CN110995865A - Sample handing-over save set - Google Patents

Abstract

The invention belongs to the technical field of sample storage devices, and discloses a sample handover storage device, which comprises a sample receiving device, a storage device and a temperature control device; a sample receiving device for temporarily storing the loaded sample; the storage device is used for storing the loaded sample and recording the real-time state of the sample, a transmission channel is arranged between the storage device and the storage device, and the sample can be conveyed from the sample receiving device to the storage device through the transmission channel; and the temperature control device is used for adjusting the temperature in the storage device. The sample preservation and transfer device can ensure that the transferred sample is properly preserved by adopting a temperature control mode, and adverse effects on the sample due to temperature change are reduced; the information recording can be realized through personnel authorization and task coding, and the personnel can be managed in authorization level; the remote sample handover can be realized, and the working efficiency is greatly improved; the sample state during remote sample handover is recorded and stored through multiple means, and a basis is provided for subsequent sample management basis.

Description

Sample handing-over save set

Technical Field

The invention relates to the technical field of sample storage devices, in particular to a sample handover storage device.

Background

Samples analyzed by the ecological environment monitoring laboratory need to meet the requirements of analysis standards so as to ensure the reasonability and accuracy of experimental analysis results. Therefore, when receiving a sample, a laboratory sample receiver needs to perform sample transfer confirmation with a sample sender, so as to ensure that the sampled or sent sample meets the requirements or both sides confirm the state of the sample at the time of sample sending, thereby clarifying responsibility of both sides.

At present, the sample handover process is carried out by sample receiving personnel and sample sending personnel on the spot, and the samples are stored by the sample receiving personnel according to requirements after the handover is completed. However, due to uncertainty of sample sending time, a sample sending person may send samples in non-working time, and at this time, the sample sending person generally keeps samples and waits for the sample receiving person to arrive at post and then to hand over, or places the samples at a designated position of the sample receiving person and waits for the sample receiving person to arrive at post and then to confirm. In the former case, time and labor are wasted, and the sample sending personnel generally cannot preserve the sample, so that the sample fails; the latter situation easily causes sample loss, or if the number and character confirmation results of the placed samples are inconsistent with the sample sending after the sample receiving personnel arrive at the post, due to lack of relevant evidence, the responsibility of both parties is difficult to define, and difficulty is brought to the experimental analysis and detection work.

Therefore, there is a need in the art for a sample transfer and storage device that solves the above problems.

Disclosure of Invention

In order to solve the ecological environment monitoring sample handing-over in-process among the prior art, if the both sides can't be when the face carries out the sample handing-over, can realize long-range sample handing-over, the sample of rationally preserving handing-over or keeping in temporary to through means such as shooing, video recording state evidence when keeping long-range sample handing-over, provide the basis for follow-up sample management. The invention provides a sample handover and storage device, which comprises a sample receiving device, a storage device and a temperature control device, wherein the sample receiving device is connected with the temperature control device; the sample receiving device is used for temporarily storing the loaded samples, a sample placing box is arranged in the sample receiving device, the samples are placed in the sample placing box, a first box door is arranged on the front panel of the sample receiving device, a second box door is arranged on the side panel of the sample receiving device, and the first box door and the second box door can be opened and closed; the sample receiving device is arranged on one side of a second box door of the sample receiving device, is adjacent to the storage device, is provided with a conveying channel between the sample receiving device and the storage device, and can convey the sample from the sample receiving device to the storage device through the conveying channel; the temperature control device is used for adjusting the temperature in the storage device, the temperature control device is arranged on the rear side of the storage device, the temperature control device can refrigerate and heat, and the storage device is always kept in a proper temperature condition according to the requirement of a sample.

In above-mentioned sample handing-over save set's preferred technical scheme, sample handing-over save set still includes tray and weight sensor, and the tray setting is in the bottom that connects kind device, and weight sensor sets up inside the tray for weigh the sample.

In above-mentioned sample handing-over save set's preferred technical scheme, sample handing-over save set still includes a plurality of cameras, and the camera setting is connecing the inside top layer of appearance device, and the camera can shoot, record the video to the sample of packing into to and scan the discernment to the sample two-dimensional code.

In the preferred technical scheme of above-mentioned sample handing-over save set, connect appearance device still to be provided with first display screen, data box and sample code printing apparatus, can carry out identification, sample and pack into, the state is acquireed and is preserved the operation through first display screen, and the data box is used for placing corresponding paper data, and sample code printing apparatus is used for printing mark sample two-dimensional code label.

In the preferred technical scheme of the sample handover and storage device, the storage device comprises four multi-section air cylinders and a laminate, wherein the laminate comprises an upper laminate, a middle laminate and a lower laminate, the air cylinders are arranged at the bottom of the storage device and positioned at right angles, and the upper laminate is fixedly connected with first fixing parts of the multi-section air cylinders; well plywood and second festival fixed part fixed connection, lower plywood and third festival fixed part fixed connection through the cylinder motion, can realize reciprocating of upper plate, well plywood and lower plywood, and when multisection cylinder was in the shrink state, the height of upper plate was not higher than sample transmission path's height, made sample accessible sample transmission path convey to any plywood of upper plate, well plywood, lower plywood three on.

In the preferred technical scheme of the sample handing-over and preserving device, the maximum height difference between the upper plate and the middle plate and the maximum height difference between the middle plate and the lower plate are both 50 cm.

In the preferable technical scheme of the sample handover and storage device, the storage device comprises an upper door, a middle door and a lower door, the upper door, the middle door and the lower door are all provided with second display screens, and the upper door, the middle door or the lower door is opened through the second display screens or a remote instruction; the second display can also be used to adjust the temperature of the upper, middle and lower layers.

In a preferred embodiment of the above sample handover and storage device, the sample handover and storage device further includes a wireless transmission and a wired communication interface, the wireless transmission includes 2G/3G/4G/5G/WiFi signal transmission, and the wired communication interface is connected to a network cable for communication.

In the preferred embodiment of the above sample transfer and storage device, the sample transfer and storage device further comprises a software system, the software system is provided with a user mode and an administrator mode,

the user mode can implement the following operation flow:

s101, printing a sample coding strip to be attached to a sample according to a prompt, and loading the sample into a sample placing box;

s102, carrying out state acquisition operation on the loaded sample;

s103, sending the sample state file obtained in the finished state to an administrator for confirmation;

s104, filling paper related to the sample;

s105, storing the samples which are not confirmed temporarily to a specified position through operation after obtaining authorization;

the administrator mode enables the following operational flow:

s201, establishing a new task number, and sending the new task number to a sample sending person in a character coding mode, wherein the sample sending person can use the code to log in and perform related operations in a user mode;

s202, confirming the state of a sample loaded by a sample sending person, and setting a storage position and a storage condition for the confirmed sample;

s203, whether the user is allowed to use the temporary storage function or not is judged, and samples which cannot be confirmed are temporarily stored;

and S204, calling the acquired sample state information.

In the preferred technical scheme of the sample handover and storage device, the sample state information comprises a two-dimensional code label, a picture, a video and paper data, and the paper data comprises a signature file of a sample delivery person.

As can be understood by those skilled in the art, in the preferred embodiment of the sample transfer and storage device of the present invention, compared with the prior art, the sample transfer and storage device of the present invention has the following advantages:

1. the sample preservation and transfer device can ensure that the transferred sample is properly preserved by adopting a temperature control mode, so that the sample is preserved at a proper temperature, and adverse effects on the sample caused by temperature change are reduced;

2. information recording of the items handed over by the two parties can be realized through personnel authorization and task coding, authorization level management can be realized for the personnel, different authorization levels have different operation authorities, and the safety of a sample is further ensured;

3. the remote sample handover can be realized, and under the condition that no worker is on site, the sample handover can also be realized, so that the working efficiency is greatly improved;

4. the sample state during the remote sample handover is recorded and stored through various means such as photographing, video and the like, and a basis is provided for the subsequent sample management basis.

Drawings

Preferred embodiments of the present invention are described below with reference to the accompanying drawings, in which:

FIG. 1 is a first schematic view of a sample transfer and storage device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a sample transfer and storage device according to an embodiment of the present invention;

FIG. 3 is a schematic view of the assembly of the upper plate, the middle plate, the lower plate and the multi-section cylinder of the present invention;

FIG. 4 is a schematic view of an embodiment of the upper panel of the present invention;

FIG. 5 is a user mode flow diagram of the present invention;

FIG. 6 is a flow chart of an administrator mode of the present invention.

Reference numerals: 1. a sample receiving device; 11. a sample placement box; 12. a first door; 13. a tray; 2. a storage device; 21. a door is arranged; 22. a middle door; 23. a lower door; 24. an upper plate; 25. a middle layer plate; 26. a lower layer plate; 3. a temperature control device; 4. a first display screen; 5. a data box; 6. a sample code printing device; 7. a second display screen; 8. a transfer channel; 9. a multi-section cylinder.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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.

It should be noted that in the description of the present invention, the terms "in", "upper", "lower", "inside", and the like indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or the elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the current ecological environment monitoring sample handing-over process that points out based on the background art, if both sides can't be when the face carries out the sample handing-over, can realize long-range sample handing-over, rationally preserve the sample of handing-over or keeping in temporary to means such as video and making a video recording remain state evidence when long-range sample handing-over, provide the basis for follow-up sample management. Compared with the prior art, the sample preservation and transfer device can ensure that the transferred sample is properly preserved by adopting a temperature control mode, so that the sample is preserved at a proper temperature, and adverse effects on the sample due to temperature change are reduced; information recording of the items handed over by the two parties can be realized through personnel authorization and task coding, authorization level management can be realized for the personnel, different authorization levels have different operation authorities, and the safety of a sample is further ensured; when the remote sample handover is realized, the sample handover can be realized under the condition that no worker is on the spot, so that the working efficiency is greatly improved; the sample state during the remote sample handover is recorded and stored through various means such as photographing, video and the like, and a basis is provided for the follow-up sample management basis.

Specifically, as shown in fig. 1 and 2, the sample transfer and storage device 2 of the present invention comprises a sample transfer device 1, a storage device 2 and a temperature control device 3; the sample receiving device 1 is used for temporarily storing a loaded sample, a sample placing box 11 is arranged in the sample receiving device 1, the sample is placed in the sample placing box 11, a first box door 12 is arranged on the front panel of the sample receiving device 1, a second box door is arranged on the side panel of the sample receiving device 1, and the first box door 12 and the second box door can be opened and closed independently; the sample receiving device 1 is arranged on one side of a second box door of the sample receiving device 1, the sample receiving device 1 is arranged adjacent to the sample storage device 2, a conveying channel 8 is arranged between the sample receiving device 1 and the sample storage device 2, and the sample can be conveyed from the sample receiving device 1 to the sample storage device 2 through the conveying channel 8; temperature control device 3 for adjust the temperature in save set 2, temperature control device 3 sets up the rear side at save set 2, and temperature control device 3 can refrigerate and heat, makes save set 2 keep in suitable temperature condition all the time according to the sample needs. In the present invention, the sample receiving apparatus 1 and the holding apparatus 2 are both rectangular in shape.

Preferably, as shown in fig. 1 and 2, the sample transfer and storage device 2 further includes a tray 13, a control device and a weight sensor, the weight sensor is connected with the control device, the control device is disposed inside the sample receiving device 1, the tray is disposed at the bottom of the sample receiving device 1, and the weight sensor is disposed inside the tray and is used for weighing the sample. In the present invention, the weight sensor is prior art and is not described herein.

Preferably, sample handing-over save set 2 still includes a plurality of cameras, and the camera setting is in connecing the inside top layer of appearance device 1, and the camera can shoot, record the video to the sample of packing into to and scan the discernment to the sample two-dimensional code. In the present invention, the specific structure of the camera is the prior art, and is not described herein again.

Preferably, as shown in fig. 1 and 2, the sample receiving device 1 is further provided with a first display screen 4, a data box 5 and a sample code printing device 6, the first display screen 4 can be used for identification, sample loading, state acquisition and storage operations, the data box 5 is used for placing corresponding paper data, and the sample code printing device 6 is used for printing and marking a sample two-dimensional code label.

Preferably, as shown in fig. 2, 3 and 4, the storage device 2 comprises four multi-section cylinders 9 and a laminate, wherein the laminate comprises an upper laminate 24, a middle laminate 25 and a lower laminate 26, the cylinders are arranged at the bottom of the storage device 2 and are positioned at right angles, and the upper laminate 24 is fixedly connected with the first section fixing parts of the multi-section cylinders 9; middle-layer board 25 and second section fixed part fixed connection, lower floor's board 26 and third section fixed part fixed connection through the cylinder motion, can realize the reciprocating of upper plate 24, middle-layer board 25 and lower floor's board 26, and when multisection cylinder 9 was in the shrink state, upper plate 24 highly was not higher than sample transmission channel's height, makes sample accessible sample transmission channel convey to the arbitrary plywood of upper plate 24, middle-layer board 25, lower floor's board 26 three. In the invention, the storage device 2 further comprises an air pump and a pneumatic control valve, wherein the air pump is connected with the starting control valve through a first pipeline, the pneumatic control valve is connected with the multi-section air cylinder 9 through a second pipeline, different cylinder bodies of the multi-section air cylinder 9 are stretched by controlling the pneumatic control valve, and then each layer plate (an upper layer plate 24, a middle layer plate 25 and a lower layer plate 26) is driven to move up and down, and the layer height of each layer is adjusted according to the sample height.

Preferably, the maximum height difference between the upper and middle panels 24, 25 and the maximum height difference between the middle and lower panels 25, 26 are both 50 cm.

Preferably, as shown in fig. 2, the storage device 2 comprises an upper door 21, a middle door 22 and a lower door 23, the upper door 21, the middle door 22 and the lower door 23 are all provided with a second display screen 7, and the upper door 21, the middle door 22 or the lower door 23 can be opened through the second display screen 7 or a remote instruction; the second display can also be used to adjust the temperature of the upper, middle and lower layers.

Preferably, the sample transfer and storage device 2 further comprises a wireless transmission and a wired communication interface, the wireless transmission comprises 2G/3G/4G/5G/WiFi signal transmission, and the wired communication interface is connected with a network cable for communication.

Preferably, the sample transfer and storage device 2 further comprises a software system, wherein the software system is provided with a user mode and an administrator mode;

the user mode can implement the following operation flow, as shown in fig. 5:

s101, printing a sample coding strip according to the prompt, attaching the sample coding strip to a sample, and loading the sample into a sample placing box 11;

s102, carrying out state acquisition operation on the loaded sample;

s103, sending the sample state file obtained in the finished state to an administrator for confirmation;

s104, filling paper related to the sample;

s105, storing the samples which are not confirmed temporarily to a specified position through operation after obtaining authorization;

the administrator mode can implement the following operational flow, as shown in FIG. 6:

s201, establishing a new task number, and sending the new task number to a sample sending person in a character coding mode, wherein the sample sending person can use the code to log in and perform related operations in a user mode;

s202, confirming the state of a sample loaded by a sample sending person, and setting a storage position and a storage condition for the confirmed sample;

s203, whether the user is allowed to use the temporary storage function or not is judged, and samples which cannot be confirmed are temporarily stored;

and S204, calling the acquired sample state information.

Preferably, the sample state information comprises two-dimensional code labels, pictures, videos and paper data, and the paper data comprises a sample presentation person signature file.

The sample remote handover process of the invention is as follows:

the sample delivery personnel need a batch of samples to be delivered to the laboratory for analysis, and the sample administrator is not on site after the samples arrive at the laboratory, so that the samples are transported back to wait for next re-delivery, which not only wastes time and increases labor and transportation cost, but also can cause the samples to exceed the quality guarantee period or lose effectiveness due to lack of storage conditions in the transportation path, thereby causing loss, and both parties can carry out remote handover after contact.

Sample administrator passes through handheld terminal, APP, applet or the long-range handing-over procedure of webpage login sample, inquires each present long-range sample handing-over save set 2's state to according to the sample quantity that send kind personnel to provide and information such as container, confirm whether can carry out long-range handing-over, if satisfy the handing-over condition, generate the task number of handing-over on APP, send the device number of long-range handing-over for sending kind personnel simultaneously.

And after receiving the handover task number and the device number, the sample sending personnel logs in on the specified device by the user identity through the task number on the operation screen, and inputs related sample sending units and sample sending personnel information according to requirements. And entering a sample handover interface after the login is finished, and starting sample handover under the prompt of the system. But the system prints out the sample code of self-adhesion or formula of magnetism through sample code print mouth at first, send a sample personnel to paste this code on the sample container that needs handing-over, then place the sample in the tray in sample placement box 11, begin to carry out sample state and acquire and sample code scanning, can select to make a video recording or video or weigh in one or more compound mode, the system carries out multi-angle according to the mode of selection and makes a video recording, video or weighs. And after the state is acquired, the sampling personnel confirms the acquired result, and can select to acquire again if the result is not satisfactory, or select to confirm if the result is approved. The system sends the confirmed state data to a sample manager, the sample manager checks the result, if the result meets the requirement, the sample is confirmed to be receivable on the APP, the storage position is specified, the instruction is sent out, the system sends the sample to the position of the specified shelf layer of the sample storage box through the transmission channel according to the instruction, and the sample manager sets the temperature of the shelf layer according to the sample analysis requirement to ensure that the sample is stored under the standard temperature condition. If the sample manager considers that the acquisition result is not in accordance with the requirement, the sample sending personnel can be required to acquire the sample again or add an acquisition means, and the sample sending personnel takes out the sample for the final non-approved result without handover. After all samples are handed over, the two parties confirm the number of the samples which are handed over, and the samples are signed and confirmed on the APP and the device operation screen respectively, and confirmed results are sent to the two parties in a file mode respectively to serve as the evidence for the completion of the handing over. If the sample has paper data, the sample sending personnel stores the data in the data box 5 after operating through the operation screen. When all samples are handed over and data storage is finished, the sample sending personnel can finish the task through the operation of the operation screen.

The temporary sample storage and handover process comprises the following steps:

the method comprises the steps of inquiring a sample which does not meet requirements or a sample which cannot be handed over and cannot be confirmed in a state obtaining result, generating a temporary storage task after a sample manager determines a stored device, a stored region (shelf) and a stored time limit through negotiation between the two parties, sending a task number to a sample sending person, carrying out sample temporary storage operation after the sample sending person logs in through the temporary storage task number, and carrying out the operation of temporary storage of the sample except that the sample manager is not required to carry out state confirmation operation. After all samples enter a temporary storage area (shelf), the sample sending personnel log in the display screen of the layer through the task number and then set the temperature. The temporary stored sample can be locked by the sample delivery personnel through the locking function within the permission period, and the sample management authority (unpacking, taking and temperature control setting) in the area is locked, so that the sample administrator has no right to operate. The sample sending personnel can check the temporary storage sample state in real time through the APP. When the license period expires, if the sample is not taken by the sample presentation personnel, the administrative authority is transferred to the sample administrator.

The sample delay handover process of the invention is as follows:

when the sample administrator can not carry out long-range handing-over at that time for some reason, send a kind personnel to store in with the sample in temporary storage function. In the period of keeping in, the sample administrator can be through looking over the state condition that the sample obtained when keeping in, if think accord with the handing-over condition, can carry out the handing-over, and the personnel of delivering a sample can remove locking function with the sample state of keeping in, confirms the back of receiving when the sample administrator, and both sides carry out the signature respectively on APP and confirm, and the result of confirming is sent for both sides through the form of file respectively and is accomplished the evidence as the handing-over, and the sample administration authority shifts to the sample administrator this moment, and the personnel of delivering a sample lose the sample administration authority.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (10)

1. A sample handover and storage device is characterized by comprising a sample receiving device, a storage device and a temperature control device;

the sample receiving device is used for temporarily storing the loaded samples, a sample placing box is arranged in the sample receiving device, the samples are placed in the sample placing box, a first box door is arranged on the front panel of the sample receiving device, a second box door is arranged on the side panel of the sample receiving device, and the first box door and the second box door can be opened and closed;

the sample receiving device is arranged on one side of a second box door of the sample receiving device, is adjacent to the storage device, is provided with a conveying channel between the sample receiving device and the storage device, and can convey the sample from the sample receiving device to the storage device through the conveying channel;

the temperature control device is used for adjusting the temperature in the storage device, the temperature control device is arranged on the rear side of the storage device, the temperature control device can refrigerate and heat, and the storage device is always kept in a proper temperature condition according to the requirement of a sample.

2. The sample transfer and storage device of claim 1, further comprising a tray disposed at the bottom of the sample transfer device and a weight sensor disposed inside the tray for weighing the sample.

3. The sample handing-over save set of claim 1, characterized in that, the sample handing-over save set further comprises a plurality of cameras, the cameras are arranged on the top layer inside the sample accepting device, the cameras can take pictures and record videos of the loaded samples, and scan and identify the two-dimensional codes of the samples.

4. The sample handing-over preservation device of claim 1, wherein the sample handing-over preservation device is further provided with a first display screen, a data box and a sample code printing device, the first display screen can be used for identification, sample loading, state acquisition and preservation, the data box is used for placing corresponding paper data, and the sample code printing device is used for printing and marking a two-dimensional code label of the sample.

5. The sample transfer and storage device as claimed in claim 1, wherein the storage device comprises four multi-section cylinders and a layer plate, the layer plate comprises an upper layer plate, a middle layer plate and a lower layer plate, the cylinders are arranged at the bottom of the storage device and are positioned at right angles, and the upper layer plate is fixedly connected with the first fixing parts of the multi-section cylinders; well plywood and second festival fixed part fixed connection, lower plywood and third festival fixed part fixed connection through the cylinder motion, can realize reciprocating of upper plate, well plywood and lower plywood, and when multisection cylinder was in the shrink state, the height of upper plate was not higher than sample transmission path's height, made sample accessible sample transmission path convey to any plywood of upper plate, well plywood, lower plywood three on.

6. The apparatus for sample transfer and storage according to claim 5, wherein the maximum height difference between the upper plate and the middle plate and the maximum height difference between the middle plate and the lower plate are both 50 cm.

7. The sample handover and storage device according to claim 5, wherein the storage device comprises an upper door, a middle door and a lower door, the upper door, the middle door and the lower door are provided with second display screens, and the upper door, the middle door or the lower door can be opened through the second display screens or a remote command; the second display can also be used to adjust the temperature of the upper, middle and lower layers.

8. The apparatus for sample handover and storage according to claim 1, wherein the apparatus for sample handover and storage further comprises a wireless transmission and a wired communication interface, the wireless transmission comprises 2G/3G/4G/5G/WiFi signal transmission, and the wired communication interface communicates with the network after connecting with the network cable.

9. The sample transfer and storage device of claim 1, further comprising a software system configured with a user mode and an administrator mode,

the user mode can implement the following operation flow:

s101, printing a sample coding strip to be attached to a sample according to a prompt, and loading the sample into a sample placing box;

s102, carrying out state acquisition operation on the loaded sample;

s103, sending the sample state file obtained in the finished state to an administrator for confirmation;

s104, filling paper related to the sample;

s105, storing the samples which are not confirmed temporarily to a specified position through operation after obtaining authorization;

the administrator mode enables the following operational flow:

s201, establishing a new task number, and sending the new task number to a sample sending person in a character coding mode, wherein the sample sending person can use the code to log in and perform related operations in a user mode;

s202, confirming the state of a sample loaded by a sample sending person, and setting a storage position and a storage condition for the confirmed sample;

s203, whether the user is allowed to use the temporary storage function or not is judged, and samples which cannot be confirmed are temporarily stored;

and S204, calling the acquired sample state information.

10. The apparatus for sample transfer and storage according to claim 9, wherein the sample status information comprises two-dimensional code labels, pictures, videos, and paper data, and the paper data comprises signature documents of the sample delivery personnel.

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