CN115025825A - Clinical laboratory blood routine examination uses test tube storing compartment - Google Patents

Abstract

The invention discloses a test tube storage cabinet for routine blood detection in clinical laboratory, which is mainly of a vertical structure and comprises a storage cabinet, a transmission device and an analysis instrument, wherein the cabinet body part of the storage cabinet comprises an intelligent displayable control system, a rotatable storage structure and a signal recognition device. The intelligent displayable control system is a main control device of the storage cabinet, and is arranged at the positive end face of the cabinet body, the rotatable storage structure is fixed on the cabinet body on the inner side of the storage cabinet, the rotatable storage structure is composed of 8 fixed supports and can rotate clockwise, the test tube rack is fixed on the supports, so that the device keeps the fixed test tube rack in a horizontal state in the operation process, the controllable cold device is arranged in the test tube rack and is regulated and controlled through the signal recognition device, the right side of the cabinet body is provided with a sample feeding point, the height of the feeding point is consistent with the central position of the rotatable storage structure, and the signal setting device is arranged at the position; the signal identification recognition device is installed in the middle of the left side face of the cabinet body and horizontally corresponds to the signal setting device, the sample can be transferred to the transmission device through the transfer device in the storage cabinet, and the storage cabinet is connected with the analysis instrument through the transmission device for use.

Description

Clinical laboratory's blood routine detects uses test tube storing compartment

Technical Field

The invention relates to the technical field of medical instruments, in particular to a test tube storage cabinet for routine blood detection in clinical laboratory and a using method thereof.

Background

The hospital department of blood transfusion generally deposits the blood sample of gathering in the test tube, stores the test tube in cryogenic refrigerator again to guarantee the security and the validity of blood sample storage. In the field of medical equipment industry, relevant policy laws and laws require that a blood sample should be processed as soon as possible after collection, if the blood sample cannot be processed immediately after collection, the blood sample needs to be stored at a specified temperature of 2-8 ℃, and the blood sample should be used within a specified sample use time limit after the sample is stored, and when the sample storage time cannot be accurately judged, the blood sample is in a state that the blood sample cannot be used continuously, and when the sample is stored in a low-temperature environment for more than the time limit, the sample is also in a state that the sample cannot be used, and the existing test tube storage technology for blood routine detection exists: the problem that the retained test tubes cannot be independently and timely treated exists in the test tube storage process, blood inactivation can cause mixed bacteria breeding due to overlong sample placement time, viruses in the test tubes can be proliferated due to long-time inactivation of white blood cells, and the accuracy of blood detection is negatively affected.

As the prior art of the storage cabinet is that when blood samples are stored, the blood samples are generally stored in a fixed test tube rack together after being uniformly marked in the same batch, when the samples in the same batch are independently processed, the samples in the same batch need to be taken out, then the samples are selected and the rest samples are stored again, so that the ordered management of the samples cannot be comprehensively realized, the flexible taking and placing of the single samples are difficult to complete, when the samples in batches are stored samples and the storage time limit is about to be reached, the storage cabinet gives an alarm to remind or is additionally provided with a sample taking structure, the samples in the same batch cannot be effectively and respectively labeled and reminded, the samples which are about to be out of limit are difficult to be independently and respectively processed in time according to the time change, and the problems of waste of blood samples and storage of samples over time cannot be avoided, thereby causing batch failure of blood samples or influencing the measurement result of the samples.

Disclosure of Invention

The invention aims to provide a test tube storage cabinet for routine blood detection in clinical laboratory, which aims to solve the problems that test tubes which are retained in the test tube storage process cannot be processed independently and timely, the breeding of mixed bacteria can be caused by blood inactivation due to overlong sample placement time, viruses in the test tubes can be proliferated due to long-time inactivation of leucocytes, and the accuracy of blood detection is negatively influenced.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a clinical laboratory blood routine inspection is with test tube storing compartment, this instrument comprises two parts, including rotatable storage cabinet and sample analysis instrument, the structure of rotatable storage cabinet is vertical structure, and cabinet body part includes intelligent control system that can show, rotatable storage structure, signal recognition device and transfer device, the main control device of intelligent control system that can show is the storing compartment, installs in the positive terminal surface department of the external side of cabinet, rotatable storage structure is 8 fixed supports and constitutes, impels according to the time the supporting structure can take place clockwise rotation, rotatory storage structure is fixed on the internal side cabinet body of storing compartment, install fixed test-tube rack on the support and make it keep the horizontality in the operation, the test-tube rack bottom is for fixing the steerable cold charge device on the support, sets up the sample in the position in the middle of the cabinet body right side and puts in the point, the height of the throwing point is consistent with the central position of the rotary storage structure, and a signal setting device is arranged at the position; the signal identification and recognition device is installed in the middle of the left side face of the cabinet body and horizontally corresponds to the signal setting device, the transfer device is installed at the bottom of the cabinet body and used for taking samples according to commands or when the samples with limited storage time rotate to the bottom of the cabinet body, the samples are placed in the transmission device through the transfer device to be transferred, the sample analysis instrument is connected with the rotatable storage structure through the transmission device, the sample analysis instrument comprises a sample extraction device, a sterilization device, a sample analysis device and a display control device, and the transmission device can horizontally translate the samples transferred by the transfer device until the samples are located in the analysis instrument.

Furthermore, the rotatable storage structure comprises a wheel body, a rotating shaft, a support, a signal recognizer, a support and a hydraulic system, the structure controls the angle rotation of the support according to the time change, the hydraulic system serves as a power source to drive the rotating shaft and the wheel body to rotate the rotatable storage structure clockwise, and the independent operation of the sample is realized by utilizing the change of the sample along with the time change to change the position and starting a refrigerating device when the sample reaches the position of the sample when the time limit is reached.

Furthermore, the control system that intelligence can show is installed on the outside terminal surface of the positive terminal surface department of storing compartment to carry out information statistics, number input and sample access's adjustment of order to this system, and through signal setting device and signal recognition device, adjust rotatable storage structure and refrigerating plant's state, signal setting device carries out signal setting to the corresponding test-tube rack of new input sample after receiving the control system's that intelligence can show order, and control system that intelligence can show can carry out the nimble operation of multitask to the sample, adaptable multiple operating environment.

Furthermore, the controllable cooling device is arranged in the fixed test tube rack, the cooling temperature is controlled between 2 ℃ and 8 ℃, the storage time of the samples can be effectively prolonged at the temperature, when the test tube rack with the samples moves to 180 ℃, the test tube rack passes through the position to perform signal identification with the signal recognizer and start the cooling device, a plurality of samples fixed on the test tube rack can be respectively taken out in the running process of the instrument, when a single sample or a plurality of samples on the fixed test tube rack are taken out, the cooling device in the fixed test tube rack keeps a continuous running state until all the samples on the test tube rack are taken out, the cooling device on the rack is closed through the control system, so that the batch samples can be flexibly and independently operated, and the samples are prevented from being damaged due to the fact that the cooling device is closed because of the change of the number of the samples in the fixed test tube rack, thereby affecting the accuracy of the subsequent operation result of the sample.

Further, the transfer device is arranged on the bottom surface in the storage cabinet, the main structure is a mechanical arm and is arranged at the front end of the rotatable storage structure, the transfer device can recognize the storage time of the sample through a command given by the intelligent display control system, and when the command of the control device is received or the storage time of the sample is recognized to reach the limit time, the sample is horizontally moved through the mechanical arm in the transfer device to ensure the integrity of the sample, so that the sample can be taken and placed and the position of the sample can be transferred, and the sample can be restored to the original position after being moved to the sample transmission device by the transfer device, so that the sample can be used next time.

Further, including runner structure, track and signal identification device in the transmission device, work as the transfer device shifts the sample to when transmission device's track, signal identification device carries out signal identification and information record to the sample, drives the track through the runner structure for the sample carries out horizontal migration, and it is stable to remove the in-process, prevents that the sample from taking place to spill or deviating from the instrument, until removing to the analytical instrument in, in the track structure extends to the sample analytical instrument, the sample transmission of being convenient for, and reducible sample is in the transmission process because the sample loss that the position change leads to.

Furthermore, the sample analyzer is of a vertical structure, in order to ensure smooth sample transmission, a sample inlet is arranged at the left end face of the analyzer and is connected with the transmission device, the size of the sample inlet is consistent with that of the transmission device, a fixed mechanical device is arranged at the bottom face of the sample analyzer, samples on the crawler belt can be taken out and transferred, so that the samples are fixed at the center of the bottom face of the analyzer, the inside of the analyzer is of a multi-stage structure and sequentially comprises an extraction structure, a sterilization structure and a sample analysis structure from the bottom of the analyzer to the top, the multiple structures are connected through a pipeline, after the samples are transferred by the transmission device and enter the analyzer through the sample inlet, sample signals and corresponding information are recorded in the displayable control device, the displayable control device regulates and controls the analyzer, and by calling the mechanical device fixed at the bottom structure of the analyzer, and transferring and fixing the sample at the central position of the bottom structure of the analytical instrument, completing the analysis of the sample by sequentially passing the sample through the sample extraction device, the sterilization device and the sample analysis device, and recording and displaying the analysis result through the displayable control device.

Further, a test tube storage cabinet for routine blood detection in clinical laboratory, which comprises the following steps:

1) and opening a cabinet door, putting a sample to be stored in a sample putting area, putting the sample in a fixed test tube rack, keeping the sample horizontally fixed on the test tube rack, and closing the cabinet door.

2) Carry out information input through the control system that intelligence can show to this test-tube rack to the signal setting device through installing on the cabinet door sets up the detailed content of this group's sample.

3) After the setting is completed, the rotating device starts to slowly move clockwise.

4) When the moving rotation angle of the group of the supports for containing the samples is 180 degrees, the supports and the signal recognizer on the left side perform signal recognition, after the group of the samples are determined not to be completely taken, the refrigerating device in the fixed test tube rack is opened, the temperature of the samples stored in the fixed test tube rack is kept within 2-8 ℃, and the samples are stored continuously.

5) When the user called out the sample and assigned analysis instruction through the control system that intelligence can show, or when the sample depositing time reachd 4 h's top limit, transfer device in the storing compartment will be located the sample on the rotatable storage structure and take out through the regulation and control to the arm, shifts the sample again in the transmission device until the sample that holds on the support is by whole back of taking out, will through control system refrigerating plant on the support closes.

6) In the sample shifts to transmission device, through the signal recognition back to the sample, start transmission device, rotate the drive track through the gyro wheel in the device and remove, carry out parallel translation with the sample, the sample passes through analytical instrument's introduction port to the sample, enters into analytical instrument's inside.

7) When the sample gets into analytical instrument, need through the signal identification of introduction port department, signal recognition device discerns and the record to the signal and the relevant information of sample to but store in the inside demonstration controlling means of analytical instrument, through the inside mechanical structure of analytical instrument, transfer the sample to the inside bottom surface center department of analytical instrument from the track structure.

8) After the sample is fixed at the center in the analysis instrument, the sample enters the analysis instrument through a pipeline, the blood sample is analyzed through the extraction device, the sterilization device and the sample analysis device in sequence, and then the analysis result is recorded and displayed through the display control device.

Compared with the prior art, the invention has the following beneficial effects:

because the storage time of blood sample has the restriction, need handle the sample in the storage time restriction of regulation, so the blood sample that is stored cooperates through rotatable storage device and control system, can record and control the income cabinet time of sample according to the angle transform of support after the sample is deposited in the storage cabinet, thereby carry out nimble adjustment to the sample storage state, can in time open refrigerating plant and shift the sample, thereby effectively prevent the sample storage time transfinite, in order to realize the orderly storage of test tube, and effectively prolong the save time of sample, prevent that the sample dead time overlength in the storage cabinet, lead to the sample can't be used or influence the follow-up use of blood sample.

The refrigerating device is arranged in the fixed test tube rack, and the storage environment of the sample can be flexibly adjusted along with the time change through the matching of the fixed signal identification device and the refrigerating device, so that the preservation time of the test tube is prolonged.

Through transmission device and the analytical instrument that the storing compartment outside installed additional, make the sample when the time limit of arrival storage, accessible control system calls out storage structure with the sample is automatic, through structural and rotatable storage device front end at the storing compartment bottom surface additional installed transfer device, can carry out the sample automation with the sample in the storing compartment and take out and shift, the rethread is installed in the transmission device in the storing compartment outside makes the sample steadily get into analytical instrument, make the blood sample carry out work in the inside environment of instrument all the time, prevent to lead to the sample impaired because external environment changes, thereby influence follow-up measuring result.

Drawings

In order to more clearly illustrate the embodiments of the present invention, reference will now be made to the appended drawings, which are required in the description of the embodiments.

FIG. 1 is a schematic view of a complete test tube storage cabinet for routine blood testing in clinical laboratory;

FIG. 2 is a schematic view of the internal structure of the storage case;

FIG. 3 is a schematic view of a rotatable storage structure;

FIG. 4 is a schematic view of a fixed test tube rack configuration;

in the figure: 1. a storage cabinet; 2. an intelligent displayable control system; 3. a rotatable storage structure; 301. a support; 302. a support; 303. a rotating shaft; 4. a signal setting device; 5. a signal recognition device; 6. fixing the test tube rack; 601. a refrigeration device; 602. a test tube fixing device; 7. a transmission device; 8. an analytical instrument; 9. and a transfer device.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments.

Referring to fig. 1, in a test tube storage cabinet for routine blood testing in clinical laboratory, since the storage cabinet 1 regulates and controls the equipment through an intelligent display control system 2, the intelligent display control system 2 is installed at the cabinet door of the storage cabinet 1, and the signal setting device 4 is input by signal transmission, the rotatable storage structure 3, the signal setting device 4 and the signal identification device 5 are arranged in the storage cabinet 1, the rotatable storage structure 3 is arranged at the central position of the inner side surface of the storage cabinet 1, the signal setting device 4 is arranged at the right side end surface of the storage cabinet 1, the signal identification device 5 is arranged at the left end surface of the storage cabinet 1, and the central position of the rotatable storage structure 3 is consistent with the heights of the signal setting device 4 and the signal identification device 5, and the position of the signal setting device 4 is provided with a sample putting point, so that samples can be placed in the storage cabinet 1 in order and the regular management of the rotatable storage structure 3 is facilitated. The transfer device 9 is installed at the bottom of the cabinet body and used for taking samples according to commands or when the samples stored for a certain time are rotated to the bottom of the cabinet body, the samples are placed in the transmission device 7 through the transfer device 9 and transferred, the sample analysis instrument 8 is connected with the rotatable storage structure 3 through the transmission device 7, the sample analysis instrument 8 comprises a sample extraction structure, a sterilization structure, a sample analysis structure and a display control structure, and the samples transferred by the transfer device 9 can be horizontally translated through the operation of the transmission device 7 until the samples are located inside the analysis instrument 8.

Rotatable storage structure 3 is inside by support 301, support 302 and pivot 303 are assembled and are formed, rotatable storage structure 3 is connected fixedly through support 302 structure and the cabinet body part of storing cabinet 1, pivot 303 part is then as the power source through the hydraulic system in the storing cabinet 1, and drive support 301 structure and carry out rotary motion, support 301 part is then assembled by eight unanimous support 301 of length and forms, support 301 one end is fixed on support 302, the other end is connected with fixed test-tube rack 6, fixed test-tube rack 6 is stably fixed on support 301, rotatable storage structure 3 carries out rotatory in-process fixed test-tube rack 6 and keeps the horizontality, prevent that the sample from spilling at instrument operation in-process, keep the stability of instrument at operation in-process sample.

Inside refrigerating plant 601 and the test tube fixing device 602 of including of fixed test-tube rack 6 structure, test tube fixing device 602 is located the inside at refrigerating plant 601, fix the test tube, prevent that the test tube from appearing the condition that drops at rotatory in-process, refrigerating plant 601 is the surrounding state, after twenty minutes has been deposited to the sample, hold fixed test-tube rack 6 of sample rotatory to 180, carry out temperature control to the inside test tube of fixed test-tube rack 6 behind the signal recognition device 5, keep the test tube within 2-8 ℃, in order to realize the purpose of sample save time extension.

The transfer device 9 is arranged at the bottom surface in the storage cabinet 1, the main structure is a mechanical arm and is arranged at the front end of the rotatable storage structure 3, the transfer device 9 can recognize the storage time of the sample through a command given by the intelligent display control system 2, when the command is received by the intelligent display control system 2 or the storage time of the sample is recognized to reach the limit time, the sample is moved through the mechanical arm in the transfer device 9, so that the sample can be taken and placed and the position can be transferred, and the transfer device 9 can restore the original position after the sample is moved to the sample transmission device 7 for the next use.

Including the runner structure in the transmission device 7, track and signal recognition device, when transfer device 9 shifts the sample to the track of transmission device 7 on, carry out signal identification and information recording to the sample through signal recognition device, drive the track through the runner structure, make the sample carry out horizontal migration, until moving to in the analytical instrument 8, the track structure extends to in the sample analytical instrument 8, the sample transmission of being convenient for, and reducible sample is in the transmission course because the sample loss that the position change leads to.

The sample analyzer 8 is a vertical structure, in order to ensure smooth transmission of samples, a sample inlet is arranged at the left end face of the sample analyzer 8 and is connected with the transmission device 7, the size of the sample inlet is consistent with that of the transmission device 7, a fixing mechanical device is arranged at the bottom face of the sample analyzer 8 and can take out and transfer samples on a track, so that the samples are fixed at the center of the bottom face of the analyzer 8, the inside of the analyzer 8 is a multi-stage structure, an extraction structure, a sterilization structure and a sample analysis structure are sequentially arranged from the bottom of the analyzer 8 to the top, the multi-stage structures are connected through a pipeline, after the samples enter the analyzer 8 through the sample inlet by transferring the transmission device 7, sample signals and corresponding information are recorded into a display control device, the display control device regulates and controls the analyzer 8, and a mechanical device fixed at the bottom structure of the analyzer 8 is called, and transferring and fixing the sample at the central position of the bottom structure of the analytical instrument 8, completing the analysis of the sample by sequentially passing the sample through the sample extraction structure, the sterilization structure and the sample analysis structure, and recording and displaying the analysis result through the displayable control structure.

The using method of the device specifically comprises the following steps:

the method comprises the following steps: opening the cabinet door 1, putting a sample to be stored in a sample putting area, placing the sample in a fixed test tube rack 6, keeping the sample horizontally fixed on a test tube fixing device 602 in the test tube rack, and closing the cabinet door;

step two: inputting information into a fixed test tube rack 6 through an intelligent displayable control system 2, and setting the detailed content of a sample through a signal setting device 4 arranged on a cabinet door;

step three: after the setting is completed, the rotating device in the rotatable storage structure 3 starts to slowly move clockwise;

step four: when the movement rotation angle of the bracket 301 for containing the sample is 180 degrees, the bracket 301 and the signal recognition device 5 positioned on the left side perform signal recognition, after the sample is determined to be not taken completely, the refrigeration device 601 in the fixed test tube rack 6 is opened, the temperature of the sample stored in the fixed test tube rack 6 is kept within 2-8 ℃, and the sample is stored continuously;

step five: when the user calls out the sample and issues analysis instruction through the control system 2 that intelligence can show, or when the sample depositing time reaches the ceiling of 4h, transfer device 9 in the storing compartment through the regulation and control to the arm, will be located the sample on rotatable storage structure 3 and take out, transfer the sample again to transmission device 7 in, until the sample that holds on the support 301 is taken out the back totally, through the control system 2 that intelligence can show closing refrigerating plant 601 on the support 301.

Step six: in the sample shifts to transmission device 7, through the signal recognition back to the sample, start transmission device 7, rotate the drive track through the gyro wheel in the device and remove, carry out parallel translation with the sample, the sample passes through analytical instrument 8's introduction port, enters into analytical instrument 8's inside.

Step seven: when the sample gets into analytical instrument 8, need through the signal identification of introduction port department, signal recognition device discerns and the record to the signal and the relevant information of sample to but store in analytical instrument inside display control device, through the inside mechanical structure of analytical instrument 8, with sample from the track structure transfer to the inside bottom surface center department of analytical instrument.

Step eight: after the sample is fixed at the center in the analysis instrument 8, the sample enters the analysis instrument 8 through a pipeline, the sample sequentially passes through the extraction device, the sterilization device and the sample analysis device to complete the analysis of the sample, and then the analysis result is recorded and displayed through the display control device.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not exhaustive and do not limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is to be limited only as required by the following claims and their full scope and equivalents.

Claims (9)

1. A test tube storing cabinet for routine test of clinical laboratory blood comprises: storage cabinet (1), intelligent displayable control system (2), rotatable storage structure (3), signal setting device (4), signal recognition device (5), fixed test tube support (6), transmission device (7), analytical instrument (8), transfer device (9), its characterized in that: the storage cabinet (1) comprises a main body and a plurality of parts, wherein the main body comprises a rotatable storage cabinet (1), a transmission device (7) and a sample analysis instrument (8), the rotatable storage cabinet (1) is of a vertical structure, the cabinet body part of the rotatable storage cabinet (1) comprises an intelligent displayable control system (2), a rotatable storage structure (3), a signal recognition device (4) and a transfer device (9), the cabinet door of the storage cabinet (1) is arranged at the positive end face, the intelligent displayable control system (2) is positioned at the positive end face of the cabinet door, the rotatable storage structure (3) is composed of 8 fixed supports (301), the support (301) structure can rotate clockwise according to time, the rotatable storage structure (3) is arranged in the storage cabinet (1), and is fixedly arranged at the central position of the inner side face of the storage cabinet (1), the device is characterized in that a fixed test tube rack (6) is mounted on a support (301) and is kept in a horizontal state in the operation process, a controllable cooling device (601) fixed on the support is arranged at the bottom of the fixed test tube rack (6), a sample putting point is arranged at the middle position of the right side of a cabinet body of a storage cabinet (1), a signal setting device (4) is arranged at the middle position of the right side of the cabinet body of the storage cabinet (1) and is consistent with the central position of a rotatable storage structure (3), a signal identification device (5) is mounted at the middle position of the left side surface of the cabinet body and is in a horizontal corresponding state with the signal setting device (4), a transfer device (9) is mounted at the bottom of the cabinet body and is located at the front position of the rotatable storage structure (3) and used for taking out a sample according to a command or when the sample with the storage time to the limit rotates to the bottom of the cabinet body of the storage cabinet (1), then, the sample is operated through the mechanical arm structure, so that the sample can horizontally move, and finally, the sample is placed at a sample fixing point in the transmission device (7) to realize sample transfer, the sample analysis instrument (8) is connected with the rotatable storage cabinet (1) through the transmission device (7), the sample analysis instrument (8) internally comprises a sample extraction structure, a sterilization structure, a sample analysis structure and a display control structure, and the transmission device (7) can horizontally translate the sample through the transfer device (9) until the sample is positioned in the analysis instrument (8).

2. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 1, wherein: rotatable storage structure (3) include support (301), support (302), pivot (303) and hydraulic system, rotatable storage structure (3) structure is according to time variation, carries out angle rotation control with support (301), and hydraulic system is as the power supply, drives pivot (303) and support (301) and carries out clockwise rotation with rotatable storage structure (3).

3. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 2, wherein: one end of the support (301) is fixed on the support (302), the other end of the support is fixedly provided with the bottom end of the fixed test tube rack (6), and when the support (301) rotates, the fixed test tube rack (6) keeps a horizontal state.

4. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 3, wherein: fixed test-tube rack (6) are including refrigerating plant (601) and test tube fixing device (602), and refrigerating plant (601) are located the outside of fixed test-tube rack (6) and are encircleing the form, and test tube fixing device (602) is installed in the inside of fixed test-tube rack (6), is surrounded by refrigerating plant (601).

5. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 1, wherein: the signal setting device (4) can set the signal of the support (301) after receiving the command of the intelligent displayable control system (2), and the support (301) issues an opening command to the refrigerating device (601) on the support (301) through signal identification when passing through the signal identification device (5).

6. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 1, wherein: the transfer device (9) is installed at the bottom surface in the storage cabinet (1), the main structure is a mechanical arm and is installed at the front end of the rotatable storage structure (3), the transfer device (9) recognizes the storage time of the samples through commands issued by the intelligent display control system (2) or by recognizing the storage time of the samples, when the commands of the intelligent display control system (2) are received or when the storage time of the samples reaches the limit time, the samples are moved through the mechanical arm in the transfer device (9) to achieve the taking and placing of the samples and the position transfer, and the transfer device (9) moves the samples to the sample transmission device (7) and then restores the original positions for the next use.

7. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 1, wherein: including runner structure, track and signal identification device in transmission device (7), work as transfer device (9) shift to the sample when on transmission device (7)'s the track, carry out signal identification and information record to the sample through signal identification device, drive the track through the runner structure for the sample carries out horizontal migration, and in until removing to analytical instrument (8), the track structure extends to in sample analytical instrument (8).

8. The test tube storage cabinet for clinical laboratory blood routine tests according to claim 1, characterized in that: the sample analyzer (8) is of a vertical structure, in order to ensure smooth transmission of samples, a sample inlet is arranged at the left end face of the sample analyzer (8) and is connected with the transmission device (7), the size of the sample inlet is consistent with that of the transmission device (7), a fixed mechanical device is arranged at the bottom face of the sample analyzer (8) and can take out and transfer samples on a crawler belt, so that the samples are fixed at the center of the bottom face of the sample analyzer (8), the inside of the sample analyzer (8) is of a multi-stage structure and sequentially comprises an extraction structure, a sterilization structure and a sample analysis structure from the bottom of the analyzer to the top, the multi-stage structure is connected through a pipeline, after the samples enter the sample analyzer (8) through the sample inlet after being transferred by the transmission device (7), sample signals and corresponding information are recorded in the display control device, and the display control device regulates and controls the sample analyzer (8), transferring and fixing the sample at the central position of the bottom structure of the analysis instrument (8) by calling a mechanical device fixed at the bottom structure of the analysis instrument (8), completing the analysis of the sample by sequentially passing the sample through the sample extraction structure, the sterilization structure and the sample analysis structure, and recording and displaying the analysis result through the displayable control structure.

9. The test tube storage cabinet for routine blood tests in clinical laboratories according to claim 1, wherein: the method specifically comprises the following steps:

the method comprises the following steps: opening a cabinet door (1), putting a sample to be stored in a sample putting area, placing the sample in a fixed test tube rack (6), keeping the sample horizontally fixed on a test tube fixing device (602) in the test tube rack, and closing the cabinet door;

step two: information is input to the fixed test tube rack (6) through the intelligent displayable control system (2), and the detailed content of the sample is set through the signal setting device (4) arranged on the cabinet door;

step three: after the setting is finished, the rotating device in the rotatable storage structure (3) starts to slowly move clockwise;

step four: when the movement rotation angle of a bracket (301) for containing a sample is 180 degrees, the bracket (301) and a signal recognition device (5) positioned on the left side perform signal recognition, after the fact that the sample is not taken completely is determined, a refrigerating device (601) in the fixed test tube rack (6) is opened, the temperature of the sample stored in the fixed test tube rack (6) is kept within 2-8 ℃, and the sample is stored continuously;

step five: when a user calls out a sample through the intelligent display control system (2) and issues an analysis instruction, or when the sample storage time reaches the maximum limit of 4h, a transfer device (9) in the storage cabinet takes out the sample on the rotatable storage structure (3) through regulating and controlling the mechanical arm, and then transfers the sample into a transmission device (7), until the sample contained on the support (301) is completely taken out, the refrigeration device (601) on the support is closed through the intelligent display control system (2);

step six: when a sample is transferred to a sample putting position in the transmission device (7), the transmission device (7) is started after signal recognition of the sample, the track is driven to move by the rotation of the roller in the device, and the sample is moved in parallel to the sample to enter the analysis instrument (8) through the sample inlet of the analysis instrument (8);

step seven: when a sample enters an analysis instrument (8), the signal identification at the sample inlet is needed, a signal identification device identifies and records the signal and related information of the sample and stores the signal and related information in a display control device in the analysis instrument, and after the sample is transferred into the analysis instrument (8) through a transmission device (7), the sample is transferred to the center of the bottom surface in the analysis instrument (8) from a crawler structure through a mechanical structure in the analysis instrument (8);

step eight: after the sample is fixed at the center in the analysis instrument (8), the sample is sequentially analyzed through the extraction device, the sterilization device and the sample analysis device through pipelines, and then the analysis result is recorded and displayed through the displayable control device.

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