CN113607965A - Sample analysis system and working method thereof - Google Patents

Abstract

The invention relates to the technical field of sample analysis systems, and aims to provide a sample analysis system and a working method thereof. The invention discloses a sample analysis system, which comprises an analysis unit, a carrying module, a blending module and an emergency sample transmission module, wherein the carrying module is used for carrying out sample analysis; the conveying module and the blending module are both arranged in the analysis unit, the emergency treatment sample transmission module is arranged outside the analysis unit, and the blending module is positioned above the conveying module and the emergency treatment sample transmission module; the conveying module is provided with a puncture sampling position, the emergency sample transmission module is provided with an emergency sample placing position, the bottom of the mixing module is provided with a normal sample placing position, and the normal sample placing position is located in the stroke range of the conveying module and the emergency sample transmission module. The stroke of the carrying module is short, and the maintenance of the carrying module is convenient.

Description

Sample analysis system and working method thereof

Technical Field

The invention relates to the technical field of sample analysis systems, in particular to a sample analysis system and a working method thereof.

Background

In a blood cell analysis system, it is generally necessary to analyze a sample such as blood or urine with a reagent. In the operation process of the blood cell analysis system, if an emergency sample needs to be sent to be tested, a worker needs to quickly place the emergency sample at the emergency sample placement position, then the emergency mode of the blood cell analysis system is triggered, the blood cell analysis system stops receiving the original continuously entering sample, receives the emergency sample and tests the emergency sample.

In the prior art, the blood cell analysis system is generally configured as the structure shown in fig. 1 and 2, and includes an analysis unit 1', a handling module 2' and a blending module 3', wherein the handling module 2' and the blending module 3 'are both disposed in the analysis unit 1', and the blending module 3 'is located above the handling module 2'. In the use, transport module 2' can stretch out analysis unit 1' to pass through puncture sampling position a, normal sample and place position b and emergency call sample and place position c in proper order when stretching out outward to analysis unit 1', wherein emergency call sample places position c and is located outside analysis unit 1', and mixing module 3' is located normal sample and places position b top for carry out the mixing operation to the sample that is in normal sample and places position b.

When the blood cell analysis system normally operates, the sample is continuously conveyed to the normal sample placement position b, and the carrying module 2' switches back and forth between the puncture sampling position a and the normal sample placement position b so as to test the sample positioned at the normal sample placement position b; when an emergency sample needs to be sent into the analysis unit 1' for inspection, the carrying module 2' needs to be driven to move to the emergency sample placement position c, then the emergency sample is placed on the carrying module 2' located at the emergency sample placement position c through a worker, the carrying module 2' immediately conveys the emergency sample to the normal sample placement position b, so that the blending module 3' can blend the emergency sample, and finally the emergency sample is conveyed to the puncture sampling position a for inspection.

However, in the process of using the prior art, the inventor finds that at least the following problems exist in the prior art:

the handling module 2 'needs to extend to the outside of the analysis unit 1' to receive the emergency samples, which results in a long stroke of the handling module 2', a complicated structure and inconvenience in maintenance of the handling module 2'.

Disclosure of Invention

The present invention is directed to solving the above technical problems, at least to some extent, and the present invention provides a sample analysis system and a working method thereof.

The technical scheme adopted by the invention is as follows:

a sample analysis system comprises an analysis unit, a carrying module, a blending module and an emergency sample transmission module; the conveying module and the blending module are both arranged in the analysis unit, the emergency treatment sample transmission module is arranged outside the analysis unit, and the blending module is positioned above the conveying module and the emergency treatment sample transmission module; the conveying module is provided with a puncture sampling position, the emergency sample transmission module is provided with an emergency sample placing position, the bottom of the mixing module is provided with a normal sample placing position, and the normal sample placing position is located in the stroke range of the conveying module and the emergency sample transmission module.

Preferably, the sample analysis system further comprises a sample introduction module; the sample introduction module comprises a first sample transmission module, and the normal sample placing position is arranged on the first sample transmission module.

Furthermore, the sample injection module also comprises a second sample transmission module, a sample injection cache device and a sample outlet cache device; the second sample transmission module and the first sample transmission module are arranged in parallel; the sample introduction cache device is arranged between the sample outlet part of the second sample transmission module and the sample introduction part of the first sample transmission module, and the transmission direction of the sample introduction cache device is the direction in which the second sample transmission module points to the first sample transmission module; the sample outlet caching device is arranged between the sample outlet part of the first sample transmission module and the sample inlet part of the second sample transmission module, and the transmission direction of the sample outlet caching device is the direction of the first sample transmission module pointing to the second sample transmission module.

Furthermore, the emergency treatment sample transmission module, the first sample transmission module and/or the second sample transmission module are/is provided with in-place detection devices.

Furthermore, a test tube baffle is arranged on one side of the emergency treatment sample transmission module, the first sample transmission module and/or the second sample transmission module, and the extension direction of the test tube baffle is parallel to the transmission direction of the emergency treatment sample transmission module, the first sample transmission module or the second sample transmission module.

Furthermore, a test tube rack stop block is arranged on the emergency sample transmission module, the first sample transmission module and/or the second sample transmission module, and the extending direction of the test tube rack stop block is perpendicular to the transmission direction of the emergency sample transmission module, the first sample transmission module or the second sample transmission module.

Furthermore, the height of the carrying module is greater than that of the emergency treatment sample transmission module, and the emergency treatment sample transmission module, the first sample transmission module, the second sample transmission module, the sample introduction buffer memory device and the sample discharge buffer memory device are all located on the same plane.

A working method of the sample analysis system comprises an emergency sample injection method, wherein test tube seats are arranged on the carrying module and the emergency sample transmission module, a clamping mechanism is arranged on the mixing module, and the emergency sample injection method comprises the following steps:

the test tube seats on the emergency sample transmission module move to an emergency sample placement position and obtain an emergency sample, and the carrying module and the blending module are both located at initial positions;

the emergency sample transmission module transmits so that a test tube seat on the emergency sample transmission module drives the emergency sample to move to a normal sample placing position;

the blending module is used for transmission, so that the clamping mechanism moves downwards and clamps the emergency treatment sample;

the blending module is used for transmitting so that the clamping mechanism can blend emergency samples, meanwhile, the emergency sample transmission module returns to the initial position, and the test tube seats on the carrying module move to a normal sample placing position;

the blending module is used for transmission so as to place the blended emergency treatment sample into a test tube seat on the carrying module;

the conveying module is used for transmission, so that the test tube seat on the conveying module drives the emergency treatment sample to move to the puncture sampling position for sampling, and meanwhile, the blending module returns to the initial position.

Preferably, after the test tube seat on the carrying module drives the emergency sample to move to the puncture sampling position for sampling, the emergency sample injection method further comprises the following steps:

the conveying module is used for transmission, so that the test tube seats on the conveying module drive the emergency treatment samples to move to the normal sample placing positions;

the blending module is used for transmitting so that the clamping mechanism moves downwards and clamps the emergency treatment sample, and then the carrying module returns to the initial position;

the emergency sample transmission module transmits so as to move the test tube seat on the emergency sample transmission module to a normal sample placing position;

the blending module is used for transmission so as to place the emergency treatment sample into a test tube seat on the emergency treatment sample transmission module, and then the blending module is retracted to an initial position;

the emergency sample transmission module transmits so that the test tube seat on the emergency sample transmission module drives the emergency sample to move to the emergency sample placing position.

The sample analysis system and the working method thereof have the beneficial effects that:

the stroke of the carrying module is short, and the maintenance of the carrying module is convenient. In the implementation process, in a normal state, the clamping mechanism of the carrying module is positioned at the upper part of the carrying module, the test tube seats on the blending module are positioned at the puncture sampling position, and the test tube seats on the emergency sample transmission module are positioned at the emergency sample placing position. When the emergency sample needs to be sent to be inspected, the worker only needs to place the emergency sample on the test tube seat on the emergency sample transmission module, and then the emergency sample transmission module transmits, so that the test tube seat on the emergency sample transmission module drives the emergency sample to move to the normal sample placement position; then, the blending module is used for transmitting, so that the clamping mechanism moves downwards and clamps the emergency treatment sample and blends the emergency treatment sample, meanwhile, the emergency treatment sample transmission module returns to the initial position, and the test tube seat on the carrying module moves to a normal sample placing position; then, the blending module transmits the mixed emergency treatment sample to be placed in a test tube seat on the carrying module; and finally, the carrying module is used for transmission, so that the test tube seat on the carrying module drives the emergency treatment sample to move to a puncture sampling position for sampling, and meanwhile, the blending module returns to the initial position. In the process, due to the arrangement of the emergency sample transmission module, the stroke of the carrying module can be shortened, the maintenance of the carrying module is facilitated, and the emergency sample transmission module has popularization and application values.

Drawings

FIG. 1 is a schematic diagram of a prior art configuration;

FIG. 2 is a simplified diagram of a top view of the structure of FIG. 1 with the blending module removed;

FIG. 3 is a schematic diagram of the construction of a sample analysis system according to the present invention;

FIG. 4 is a schematic diagram of the structure of FIG. 3 from another perspective;

FIG. 5 is an enlarged schematic view of portion A of the structure shown in FIG. 4;

FIG. 6 is an enlarged schematic view of portion B of the structure shown in FIG. 4;

FIG. 7 is a flow chart of one embodiment of a method of operating a sample analysis system of the present invention;

FIG. 8 is a flow chart of another embodiment of a method of operating a sample analysis system of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another.

It should also be noted that, in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed substantially concurrently, or the figures may sometimes be executed in the reverse order, depending upon the functionality/acts involved.

Example 1:

the present embodiment provides a sample analysis system, as shown in fig. 3 to 6, including an analysis unit 1, a carrying module 2, a blending module 3, and an emergency sample transmission module 4; the carrying module 2 and the blending module 3 are both arranged in the analysis unit 1, the emergency sample transmission module 4 is arranged outside the analysis unit 1, and the blending module 3 is positioned above the carrying module 2 and the emergency sample transmission module 4; be provided with the puncture sampling position on the transport module 2, be provided with the emergency call sample on the emergency call sample transmission module 4 and place the position, mixing module 3 bottom is provided with the normal sample and places the position, the normal sample is placed the position and is located transport module 2 and emergency call sample transmission module 4's stroke range simultaneously.

In this embodiment, the stroke of the carrying module 2 is short, which is convenient for maintenance of the carrying module 2. Specifically, in this embodiment, all be provided with the test tube seat on transport module 2 and the emergency call sample transmission module 4, be provided with fixture on the mixing module 3, this embodiment is at implementation in-process, and under the normal condition, the fixture of transport module 2 is located the upper portion of transport module 2, and the test tube seat on the mixing module 3 is located puncture sampling position, and the test tube seat on the emergency call sample transmission module 4 is located emergency call sample placement position. When the emergency sample needs to be sent to be inspected, the worker only needs to place the emergency sample on the test tube seat on the emergency sample transmission module 4, and then the emergency sample transmission module 4 transmits, so that the test tube seat on the emergency sample transmission module 4 drives the emergency sample to move to a normal sample placement position; then, the blending module 3 is driven to enable the clamping mechanism to move downwards and clamp the emergency treatment sample and blend the emergency treatment sample, meanwhile, the emergency treatment sample transmission module 4 returns to the initial position, and the test tube seat on the carrying module 2 moves to a normal sample placing position; then, the blending module 3 is used for transmitting so as to place the blended emergency treatment sample into the test tube seat on the carrying module 2; and finally, the carrying module 2 is driven to drive the test tube seat on the carrying module 2 to drive the emergency sample to move to a puncture sampling position for sampling, and meanwhile, the blending module 3 returns to the initial position. In the process, due to the arrangement of the emergency sample transmission module 4, the stroke of the carrying module 2 can be shortened, the maintenance of the carrying module 2 is facilitated, and the emergency sample transmission module has popularization and application values.

Specifically, in the present embodiment, the emergency sample transfer module 4 includes an emergency sample transfer track and an emergency drive mechanism, and the emergency sample transfer track is driven by the emergency drive mechanism.

It should be understood that the samples are stored in test tubes, and both the handling module 2 and the emergency sample transfer module 4 may be used to transfer test tubes.

In this embodiment, the sample analysis system further comprises a sample introduction module; the sample introduction module comprises a first sample transmission module 5, and the normal sample placing position is arranged on the first sample transmission module 5.

Specifically, in the present embodiment, the first sample transport module 5 includes a first sample transport rail driven by a first driving mechanism, and a first driving mechanism. In this embodiment, the transmission direction of the emergency sample transmission module 4 is the same as the transmission direction of the carrying module 2, and the transmission direction of the first sample transmission module 5 is perpendicular to both the transmission direction of the emergency sample transmission module 4 and the transmission direction of the carrying module 2.

In this embodiment, the sample introduction module further includes a second sample transmission module 6, a sample introduction buffer device 7, and a sample discharge buffer device 8; the second sample transmission module 6 is arranged in parallel with the first sample transmission module 5; the sample inlet cache device 7 is arranged between the sample outlet part of the second sample transmission module 6 and the sample inlet part of the first sample transmission module 5, and the transmission direction of the sample inlet cache device 7 is the direction in which the second sample transmission module 6 points to the first sample transmission module 5; the sample outlet buffer device 8 is arranged between the sample outlet part of the first sample transmission module 5 and the sample inlet part of the second sample transmission module 6, and the transmission direction of the sample outlet buffer device 8 is the direction of the first sample transmission module 5 pointing to the second sample transmission module 6.

Specifically, in the present embodiment, the second sample transport module 6 includes a second sample transport rail driven by a second drive mechanism, and a second drive mechanism.

It should be understood that the first driving mechanism, the second driving mechanism and the emergency call driving mechanism can be implemented by, but not limited to, using a rotary driving mechanism such as a rotary motor and a rotary cylinder, taking the first sample conveying module 5 as an example, an output end of the first driving mechanism is connected with a driving wheel of the first sample conveying track, and the first driving mechanism can drive the driving wheel of the first sample conveying track to rotate, so as to drive the first sample conveying track to operate.

It should be noted that the second sample transport module 6 is arranged, so that the present embodiment can be further applied to a sample transport device of a production line. Specifically, this embodiment is in the use, second sample transmission module 6 can directly carry the test tube to when this test tube needs to examine, transfer the test tube to the appearance portion of advancing of first sample transmission module 5 at the appearance portion of play of second sample transmission module 6 again, and carry to mutual portion through first sample transmission module 5 and carry out sample detection, after the detection is accomplished, this sample can loop through the appearance portion of going out of first sample transmission module 5, the appearance portion of advancing of second sample transmission module 6 and the appearance portion of going out of second sample transmission module 6 output this sample mechanism.

It should be noted that the sample inlet buffer device 7 and the sample outlet buffer device 8 can be used for buffer storage of test tubes, and are suitable for scenes with many test tubes to be detected.

In this embodiment, the emergency sample transmission module 4, the first sample transmission module 5, and/or the second sample transmission module 6 are/is provided with an in-place detection device 9. It should be understood that the in-place detection device 9 is used for detecting whether a test tube rack or a test tube appears on the test tube rack or the test tube, and sending an in-place signal to the controller when the test tube rack or the test tube appears; the in-place detection device 9 may be, but not limited to, an ultrasonic sensor, an infrared sensor, and other in-place detection sensors, in this embodiment, the in-place detection device 9 is implemented by an infrared sensor, and includes an infrared light emitting device and an infrared light receiving device opposite to the infrared light emitting module, and the technology of performing in-place detection is the prior art, and is not described herein again.

In this embodiment, a test tube baffle 10 is disposed on one side of the emergency sample transmission module 4, the first sample transmission module 5 and/or the second sample transmission module 6, and an extending direction of the test tube baffle 10 is parallel to a transmission direction of the emergency sample transmission module 4, the first sample transmission module 5 or the second sample transmission module 6. It should be noted that the tube baffle 10 is used to limit the tube, so as to prevent the tube from moving out of the sample conveying track, thereby improving the stability of the sample conveying process.

In this embodiment, the emergency sample transmission module 4, the first sample transmission module 5, and/or the second sample transmission module 6 are/is provided with a test tube rack stopper 11, and an extending direction of the test tube rack stopper 11 is perpendicular to a transmission direction of the emergency sample transmission module 4, the first sample transmission module 5, or the second sample transmission module 6. It should be noted that the test tube rack stopper 11 is used for limiting the test tube rack, so as to avoid the situation that the test tube rack shifts due to the fact that the speed of the sample transmission track is suddenly increased or reduced, and further improve the stability of the sample transmission process.

In this embodiment, the height of the carrying module 2 is greater than that of the emergency sample transmission module 4, and the emergency sample transmission module 4, the first sample transmission module 5, the second sample transmission module 6, the sample introduction buffer device 7 and the sample discharge buffer device 8 are all located on the same plane. It should be noted that the emergency sample transmission module 4 and the first sample transmission module 5 are located at the same height, so that the sample can be clamped quickly by the blending module 3, the sample on the carrying module 2 can be prevented from colliding with the sample on the emergency sample transmission module 4 or the first sample transmission module 5, and the sample transmission process can be safer.

Example 2:

the embodiment discloses a working method of any sample analysis system in embodiment 1, which includes an emergency sample injection method, wherein the carrying module 2 and the emergency sample transmission module 4 are both provided with test tube seats, the blending module 3 is provided with a clamping mechanism, and as shown in fig. 7, the emergency sample injection method includes the following steps:

the test tube seats on the emergency sample transmission module 4 are moved to an emergency sample placement position to obtain an emergency sample, and the carrying module 2 and the blending module 3 are both in initial positions;

the emergency sample transmission module 4 is used for transmission, so that a test tube seat on the emergency sample transmission module 4 drives the emergency sample to move to a normal sample placing position;

the blending module 3 is used for transmission, so that the clamping mechanism moves downwards and clamps the emergency treatment sample;

the blending module 3 is used for transmitting so that the clamping mechanism can blend emergency samples, meanwhile, the emergency sample transmission module 4 is retracted to the initial position, and the test tube seats on the carrying module 2 are moved to a normal sample placing position;

the blending module 3 is used for transmission so as to place the blended emergency treatment sample into the test tube seat on the carrying module 2;

the conveying module 2 is used for transmission, so that the test tube seats on the conveying module 2 drive the emergency treatment samples to move to the puncture sampling position for sampling, and meanwhile, the blending module 3 returns to the initial position.

In this embodiment, after the test tube seat on the carrying module 2 drives the emergency sample to move to the puncture sampling position for sampling, as shown in fig. 8, the emergency sample injection method further includes the following steps:

the conveying module 2 is used for transmission, so that the test tube seats on the conveying module 2 drive the emergency treatment samples to move to the normal sample placing positions;

the blending module 3 is driven to enable the clamping mechanism to move downwards and clamp emergency samples, and then the carrying module 2 is retracted to an initial position;

the emergency sample transmission module 4 is used for transmission, so that a test tube seat on the emergency sample transmission module 4 is moved to a normal sample placing position;

the blending module 3 is used for transmission, so that an emergency sample is placed in a test tube seat on the emergency sample transmission module 4, and then the blending module 3 is retracted to an initial position;

the emergency sample transmission module 4 is used for transmission, so that the test tube seat on the emergency sample transmission module 4 drives the emergency sample to move to an emergency sample placing position, and the emergency sample after inspection is taken out by a worker.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: modifications of the technical solutions described in the embodiments or equivalent replacements of some technical features may still be made. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Finally, it should be noted that the present invention is not limited to the above alternative embodiments, and that various other forms of products can be obtained by anyone in light of the present invention. The above detailed description should not be taken as limiting the scope of the invention, which is defined in the claims, and which the description is intended to be interpreted accordingly.

Claims (9)

1. A sample analysis system, characterized by: comprises an analysis unit (1), a carrying module (2), a blending module (3) and an emergency sample transmission module (4); the carrying module (2) and the blending module (3) are arranged in the analysis unit (1), the emergency treatment sample transmission module (4) is arranged outside the analysis unit (1), and the blending module (3) is positioned above the carrying module (2) and the emergency treatment sample transmission module (4); be provided with the puncture sampling position on transport module (2), it places the position to be provided with the emergency call sample on emergency call sample transmission module (4), mixing module (3) bottom is provided with the normal sample and places the position, the normal sample is placed the position and is located the stroke scope of transport module (2) and emergency call sample transmission module (4) simultaneously.

2. A sample analysis system as claimed in claim 1, wherein: the sample analysis system also comprises a sample introduction module; the sample introduction module comprises a first sample transmission module (5), and the normal sample placing position is arranged on the first sample transmission module (5).

3. A sample analysis system as claimed in claim 2, wherein: the sample introduction module also comprises a second sample transmission module (6), a sample introduction cache device (7) and a sample outlet cache device (8); the second sample transmission module (6) is arranged in parallel with the first sample transmission module (5); the sample inlet cache device (7) is arranged between the sample outlet part of the second sample transmission module (6) and the sample inlet part of the first sample transmission module (5), and the transmission direction of the sample inlet cache device (7) is the direction in which the second sample transmission module (6) points to the first sample transmission module (5); the sample outlet caching device (8) is arranged between the sample outlet part of the first sample transmission module (5) and the sample inlet part of the second sample transmission module (6), and the transmission direction of the sample outlet caching device (8) is the direction in which the first sample transmission module (5) points to the second sample transmission module (6).

4. A sample analysis system as claimed in claim 3, wherein: and in-place detection devices (9) are arranged on the emergency sample transmission module (4), the first sample transmission module (5) and/or the second sample transmission module (6).

5. A sample analysis system as claimed in claim 3, wherein: one side of the emergency treatment sample transmission module (4), the first sample transmission module (5) and/or the second sample transmission module (6) is provided with a test tube baffle plate (10), and the extension direction of the test tube baffle plate (10) is parallel to the transmission direction of the emergency treatment sample transmission module (4), the first sample transmission module (5) or the second sample transmission module (6).

6. A sample analysis system as claimed in claim 3, wherein: the emergency sample transmission module (4), the first sample transmission module (5) and/or the second sample transmission module (6) are/is provided with a test tube rack stop block (11), and the extension direction of the test tube rack stop block (11) is perpendicular to the transmission direction of the emergency sample transmission module (4), the first sample transmission module (5) or the second sample transmission module (6).

7. A sample analysis system as claimed in claim 3, wherein: the height of handling module (2) is greater than the height of emergency call sample transmission module (4), first sample transmission module (5), second sample transmission module (6), advance appearance buffer memory device (7) and go out appearance buffer memory device (8) and all be located the coplanar.

8. A method of operating a sample analysis system as claimed in any one of claims 1 to 7, wherein: the emergency sample injection method comprises an emergency sample injection method, wherein test tube seats are arranged on the carrying module (2) and the emergency sample transmission module (4), a clamping mechanism is arranged on the mixing module (3), and the emergency sample injection method comprises the following steps:

the test tube seats on the emergency sample transmission module (4) move to an emergency sample placing position and obtain an emergency sample, and the carrying module (2) and the blending module (3) are both in initial positions;

the emergency sample transmission module (4) is used for transmission, so that a test tube seat on the emergency sample transmission module (4) drives the emergency sample to move to a normal sample placing position;

the blending module (3) is used for transmission, so that the clamping mechanism moves downwards and clamps the emergency treatment sample;

the blending module (3) is used for transmitting so that the clamping mechanism can blend emergency samples, meanwhile, the emergency sample transmission module (4) returns to the initial position, and the test tube seat on the carrying module (2) moves to a normal sample placing position;

the blending module (3) is used for transmission, so that the blended emergency treatment sample is placed into a test tube seat on the carrying module (2);

the conveying module (2) is used for transmission, so that the test tube seat on the conveying module (2) drives the emergency sample to move to a puncture sampling position for sampling, and meanwhile, the blending module (3) returns to the initial position.

9. The method of claim 8, wherein the sample analysis system further comprises: after the test tube seats on the carrying module (2) drive the emergency treatment samples to move to the puncture sampling positions for sampling, the emergency treatment sample injection method further comprises the following steps:

the conveying module (2) is used for transmission, so that the test tube seats on the conveying module (2) drive the emergency treatment samples to move to the normal sample placing positions;

the blending module (3) is driven to enable the clamping mechanism to move downwards and clamp emergency samples, and then the carrying module (2) returns to an initial position;

the emergency sample transmission module (4) is used for transmission, so that a test tube seat on the emergency sample transmission module (4) is moved to a normal sample placing position;

the blending module (3) is used for transmission, so that an emergency sample is placed in a test tube seat on the emergency sample transmission module (4), and then the blending module (3) is retracted to an initial position;

the emergency sample transmission module (4) is used for transmission, so that the test tube seat on the emergency sample transmission module (4) drives the emergency sample to move to the emergency sample placing position.

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