CN115180326A - Sample handover equipment and use method - Google Patents

Abstract

The invention discloses sample handing-over equipment and a using method thereof, wherein the sample handing-over equipment comprises an equipment cabinet, a darkroom is arranged in the equipment cabinet, two X sliding tables are symmetrically and fixedly connected in an inner cavity of the equipment cabinet, an X-axis driving motor is arranged at the top end of one X sliding table, a coupler is fixedly connected at the outer end of the X-axis driving motor, and the other end of the coupler is clamped in the inner cavity of the other X sliding table; this sample handing-over equipment and application method, the through-hole and the blind hole of the equidimension that set up through upper plate and lower floor's board inner chamber are fixed the test tube for handing-over equipment's container specification is unanimous, and the operation of follow-up work flow of unified container being convenient for adopts X slip table, Y slip table and Z slip table to realize the diversified removal of electronic clamping jaw simultaneously, when detecting sample container, does not need the manual work to shift sample container between different equipment, when having improved detection efficiency, avoids manual operation to appear the risk of omitting.

Description

Sample handover equipment and use method

Technical Field

The invention relates to the technical field of medical detection, in particular to sample handover equipment and a use method thereof.

Background

At present, each medical examination structure receives and processes a large amount of blood samples every day, and the sample amount is continuously enlarged along with the continuous updating and improvement of the examination technology and the detection index. According to the inspection process, after the samples are acquired, the acquisition department and the inspection department complete the quantity check of the samples and the related data handover, the samples are received to the inspection department after being checked to be correct, and the samples are subjected to related work such as centrifugation, classification, cold storage/freezing storage and inspection and the like. In the prior art of the process, the cooperative operation of a plurality of devices is required to be completed, the work is complicated, and the efficiency is low. In the meantime, the demand for automation of inspection processes is becoming more and more apparent due to the rapid development of current technology automation. On the premise of realizing automation of the inspection process, pretreatment of a sample handover related work process is automated to realize electronic automatic operation management of information.

At present traditional sample handing-over equipment does not have fixed container standard, and the front end blood sampling point uses the container of depositing the sample and is not unified, influences subsequent work flow and can not realize unified standard operation, influences work efficiency and potential operation and omits the risk, and simultaneously in work flow, the sample needs artifical continuous manual transfer, including between the different equipment.

Therefore, the present invention provides a sample transfer apparatus and a method of using the same to solve the above problems.

Disclosure of Invention

In view of the shortcomings of the prior art, the present invention provides a sample interface apparatus and a method of use, which solves the above problems.

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a sample handing-over equipment and application method, includes the equipment cabinet, the darkroom has been seted up to the inside of equipment cabinet, the inner chamber of darkroom is equipped with drive assembly, and drive assembly includes X slip table, X axle driving motor, shaft coupling, Y slip table, Y axle driving motor, Z slip table, Z axle driving motor and electronic clamping jaw, the X slip table is equipped with two, two X slip table symmetry fixed connection in the inner chamber of equipment cabinet, X axle driving motor locates one of them the top of X slip table, shaft coupling fixed connection in X axle driving motor's outer end, just the other end joint of shaft coupling is in another in the inner chamber of X slip table, Y slip table sliding connection is in two between the X slip table, Y axle driving motor fixed connection in the top of Y slip table, Z slip table sliding connection in the top of Y slip table, Z axle driving motor fixed connection in the top of Z slip table, electronic clamping jaw is located the bottom of Z slip table, just the inner chamber of darkroom is equipped with the carrier.

Preferably, the carrier frame includes lower plate, top plate, handle, blind hole and through-hole, lower plate with it is fixed by the connecting rod between the top plate, handle fixed connection in the top of top plate, the blind hole seted up in the inner chamber of lower plate, the through-hole is seted up in the inner chamber of top plate.

Preferably, the blind holes and the through holes are provided with a plurality of blind holes, and the blind holes correspond to the through holes in the same number and in the same positions.

Preferably, the bottom end of the inner cavity of the darkroom is provided with a centrifugal assembly, the centrifugal assembly comprises two centrifugal grooves and a centrifugal machine door, the two centrifugal grooves are arranged at the top end of the inner cavity of the darkroom, and the centrifugal machine door is connected in the inner cavity of the centrifugal grooves in a sliding manner.

Preferably, the centrifugal assembly further comprises a normal temperature centrifuge and a freezing centrifuge, the normal temperature centrifuge and the freezing centrifuge are respectively and fixedly connected to the two inner cavities of the centrifugal grooves, and one end of the normal temperature centrifuge and one end of the freezing centrifuge penetrate through the equipment cabinet and extend to the outside.

Preferably, the outer end fixedly connected with operation screen of equipment cabinet, the operation screen respectively with drive assembly normal temperature centrifuge and electric connection between the refrigerated centrifuge.

Preferably, the inner cavity of the darkroom is provided with an enzyme-immune biochemical sample storage box and a nucleic acid sample storage box, and the inner cavities of the enzyme-immune biochemical sample storage box and the nucleic acid sample storage box are provided with a plurality of test tube grooves.

Preferably, the through-holes that the upper plate was seted up are divided into three groups, and three groups the through-holes divide into three colour district, the bottom of equipment cabinet is equipped with the universal wheel, the universal wheel is equipped with four, four the universal wheel is rectangle fixed connection in the bottom of equipment cabinet.

Preferably, the inside fixed connection of darkroom has the cavity board, the outer end fixedly connected with glass board of cavity board, just the inner chamber fixedly connected with ultraviolet tube of cavity board, ultraviolet tube is equipped with a plurality of, a plurality of ultraviolet tube with electric connection between the operation screen, the outer end fixedly connected with temperature controller of equipment cabinet, the temperature controller with electric connection between the operation screen, just the inner chamber of temperature controller is equipped with temperature control system.

Preferably, the forming is carried out as follows:

s1, analyzing radio frequency and images, and inputting information in batch;

s2, performing quality monitoring before centrifugation;

s3, centrifuging;

s4, quality monitoring after centrifugation;

s5, centralized arrangement;

s6, refrigerating and freezing storage

Advantageous effects

The invention provides sample handover equipment and a using method thereof. Compared with the prior art, the method has the following beneficial effects:

(1) The through hole and the blind hole which are the same in size and are formed in the inner cavities of the upper layer plate and the lower layer plate are used for fixing the test tube, so that the container specification of the transfer equipment is consistent, the operation of the subsequent work flow of the container is convenient, the X sliding table, the Y sliding table and the Z sliding table are adopted to realize multidirectional movement of the electric clamping jaw, when the sample container is detected, the sample container does not need to be manually transferred between different devices, the detection efficiency is improved, and meanwhile, the missing risk caused by manual operation is avoided.

(2) The sample handing-over equipment and the use method have the advantages that the handle is clamped through the electric clamping jaw, so that a sample container between the upper plate and the lower plate falls into the centrifugal groove and is placed in the centrifugal device inside the equipment cabinet, the centrifugal equipment is combined with the detection equipment, the electric clamping jaw is used for taking, the loss of manpower resources is reduced, the operation is simpler and more convenient, the carrying frame formed by the upper plate and the lower plate is divided into three parts and different color marks are used, and three different blood sample tubes can be stored in different modes.

Drawings

FIG. 1 is a perspective view of the external structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the equipment cabinet of the present invention;

FIG. 3 is an enlarged schematic view of the invention at A in FIG. 1;

FIG. 4 is a schematic structural view of the drive assembly of the present invention;

FIG. 5 is a schematic view of the construction of the motorized clamp jaw of the present invention;

FIG. 6 is a schematic structural view of the carrier of the present invention;

fig. 7 is an enlarged schematic view of the invention at B in fig. 1.

In the figure 1000, an equipment cabinet; 1001. a darkroom; 200. a carrier; 1002. a lower layer plate; 1003. an upper plate; 1004. a handle; 1005. blind holes; 1006. a through hole; 1. an X sliding table; 2. an X-axis drive motor; 3. A coupling; 4. a Y sliding table; 5. a Y-axis drive motor; 6. a Z-shaped sliding table; 7. a Z-axis drive motor; 8. an electric jaw; 9. a centrifuge assembly; 901. a centrifugal tank; 902. a centrifuge door; 903. a normal temperature centrifuge; 904. freezing the centrifuge; 10. an operation screen; 11. an enzyme immunoassay and biochemical sample storage box; 12. a nucleic acid sample storage cartridge; 13. a universal wheel; 14. a cavity plate; 15. an ultraviolet lamp tube; 16. and (7) a temperature controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-6, a sample transfer apparatus and a method of use thereof, includes an apparatus cabinet 1000, a darkroom 1001 is provided inside the apparatus cabinet 1000, a driving assembly is provided in an inner cavity of the darkroom 1001, the driving assembly includes an X-sliding table 1, an X-axis driving motor 2, a coupler 3, a Y-sliding table 4, a Y-axis driving motor 5, a Z-sliding table 6, a Z-axis driving motor 7, and an electric clamping jaw 8, the X-sliding tables 1 are provided with two, the two X-sliding tables 1 are symmetrically and fixedly connected to the inner cavity of the apparatus cabinet 1000, the X-axis driving motor 2 is provided at a top end of one of the X-sliding tables 1, the coupler 3 is fixedly connected to an outer end of the X-axis driving motor 2, and another end of the coupler 3 is clamped to an inner cavity of the other X-sliding table 1, the Y-sliding table 4 is slidably connected between the two X-sliding tables 1, the Y-axis driving motor 5 is fixedly connected to a top end of the Y-sliding table 4, the Z6 is slidably connected to a top end of the Y-sliding table 4, the Z-axis driving motor 7 is fixedly connected to a top end of the Z-sliding table 6, the electric clamping jaw 8 is arranged at the bottom end of the Z sliding table 6, the inner cavity of the darkroom 1001 is provided with the carrier 200, the carrier 200 comprises a lower plate 1002, an upper plate 1003, a handle 1004, a blind hole 1005 and a through hole 1006, the lower plate 1002 and the upper plate 1003 are fixed by a connecting rod, the handle 1004 is fixedly connected to the top end of the upper plate 1003, the blind hole 1005 is arranged in the inner cavity of the lower plate 1002, the through hole 1006 is arranged in the inner cavity of the upper plate 1003, the blind holes 1005 and the through holes 1006 are provided with a plurality of blind holes 1005, the number of blind holes 1005 and the positions of the through holes 1006 are the same, a plurality of sample test tubes are firstly placed between the lower plate 1002 and the upper plate 1003, the sample test tubes are clamped between the blind holes 1005 and the through holes 1006, so that the sample test tubes are fixed in the inner cavity of the carrier 200, and the clamping columns in the electric clamping jaw 8 clamp the sample test tubes during detection, after checking information, the test tubes are placed into the enzyme immune biochemical sample storage box 11 and the nucleic acid sample storage box 12 in a classified mode, when sample containers are taken, the X-axis driving motor 2 drives the Y sliding table 4 to slide back and forth between the two X sliding tables 1, meanwhile, the Z-axis driving motor 7 drives the Z sliding table 6 to slide up and down at the outer end of the Y sliding table 4, so that the electric clamping jaw 8 moves in multiple directions, the test tubes are placed into the enzyme immune biochemical sample storage box 11 and the nucleic acid sample storage box 12 from the inside of the carrier frame 200 by the electric clamping jaw 8 in a classified mode, when the sample containers are detected by the electric clamping jaw 8 moving in multiple directions, the sample containers do not need to be manually transferred between different devices, the detection efficiency is improved, meanwhile, the missing risk of manual operation is avoided, through holes 1006 and blind holes 1005 in the same size are formed in inner cavities of the upper layer plate 1003 and the lower layer plate to fix the test tubes 1002, and the container specification of the handover device is consistent.

Example two:

referring to fig. 1-7, the present embodiment provides a sample handover apparatus and a technical solution of a method for using the same based on the first embodiment: the bottom end of the inner cavity of the darkroom 1001 is provided with a centrifugal assembly 9, the centrifugal assembly 9 comprises a centrifugal groove 901 and a centrifuge door 902, the centrifugal groove 901 is provided with two centrifugal grooves 901, the two centrifugal grooves 901 are arranged at the top end of the inner cavity of the darkroom 1001, the centrifuge door 902 is connected in the inner cavity of the centrifugal groove 901 in a sliding manner, the centrifugal assembly 9 further comprises a normal temperature centrifuge 903 and a freezing centrifuge 904, the normal temperature centrifuge 903 and the freezing centrifuge 904 are respectively and fixedly connected in the inner cavities of the two centrifugal grooves 901, one ends of the normal temperature centrifuge 903 and the freezing centrifuge 904 penetrate through the equipment cabinet 1000 and extend to the outside, after a sample container is verified, the electric clamping jaw 8 clamps a handle 1004 at the top end of the upper plate 1003, and the centrifuge door 902 in the centrifugal groove 901 is opened, at the moment, the electric clamping jaw 8 puts the carrier 200 into the normal temperature centrifuge 903 in the centrifugal groove 901 and the freezing centrifuge 904, combines the centrifugal equipment with the detection equipment, and simultaneously uses the electric clamping jaw 8 to take, so that the loss of manpower resources is reduced, and the operation is simpler and more convenient;

the outer end of the equipment cabinet 1000 is fixedly connected with an operation screen 10, the operation screen 10 is respectively electrically connected with the driving component, the normal temperature centrifuge 903 and the refrigerated centrifuge 904, the inner cavity of the darkroom 1001 is provided with an enzyme immune and biochemical sample storage box 11 and a nucleic acid sample storage box 12, the inner cavities of the enzyme immune and biochemical sample storage box 11 and the nucleic acid sample storage box 12 are provided with a plurality of test tube slots, through holes 1006 formed in an upper plate 1003 are divided into three groups, the three groups of through holes 1006 are divided into three color areas, the bottom end of the equipment cabinet 1000 is provided with four universal wheels 13, the four universal wheels 13 are fixedly connected with the bottom end of the equipment cabinet 1000 in a rectangular shape, the operation screen 10 can respectively control the normal temperature centrifuge 903 and the refrigerated centrifuge 904, and can control the electric clamping jaw 8 to clamp sample test tubes and the handle 1004 simultaneously, the operation is simple and convenient, the through holes 1006 of the three color areas are convenient for simultaneously distinguishing and storing three different blood sample tubes, the universal wheels 13 are arranged to facilitate the movement and the carrying of the equipment cabinet 1000, the inside of the darkroom 1001 is fixedly connected with the cavity plate 14, the outer end of the cavity plate 14 is fixedly connected with the glass plate, the inner cavity of the cavity plate 14 is fixedly connected with the ultraviolet lamp tubes 15, the ultraviolet lamp tubes 15 are provided with a plurality of ultraviolet lamp tubes 15, the ultraviolet lamp tubes 15 are electrically connected with the operation screen 10, the outer end of the equipment cabinet 1000 is fixedly connected with the temperature controller 16, the temperature controller 16 is electrically connected with the operation screen 10, the inner cavity of the temperature controller 16 is provided with a temperature control system, when the carrier frame 200 in the darkroom is taken 1001, external bacteria can enter the inner cavity of the equipment cabinet 1000, the bacteria can be attached to the outer end of the test tube to cause the abnormal change of the test tube sample, meanwhile, the bacteria can also cause the influence on the detection result of the test tube sample, and cause the deviation of the detection of the test tube sample, before and after the sample is placed in the darkroom 1001 and taken out, the ultraviolet lamp tube 15 can be controlled by the operation screen 10 to disinfect and sterilize the interior of the darkroom 1001, so that bacteria in the darkroom 1001 are prevented from affecting the detection of the test tube sample, a temperature control system in the temperature controller 16 can control the room temperature in the darkroom 1001, the temperature can be freely adjusted according to the environment required by the test sample, meanwhile, the temperature controller 16 adjusts different temperatures, the test tube sample can be conveniently subjected to a contrast experiment, and the diversity of the functions of the equipment cabinet 1000 is increased;

the forming is carried out according to the following steps:

s1, radio frequency and image analysis, information batch input, interaction between an operation screen 10 and an industrial camera in a darkroom 1001, and shooting of the label at the outer end of the test tube sample by the industrial camera to read information of the label;

s2, centrifuging, performing pre-quality monitoring, and detecting a sample test tube by an industrial camera;

s3, centrifuging, namely centrifuging the sample test tube by using a normal-temperature centrifuge 903 and a refrigerated centrifuge 904;

s4, quality monitoring after centrifugation, wherein after the sample is centrifuged, the industrial camera shoots and detects the test tube sample again;

s5, arranging in a centralized manner, after centrifugal detection is carried out on the sample test tubes, classifying and sequencing the test tubes by the electric clamping jaw 8, and putting the test tubes into the enzyme immunoassay and biochemical sample storage box 11 and the nucleic acid sample storage box 12;

and S6, refrigerating, freezing and storing, wherein the test tubes after being classified and placed are uniformly placed in a refrigerating and freezing storage area inside the equipment cabinet 1000.

And those not described in detail in this specification are well within the skill of those in the art.

In operation, a plurality of sample test tubes are placed between the lower plate 1002 and the upper plate 1003, and the sample test tubes are clamped between the blind holes 1005 and the through holes 1006, so that the sample test tubes are fixed in the inner cavity of the carrier 200, during detection, the sample test tubes are clamped by the clamping columns inside the electric clamping jaws 8, after information is checked, the sample test tubes are placed in the enzyme immune biochemical sample storage box 11 and the nucleic acid sample storage box 12 in a classified manner, when a sample container is taken, the X-axis driving motor 2 drives the Y sliding table 4 to slide back and forth between the two X sliding tables 1, meanwhile, the Z-axis driving motor 7 drives the Z sliding table 6 to slide up and down at the outer end of the Y sliding table 4, so that the electric clamping jaws 8 move in multiple directions, so that the test tubes are placed in the enzyme immune biochemical sample storage box 11 and the nucleic acid sample storage box 12 in a classified manner from the inside of the carrier 200 by the electric clamping jaws 8 moving in multiple directions, the sample container does not need to be manually transferred between different devices, the detection efficiency is improved, meanwhile, the risk of omission caused by manual operation is avoided, the test tubes are fixed by the through holes 1006 and the blind holes 1005 which are arranged in the inner cavities of the upper layer plate 1003 and the lower layer plate 1002 and have the same size, the container specification of the transfer device is consistent, after the sample container is verified, the electric clamping jaw 8 clamps the handle 1004 at the top end of the upper layer plate 1003, the centrifuge door 902 in the centrifuge groove 901 is opened, at the moment, the electric clamping jaw 8 puts the carrier 200 into the normal temperature centrifuge 903 and the freezing centrifuge 904 in the centrifuge groove 901, the centrifuge device is combined with the detection device, the electric clamping jaw 8 is used for taking, the operation is simpler and more convenient while the loss of manpower resources is reduced, the operation screen 10 can respectively control the normal temperature centrifuge 903 and the freezing centrifuge 904, meanwhile, the electric clamping jaw 8 can be controlled to clamp a sample test tube and the handle 1004, the operation is simple and convenient, through holes 1006 of three color areas are convenient for storing three different blood sample tubes in a distinguishing manner, the arranged universal wheels 13 are convenient for moving and carrying the equipment cabinet 1000, when the carrying frame 200 inside the darkroom 1001 is taken, external bacteria can enter an inner cavity of the equipment cabinet 1000, the bacteria are attached to the outer end of the test tube, so that the test tube sample can be changed, meanwhile, the bacteria can also influence the detection result of the test tube sample, the test tube sample can be detected to be deviated, the sample is placed in the darkroom 1001 before and after being taken out, the ultraviolet lamp tube 15 can be controlled by the operating screen 10 to sterilize the inside of the darkroom 1001, therefore, the bacteria inside the darkroom 1001 can be prevented from influencing the detection of the test tube sample, the temperature control system inside the darkroom 1001 can control the room temperature inside the darkroom 1001 by the temperature controller 16, the temperature can be adjusted freely according to the required environment of the test sample, meanwhile, different temperatures can be adjusted by the temperature controller 16, the test tube sample can be compared conveniently, and the diversity of the functions of the equipment cabinet 1000 can be increased.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A sample interface apparatus and method of use, comprising an apparatus cabinet (1000), characterized in that: a darkroom (1001) is arranged in the equipment cabinet (1000), a driving assembly is arranged in an inner cavity of the darkroom (1001), the driving assembly comprises an X sliding table (1), an X-axis driving motor (2), a coupler (3), a Y sliding table (4), a Y-axis driving motor (5), a Z sliding table (6), a Z-axis driving motor (7) and an electric clamping jaw (8), the number of the X sliding tables (1) is two, the two X sliding tables (1) are symmetrically and fixedly connected in the inner cavity of the equipment cabinet (1000), the X-axis driving motor (2) is arranged at the top end of one of the X-axis sliding tables (1), the shaft coupling (3) is fixedly connected with the outer end of the X-axis driving motor (2), the other end of the coupler (3) is clamped in the inner cavity of the other X sliding table (1), the Y sliding table (4) is connected between the two X sliding tables (1) in a sliding manner, the Y-axis driving motor (5) is fixedly connected to the top end of the Y sliding table (4), the Z sliding table (6) is connected to the top end of the Y sliding table (4) in a sliding manner, the Z-axis driving motor (7) is fixedly connected to the top end of the Z sliding table (6), electronic clamping jaw (8) are located the bottom of Z slip table (6), just the inner chamber of darkroom (1001) is equipped with carrier (200).

2. The sample handing-over apparatus and method of use of claim 1, wherein: the carrier (200) comprises a lower plate (1002), an upper plate (1003), a handle (1004), a blind hole (1005) and a through hole (1006), wherein the lower plate (1002) and the upper plate (1003) are fixed through a connecting rod, the handle (1004) is fixedly connected to the top end of the upper plate (1003), the blind hole (1005) is arranged in an inner cavity of the lower plate (1002), and the through hole (1006) is arranged in an inner cavity of the upper plate (1003).

3. A sample handing-off apparatus and method of use as claimed in claim 2, wherein: the number of the blind holes (1005) is equal to that of the through holes (1006), and the positions of the blind holes (1005) and the through holes (1006) correspond to each other.

4. The sample handing-over apparatus and method of use of claim 1, wherein: the bottom end of the inner cavity of the darkroom (1001) is provided with a centrifugal assembly (9), the centrifugal assembly (9) comprises two centrifugal grooves (901) and a centrifuge door (902), the two centrifugal grooves (901) are arranged at the top end of the inner cavity of the darkroom (1001), and the centrifuge door (902) is connected in the inner cavity of the centrifugal grooves (901) in a sliding manner.

5. The apparatus of claim 4, wherein the apparatus further comprises: the centrifugal assembly (9) further comprises a normal-temperature centrifugal machine (903) and a freezing centrifugal machine (904), the normal-temperature centrifugal machine (903) and the freezing centrifugal machine (904) are respectively and fixedly connected to the inner cavities of the two centrifugal grooves (901), and one ends of the normal-temperature centrifugal machine (903) and the freezing centrifugal machine (904) penetrate through the equipment cabinet (1000) and extend to the outside.

6. The apparatus of claim 5, wherein the apparatus further comprises: the outer end fixedly connected with operation screen (10) of equipment cabinet (1000), operation screen (10) respectively with drive assembly normal atmospheric temperature centrifuge (903) and refrigerated centrifuge (904) between electric connection.

7. The sample handing-over apparatus and method of use of claim 1, wherein: an enzyme immune and biochemical sample storage box (11) and a nucleic acid sample storage box (12) are arranged in the inner cavity of the darkroom (1001), and a plurality of test tube grooves are formed in the inner cavities of the enzyme immune and biochemical sample storage box (11) and the nucleic acid sample storage box (12).

8. The sample handing-over apparatus and method of use of claim 2, wherein: through-hole (1006) that upper plate (1003) was seted up divide into three groups, and three groups through-hole (1006) divide into three colour district, the bottom of equipment cabinet (1000) is equipped with universal wheel (13), universal wheel (13) are equipped with four, four universal wheel (13) are rectangle fixed connection in the bottom of equipment cabinet (1000).

9. The sample handing-over apparatus and method of use of claim 6, wherein: the inside fixed connection of darkroom (1001) has cavity board (14), the outer end fixedly connected with glass board of cavity board (14), just the inner chamber fixedly connected with ultraviolet tube (15) of cavity board (14), ultraviolet tube (15) are equipped with a plurality of, a plurality of ultraviolet tube (15) with electric connection between operation screen (10), the outer end fixedly connected with temperature controller (16) of equipment cabinet (1000), temperature controller (16) with electric connection between operation screen (10), just the inner chamber of temperature controller (16) is equipped with temperature control system.

10. The sample interfacing apparatus and method of use of claim 1, wherein the forming is performed by:

s1, radio frequency and image analysis and batch information input;

s2, performing centrifugal pre-quality monitoring;

s3, centrifuging;

s4, quality monitoring after centrifugation;

s5, centralized arrangement;

and S6, refrigerating and freezing for storage.

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