阅读说明：本技术 样本分析系统 (Sample analysis system ) 是由 张军伟 李学荣 郁琦 叶燚 于 2019-06-28 设计创作，主要内容包括：本申请涉及一种样本分析系统,包括：CRP分析仪(20)、血球分析仪(10)、样本移送设备和控制设备(30),样本移送设备包括：具有传输通道的传输机构(41)和具有检测通道的至少两个进给机构(42),每个进给机构(42)沿着传输通道的传输方向上间隔布设,CRP分析仪(20)和血球分析仪(10)分别对应一个进给机构(42),在沿着传输通道的传输方向(X)上,血球分析仪(10)位于CRP分析仪(20)的前方；控制设备(30)分别与CRP分析仪(20)、血球分析仪(10)、样本移送设备电连接。该样本分析系统可以控制样本移送设备将样本架上的样本容器移送至CRP分析仪(20)和/或血球分析仪(10)进行检测,能够大大提高血常规和CRP的检测效率。(The present application relates to a sample analysis system comprising: CRP analyzer (20), blood cell analyzer (10), sample transfer device and control device (30), the sample transfer device comprising: a transport mechanism (41) having a transport path and at least two feed mechanisms (42) having a detection path, each feed mechanism (42) being arranged at intervals in the transport direction of the transport path, the CRP analyzer (20) and the blood cell analyzer (10) each corresponding to one feed mechanism (42), the blood cell analyzer (10) being located in front of the CRP analyzer (20) in the transport direction (X) along the transport path; the control device (30) is electrically connected to the CRP analyzer (20), the blood cell analyzer (10), and the sample transfer device, respectively. The sample analysis system can control the sample transfer device to transfer the sample container on the sample rack to the CRP analyzer (20) and/or the blood cell analyzer (10) for detection, and can greatly improve the detection efficiency of blood routine and CRP.)

A sample analysis system, comprising: a CRP analyzer, a blood cell analyzer, a sample transfer device, and a control device, wherein,

the sample transfer apparatus includes: the sample rack conveying device comprises a conveying mechanism with a conveying channel and at least two feeding mechanisms with a detection channel, wherein the conveying mechanism is used for transferring sample racks with sample containers in the conveying channel, each feeding mechanism is arranged at intervals along the conveying direction of the conveying channel, and the feeding mechanisms can transfer the sample racks from the conveying channel to the detection channel and transfer the sample racks from the detection channel to the conveying channel;

the CRP analyzer and the hematology analyzer respectively correspond to one feeding mechanism, and the detection areas of the CRP analyzer and the hematology analyzer correspond to the detection channels of the feeding mechanisms corresponding to the detection areas;

the CRP analyzer is used for detecting C-reactive protein of the sample transferred to the sample container on the sample rack in the corresponding detection channel by the sample transfer device, and the blood cell analyzer is used for detecting blood cells of the sample transferred to the sample container on the sample rack in the corresponding detection channel by the sample transfer device, wherein the blood cell analyzer is positioned in front of the CRP analyzer in the transmission direction along the transmission channel;

the control device is respectively electrically connected with the CRP analyzer, the blood cell analyzer and the sample transfer device and is used for controlling the sample transfer device to transfer the sample container on the sample rack to the CRP analyzer and/or the blood cell analyzer for detection.

The sample analysis system according to claim 1, wherein the control device is configured to control the sample transfer device to sequentially transfer the sample rack that needs to be transferred to the hemocyte analyzer and the CRP analyzer in the transfer direction.

The sample analysis system of claim 1 or 2, wherein the system further comprises: a push dyeing machine and/or a saccharification instrument;

the push piece dyeing machine and the saccharification instrument respectively correspond to one feeding mechanism, and the detection areas of the push piece dyeing machine and the saccharification instrument correspond to the detection channels of the corresponding feeding mechanisms;

the blade dyeing machine is located behind the CRP analyzer in the transport direction along the transport path; alternatively, the saccharification instrument is located after the CRP analyzer; or, the push piece dyeing machine and the saccharification instrument are both positioned behind the CRP analyzer; or the slide stainer is positioned between the CRP analyzer and the hematology analyzer, and the saccharification instrument is positioned behind the CRP analyzer.

The sample analysis system of any one of claims 1-3, wherein the CRP analyzer comprises a closed sampling device and an open sampling device;

the closed sampling device is used for sucking the samples transferred to the sample containers on the sample racks in the corresponding detection channels by the sample transfer equipment, and the open sampling device is used for sucking the samples manually transferred to the sample containers in the detection areas of the CRP analyzer.

The sample analysis system according to any one of claims 1 to 4, wherein the CRP analyzer is configured as a CRP stand-alone machine for detecting only C-reactive protein in the sample, or the CRP analyzer is configured as a CRP hemocytometer for detecting C-reactive protein and blood cells in the sample.

The sample analysis system of any of claims 1-5, wherein the feed mechanism further comprises:

a transmission mechanism formed with a detection channel;

the loading buffer area is positioned between the detection channel and the transmission channel;

and the loading mechanism is positioned in the loading buffer area and used for transferring the sample rack passing through the transmission channel to the loading buffer area and transferring the sample rack in the loading buffer area to the detection channel.

The sample analysis system of claim 6, wherein the feed mechanism further comprises:

the unloading buffer area is positioned between the detection channel and the transmission channel, and the unloading buffer area and the loading buffer area are arranged at intervals along the transmission direction of the detection channel;

and the unloading mechanism is positioned in the unloading buffer area and used for transferring the sample rack passing through the detection channel to the unloading buffer area and transferring the sample rack in the unloading buffer area to the transmission channel.

The sample analysis system of any one of claims 1-7, wherein the system further comprises:

the loading platform is positioned at one end of the transmission channel and is used for placing a sample rack;

and the platform loading mechanism is used for transferring the sample rack on the loading platform to the transmission channel.

The sample analysis system of claim 8, wherein the system further comprises:

a sample rack detector arranged on the loading platform and used for detecting the sample rack on the loading platform and sending a transfer signal after detecting the sample rack on the loading platform;

the platform loading mechanism is electrically connected with the sample rack detector, and the platform loading mechanism transfers the sample rack to the transmission channel from the loading platform after receiving the transfer signal.

The sample analysis system of any one of claims 1-9, wherein the system further comprises:

the first sample rack identification collector is arranged on the transmission channel and used for identifying the sample rack identification on the sample rack on the transmission channel; the sample rack is provided with at least one detection position, and each detection position has a set detection mode;

the control device is electrically connected with the first sample rack identification collector, a sample rack identification, a position of a detection position in the sample rack and a first corresponding relation of a set detection mode of the detection position are stored in the control device, and the control device is used for sending a scheduling instruction to the transmission mechanism and the feeding mechanism according to the first corresponding relation and the sample rack identification sent by the first sample rack identification collector, so that the sample rack is transferred to an analyzer corresponding to the set detection mode of the detection position on the sample rack.

The sample analysis system according to any one of claims 1 to 9, wherein a container identifier collector for identifying a container identifier of a sample container transferred to a sample rack in a corresponding detection lane is provided in the CRP analyzer and in the hemacytometer.

The sample analysis system according to any one of claims 1 to 11, wherein a second sample rack identifier collector for identifying a sample rack identifier in a sample rack transferred to the corresponding detection channel and a container identifier collector for identifying a container identifier of a sample container in the sample rack are provided in the blood cell analyzer, and the container identifier contains a detection mode;

the control device is electrically connected with the second sample rack identification collector and the sample container identification collector, and is used for determining a second corresponding relation among the container identifications, the sample rack identifications and the positions of the sample containers corresponding to the container identifications on the sample rack according to the sample rack identifications collected by the second sample rack identification collector and the container identifications collected by the container identification collector, and sending scheduling instructions to the transmission mechanism and the feeding mechanism according to the second corresponding relation, so that the sample rack is transferred to an analyzer corresponding to detection modes contained in the container identifications on the sample containers in the sample rack.

The sample analysis system of claim 12,

the control equipment sends the second corresponding relation to the CRP analyzer;

and the CRP analyzer is provided with a third sample rack identification collector for identifying the sample rack identification on the sample rack transferred to the corresponding detection channel, and correspondingly detects the sample in the sample container which is positioned on the sample rack in the detection area and has the CRP mode according to the second corresponding relation and the sample rack identification collected by the third sample rack identification collector.

The sample analysis system of any one of claims 1-13, wherein the system further comprises:

the unloading platform is arranged at the other end of the transmission channel and is used for placing the sample rack;

a platform unloading mechanism for transferring the sample rack in the transfer passage to the unloading platform.

The sample analysis system of any one of claims 1-14, wherein the control device further comprises: and the display is used for receiving and displaying the detection result sent by the CRP analyzer and/or the blood cell analyzer.

The sample analysis system of any one of claims 1-15, wherein the control device further comprises: and the at least one data storage device is used for receiving and storing the detection result sent by the CRP analyzer and/or the blood cell analyzer.

A sample analysis system, comprising: a CRP analyzer, a blood cell analyzer, a sample transfer device, and a control device, wherein,

the sample transfer apparatus includes: the sample rack conveying device comprises a conveying mechanism with a conveying channel and at least two feeding mechanisms with a detection channel, wherein the conveying mechanism is used for conveying a sample rack provided with sample containers in the conveying channel, each feeding mechanism is arranged at intervals along the conveying direction of the conveying channel, and the feeding mechanisms can move the sample rack from the conveying channel to the detection channel and can move the sample rack from the detection channel to the conveying channel;

the CRP analyzer and the hematology analyzer respectively correspond to one feeding mechanism, and the detection areas of the CRP analyzer and the hematology analyzer correspond to the detection channels of the feeding mechanisms corresponding to the detection areas;

the CRP analyzer is used for detecting C-reactive protein of the sample in the sample container on the sample rack transferred to the corresponding detection channel by the sample transfer device, and the blood cell analyzer is used for detecting blood cells of the sample in the sample container on the sample rack transferred to the corresponding detection channel by the sample transfer device, wherein the blood cell analyzer is positioned behind the CRP analyzer in the transfer direction along the transfer channel;

the control device is respectively electrically connected with the CRP analyzer, the blood cell analyzer and the sample transfer device and is used for controlling the sample transfer device to transfer the sample container on the sample rack to the CRP analyzer and/or the blood cell analyzer for detection.

The sample analysis system according to claim 17, wherein the control device is configured to control the sample transfer device to sequentially transfer the sample rack that needs to be transferred to the corpuscular analyzer and the CRP analyzer to the CRP analyzer and the corpuscular analyzer in the transfer direction.

The sample analysis system of claim 17 or 18, wherein the system further comprises: a push dyeing machine and/or a saccharification instrument;

the push piece dyeing machine and the saccharification instrument respectively correspond to one feeding mechanism, and the detection areas of the push piece dyeing machine and the saccharification instrument correspond to the detection channels of the corresponding feeding mechanisms;

said push stainer being located behind said hematology analyzer in a transport direction along said transport channel; alternatively, the saccharification instrument is located behind the hematology analyzer; or the push piece dyeing machine and the saccharification instrument are both positioned behind the blood cell analyzer; or, the slide staining machine is positioned between the CRP analyzer and the hematology analyzer, and the saccharification instrument is positioned behind the hematology analyzer.