the horizontal push component, the horizontal push component is able to drive the installation of pawling Seat carries out horizontal movement；And

Component is supported, described pawl in mounting base is set to；

Wherein, it is described support component and be able to drive described pawl close to sample rack so that described pawl and sample rack offsets connection Dynamic, the horizontal push component is able to drive the mounting base of pawling and carries out horizontal movement, so make it is described pawl drive it is described Sample rack slides on panel towards first feeding channel.

10. a kind of sample analysis system according to claim 5 or 6, which is characterized in that the closed sampling device packet It includes:

Sample storehouse, the sample storehouse are provided with the accommodating cavity for accommodating sample container；

Translation mechanism, the translation mechanism include sample storehouse mounting seat and driving assembly, and the sample storehouse is mounted on the sample In this storehouse mounting seat, the driving end of the driving component is connected with the sample storehouse mounting seat, to drive the sample Storehouse mounting seat is mobile, for driving the sample storehouse in the manual of the manual " loaded " position of sample container and the sample analyser It is moved between sampling area.