CN214649870U - Intelligent movement sample transfer box - Google Patents

Abstract

The utility model discloses an intelligent movement sample transport box, include: the box body, the first box cover and the second box cover; the box body comprises a first sample content bin, a second sample content bin and an equipment content bin; the equipment content bin is provided with a microprocessor, a data transceiver, a display and a two-dimensional code recognizer; a temperature controller and a temperature sensor are arranged in the first sample containing bin and the second sample containing bin; the microprocessor is connected with the background server through the data transceiver, the input end of the microprocessor is respectively connected with the output end of the temperature sensor and the output end of the two-dimensional code recognizer, and the input end of the temperature controller and the input end of the display are both connected with the output end of the microprocessor. The utility model discloses can realize placing the sample classification to in time show and remind the sample in time to send for inspection, improved the degree of accuracy of sample inspection greatly, realize the control each item in the transportation index of preserving, and be applicable to the transportation storage condition of multiple difference, and can be applied to special scenes such as open-air.

Description

Intelligent movement sample transfer box

Technical Field

The utility model relates to a sample transport box technical field especially relates to an intelligent movement sample transport box.

Background

The specimen box is used for collecting and transferring specimens, classifying and collecting various specimens, and storing and transporting the specimens. Specimen transportation is an important link of clinical work, and the sample collection volume is big, the collection time is unfixed, the inspection project classification is many and complicated, storage condition requires differently in the ward, and the staff need send the sample of gathering to corresponding inspection administrative or technical offices, and it can often happen that the sample does not in time send to the inspection administrative or technical offices in this process, directly influences the accuracy of inspection result. At present, the sample transfer box has the following problems: first, different grade type sample (like blood sample, urine sample and stool specimen) do not have the special subregion that holds in the transportation, and different grade type sample mixes and deposits, if the sample seepage can cause certain cross contamination in the transportation, direct influence check quality. Second, different inspection items deposit the temperature and probably differ, place all specimens in same sample holding storehouse among the prior art, lead to some specimens can't place suitable deposit environment in, have influenced the proof quality equally. Third, the staff's censorship sample can't be in time reminded to current sample transport box for the sample is because transit time overlength, fails to reach its inspection administrative or technical offices that corresponds in best censorship time, has seriously influenced inspection quality.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an intelligent movement sample transport case can realize placing the sample classification to in time show and remind the sample in time to send to examine, improved the degree of accuracy of sample inspection greatly.

An embodiment of the utility model provides a specimen transfer box, include: the box body, the first box cover and the second box cover; the box body comprises a first sample content bin, a second sample content bin and an equipment content bin, the equipment content bin is arranged between the first sample content bin and the second sample content bin, the first box cover and the second box cover are movably connected to the equipment content bin, so that the first box cover seals the first sample content bin, the second box cover seals the second sample content bin, and the first box cover and the second box cover are back-opened;

the equipment content bin is provided with a microprocessor, a data transceiver, a display and a two-dimensional code recognizer; a temperature controller and a temperature sensor are arranged in the first sample containing bin and the second sample containing bin; the microprocessor is connected with the background server through the data transceiver, the input end of the microprocessor is respectively connected with the output end of the temperature sensor and the output end of the two-dimensional code recognizer, and the input end of the temperature controller and the input end of the display are both connected with the output end of the microprocessor.

In some embodiments, the first box cover and the second box cover are both provided with a first camera, and an output end of the first camera is connected with an input end of the microprocessor.

In some embodiments, the identification window of the two-dimensional code identifier is disposed on a vertical surface of the equipment content bin; and a second camera is further arranged on the vertical surface of the equipment content bin, and the output end of the second camera is connected with the input end of the microprocessor.

In some embodiments, the device content bin is further provided with a voice prompter, and an input end of the voice prompter is connected with an output end of the microprocessor.

In some embodiments, the equipment content bin is further provided with a GPS positioning device, and an output end of the GPS positioning device is connected with an input end of the microprocessor.

In some embodiments, an ultraviolet ozone disinfection lamp is arranged on the inner side wall of the first specimen content bin and the inner side wall of the second specimen content bin, and the input end of the ultraviolet ozone disinfection lamp is connected with the output end of the microprocessor.

In some embodiments, the device content compartment is further provided with an electrical energy device that provides power to the devices within the specimen transport box.

In some embodiments, the specimen transport box further comprises a grip handle rotatably mounted on a top of the equipment content compartment to be positioned over the first and second lids by the grip handle such that the first and second lids cannot be opened.

In some embodiments, the inner bottoms of the first specimen content bin and the second specimen content bin are provided with shock absorbing layers, vibration sensors are arranged in the shock absorbing layers, and the input ends of the vibration sensors are connected with the output end of the microprocessor.

In some embodiments, the first specimen content bin and the second specimen content bin are both provided with a shelf therein, and the shelf is composed of a detachable partition plate.

Compared with the prior art, the embodiment of the utility model discloses an intelligent movement sample transfer box, include: the box body, the first box cover and the second box cover; the box body comprises a first sample content bin, a second sample content bin and an equipment content bin, the equipment content bin is arranged between the first sample content bin and the second sample content bin, the first box cover and the second box cover are movably connected to the equipment content bin, so that the first box cover seals the first sample content bin, the second box cover seals the second sample content bin, and the first box cover and the second box cover are back-opened; the equipment content bin is provided with a microprocessor, a data transceiver, a display and a two-dimensional code recognizer; a temperature controller and a temperature sensor are arranged in the first sample containing bin and the second sample containing bin; the microprocessor is connected with the background server through the data transceiver, the input end of the microprocessor is respectively connected with the output end of the temperature sensor and the output end of the two-dimensional code recognizer, and the input end of the temperature controller and the input end of the display are both connected with the output end of the microprocessor. Through setting up two sample content storehouses, do according to the sample examination project of sample corresponding sample content storehouse of sample distribution, applicable in the sample of transporting different transportation temperatures, by the temperature controller independent control in each sample content storehouse to and be applicable to according to the categorised sample of placing of different sample examination projects in order to avoid polluting the sample. Simultaneously, through the two-dimensional code on the sample label of sample two-dimensional code recognizer before the transport case of packing into, reminded the staff and need sent out the sample, improved the promptness of sample censorship to can effectively improve the degree of accuracy of sample inspection. And then, the condition in the specimen transfer box is transmitted to the background server in real time by connecting the background server, so that the temperature data change in the bin can be monitored in real time, various storage indexes in the transfer process can be monitored, and the specimen transfer box is suitable for various different transfer and storage conditions and can be applied to special scenes such as the field.

According to the embodiment, the first camera is arranged in the sample content bin, so that the condition of the sample in the bin is obtained in real time, the image obtained in real time is transmitted to the background server, and the condition of the sample in the transfer process is monitored in real time.

Above-mentioned embodiment sets up on the vertical face in equipment content storehouse through the discernment window of two-dimensional code recognizer, but the label of the test tube of the dress sample of being convenient for can vertical scanning to the slope of test tube leads to the sample to leak. Secondly, be used for acquireing the sample through the second camera and pack into the image information before the sample transport case, and then through this image information, whether the sample volume of distinguishable sample, sample handling condition accord with the regulation, do benefit to the efficiency that improves the sample inspection.

The embodiment can prompt the user of the current information in time by setting the voice prompter.

Above-mentioned embodiment is through setting up GPS positioner, can be used to planning the censorship circuit, has avoided the condition that the transport personnel is unfamiliar with to the destination that the sample transported, and the long overlength leads to destroying the sample easily causing the censorship, has realized the timely censorship of sample, marks real-time positional information and record stroke route simultaneously, can supply the real-time stroke route record of transferring of backend server, plays the effect of preventing that the sample is lost.

Above-mentioned embodiment plays sterile effect through setting up ultraviolet ray ozone sterilamp, avoids environmental pollution.

The above embodiment is provided with a rotatable handle, and the box cover is kept closed in the transfer process so as to protect the specimen and be convenient to carry.

Above-mentioned embodiment all is equipped with the buffer layer through the inboard bottom in first sample content storehouse and second sample content storehouse, avoids the sample to receive under the influence of shaking in the transportation and degeneration or destruction.

Above-mentioned embodiment through at first sample content storehouse with all be equipped with the detachable supporter in the second sample content storehouse, put and to have an advantage of protecting the sample according to the required regulating plate compartment size of sample, the structure is ingenious, and maximize rational utilization space plays the function of storage preservation and fixed transportation sample.

Drawings

Fig. 1 is a schematic structural view of an intelligent mobile specimen transportation box according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the opening of an intelligent mobile specimen transport box according to an embodiment of the present invention;

fig. 3 is a schematic structural view of each device in an intelligent mobile specimen transfer box according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of the inside of the intelligent mobile specimen transfer box provided by an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, it is an embodiment of the utility model provides a structural schematic of intelligent movement sample transport case, and see fig. 2, it is an embodiment of the utility model provides a structural schematic of intelligent movement sample transport case unpacking, the sample transport case includes: a case 11, a first cover 121, and a second cover 122; the box body 11 comprises a first sample content bin 111, a second sample content bin 112 and an equipment content bin 113, the equipment content bin 113 is arranged between the first sample content bin 111 and the second sample content bin 112, the first box cover 121 and the second box cover 122 are movably connected to the equipment content bin 113, so that the first box cover 121 seals the first sample content bin 111, the second box cover 122 seals the second sample content bin 112, and the first box cover 121 and the second box cover 122 are back to the opening;

the equipment content bin 113 is provided with a microprocessor 143, a data transceiver 151, a display 141 and a two-dimensional code recognizer 142; a temperature controller 147 and a temperature sensor 148 are arranged in the first sample content bin 111 and the second sample content bin 112; the microprocessor 143 is connected to the background server through the data transceiver 151, an input end of the microprocessor 143 is connected to an output end of the temperature sensor 148 and an output end of the two-dimensional code recognizer 142, and an input end of the temperature controller 147 and an input end of the display 141 are both connected to an output end of the microprocessor 143.

It should be noted that the first sample content compartment 111 and the second sample content compartment 112 are separated by the apparatus content compartment 113, so that the temperatures of the two can be independently controlled without interfering with each other. In this embodiment, the corresponding specimen content compartment may be allocated to the specimen in such a manner that, firstly, since different specimen test items have different storage temperatures, the microprocessor determines the storage temperature of the specimen according to the specimen test item and the collection time. Specifically, the microprocessor obtains basic information of the samples to be inspected from an external management system, the samples can be classified according to the storage modes of refrigeration storage and room temperature storage by sample inspection items and acquisition time of all the samples needing to be conveyed by the sample transfer box, and the temperature interval of one storage mode is independently controlled by each sample content bin. The common biological samples include blood, urine and excrement conventional samples, biochemical samples and the like, some samples need to be refrigerated and some samples need to be stored at room temperature. For example, a blood sample may be stored at-20 degrees or 4 degrees for later use; the urine specimen can be stored at room temperature for no more than two hours, otherwise the specimen needs to be stored at 4 ℃, and the current storage temperature of the specimen is determined according to the collection time of the specimen and the transportation time of the specimen to a delivery destination. Therefore, the specimen capable of being stored in a refrigerated state can be distributed to the first specimen content chamber, the specimen stored at room temperature can be distributed to the second specimen content chamber, and the temperature in the chambers can be controlled independently by the temperature controller.

Secondly, distributing the sample content bins according to different sample test items. Specifically, the microprocessor acquires basic information of the samples to be inspected from an external management system, screens two samples needing to be sent out urgently, allocates sample content bins for the types of the screened samples, and adjusts the temperature in each bin according to the corresponding storage temperature of the sample items. Therefore, the sample content bins are distributed according to different sample test items, so that the sample pollution and the influence on the accuracy of the sample test can be avoided.

Therefore, the utility model discloses a set up two sample content storehouses, adjust the interior temperature condition of different storehouses and keep transferring multiple sample. The temperature controller 147 includes a semiconductor thermostat device for adjusting the temperature in the content compartment. Exemplarily, a transportation temperature interval of a sample content bin is obtained according to a sample inspection item of a sample stored in any sample content bin, the current temperature of the sample content bin is obtained through a temperature sensor, the current temperature is transmitted to a background server, and whether the current temperature falls within the transportation temperature interval is judged; if not, adjusting the current temperature through a temperature controller to enable the current temperature to reach the transportation temperature interval. Therefore, the temperature of the sample content bin is acquired in real time through the temperature sensor, and then the temperature is adjusted to the transportation temperature interval suitable for the sample in the bin through the temperature controller so as to prevent the sample from being damaged, and the change of temperature data in the bin is monitored in real time.

Preferably, the utility model discloses an intelligence removes still is equipped with heat abstractor in first sample content storehouse 111 and the second sample content storehouse 112 of sample transport case, with temperature controller 147 mutual synergism, realizes rapid cooling, optimizes the save environment in the sample storehouse to improve temperature controller 147's life.

Referring to fig. 3, it is a schematic diagram of the structure of each device in the intelligent mobile specimen transfer box according to an embodiment of the present invention, and a plurality of devices are installed in the device content bin 113, including the microprocessor 143, the display 141 and the two-dimensional code identifier 142, but not limited thereto. The microprocessor 143 can be connected to the background server and the external management system through the data transceiver 151. The background server is used for receiving data from the microprocessor 143 in real time, such as GPS positioning data of the specimen transfer box, temperature data of each bin, and the like, so as to realize real-time monitoring and collect data changes of the transfer process. The external management system is used to send the basic information of the specimen to be inspected to the database of the microprocessor 143 after the specimen is obtained, so as to remind the worker to inspect the specimen. In addition, a door shaft is arranged above the outer side of the equipment content bin 113, and the box cover is movably connected to the outer side of the equipment content bin 113 through the door shaft, so that the first box cover 121 seals the first sample content bin 111, and the second box cover 122 seals the second sample content bin 112. The display 141 is a control panel having display and touch screen functions, such as displaying the number of specimens in the box, the collection time, and the destination. The two-dimensional code recognizer 142 is used for recognizing a two-dimensional code on the specimen label to acquire specimen information.

This embodiment has reminded the staff and has needed to send out the sample through the sample two-dimensional code on the sample label of two-dimensional code recognizer 142 discernment before the transport box is packed into. In a preferred embodiment, a two-dimensional code recognizer recognizes a two-dimensional code on a specimen label to obtain specimen information, the specimen information comprises acquisition time and specimen inspection items, a submission time limit and a submission destination of the specimen are determined according to the specimen inspection items, the remaining time of the specimen is determined according to the acquisition time and the submission time limit of the specimen, the remaining time of all the specimens in a specimen transport box is sorted from small to large to obtain a specimen transport sequence, and the submission destination and the remaining time of the first-ranked specimen in the specimen transport sequence are displayed through a display, so that the specimens are sequentially delivered to the respective submission destinations according to the specimen transport sequence. Therefore, samples are distributed according to the emergency degree of the sample submission time in the current sample transfer box, so that the samples can be checked in the best submission time, the quality of the samples is greatly improved, and the accuracy of the sample inspection can be effectively improved.

In another preferred embodiment, basic information of the specimen to be submitted entered from an external management system is acquired, storing the basic information of the specimen to be inspected into a database, identifying the two-dimensional code on the specimen label, to obtain specimen information, matching the basic information with the specimen information, when it is detected that the matching duration of the basic information exceeds a preset duration, the basic information is not matched with the specimen information, and reminding information is sent, so that the specimen which is collected but not put into the specimen transfer box can be found in time and workers can be reminded in time by matching the basic information input from the external management system with the specimen information on the label, in order to prevent that this sample is in external environment for a long time and is rotten, avoided the problem of sample collection back in time censorship, prevent the condition that the sample was omitted in staff's operating engineering simultaneously.

The embodiment of the utility model discloses an intelligent movement sample transfer box, include: the box body, the first box cover and the second box cover; the box body comprises a first sample content bin, a second sample content bin and an equipment content bin, the equipment content bin is arranged between the first sample content bin and the second sample content bin, the first box cover and the second box cover are movably connected to the equipment content bin, so that the first box cover seals the first sample content bin, the second box cover seals the second sample content bin, and the first box cover and the second box cover are back-opened; the equipment content bin is provided with a microprocessor, a data transceiver, a display and a two-dimensional code recognizer; a temperature controller and a temperature sensor are arranged in the first sample containing bin and the second sample containing bin; the microprocessor is connected with the background server through the data transceiver, the input end of the microprocessor is respectively connected with the output end of the temperature sensor and the output end of the two-dimensional code recognizer, and the input end of the temperature controller and the input end of the display are both connected with the output end of the microprocessor. Through setting up two sample content storehouses, do according to the sample examination project of sample corresponding sample content storehouse of sample distribution, applicable in the sample of transporting different transportation temperatures, by the temperature controller independent control in each sample content storehouse to and be applicable to according to the categorised sample of placing of different sample examination projects in order to avoid polluting the sample. Simultaneously, through the two-dimensional code on the sample label of sample two-dimensional code recognizer before the transport case of packing into, reminded the staff and need sent out the sample, improved the promptness of sample censorship to can effectively improve the degree of accuracy of sample inspection. And then, the condition in the specimen transfer box is transmitted to the background server in real time by connecting the background server, so that the temperature data change in the bin can be monitored in real time, and the specimen transfer box is suitable for various different transfer and storage conditions and can be applied to special scenes such as the field and the like.

In some embodiments, referring to fig. 3, the first cover 121 and the second cover 122 are both provided with a first camera 146, and an output end of the first camera 146 is connected to an input end of the microprocessor 143.

In this embodiment, through set up first camera 146 in sample content storehouse, can acquire the condition of standard sample in the storehouse in real time, whether leak in the transportation and lead to polluting the incasement environment like monitoring sample, monitoring sample concrete storage position etc. in the storehouse. Therefore, the first camera 146 transmits the image acquired in real time to the background server, the condition of the specimen in the transfer process is monitored in real time, the specimen is found quickly by the staff through marking the specific storage position of the specimen, and the checking efficiency is improved.

Illustratively, according to the specimen inspection items of the specimens, distributing corresponding specimen content bins for the specimens, acquiring the storage position information of the specimen content bin where the specimens are located through a first camera, identifying the specimens according to the storage position information, screening the specimens at the same inspection destination when the inspection destination of the first-ranked specimens in the specimen transportation sequence is reached, taking out the specimens at the inspection destination from the specimen transfer box according to the storage position information of the screened specimens, clearing the screened specimens from the specimen transportation sequence, and acquiring a new specimen transportation sequence so as to sequentially convey the specimens to the respective inspection destinations according to the new specimen transportation sequence.

In some embodiments, referring to fig. 3, the identification window of the two-dimensional code identifier 142 is disposed on a vertical surface of the equipment content bin 113; a second camera 144 is further arranged on the vertical surface of the equipment content bin 113, and the output end of the second camera 144 is connected with the input end of the microprocessor 143.

Referring to fig. 1 and 2, the identification window of the two-dimensional code identifier 142 is disposed on a vertical surface of the apparatus housing 113, so that the label of the test tube containing the sample can be scanned vertically, and the sample is prevented from leaking due to the inclination of the test tube. The second camera 144 is used to acquire image information before the specimen is loaded into the specimen transport box, and further, it is possible to identify whether the amount of the specimen sampled is in accordance with the specification or not and whether the specimen processing is in accordance with the specification or not, based on the image information.

For example, the second camera acquires image information of the specimen to identify a sampling amount of the specimen image, acquires a preset specimen sampling amount corresponding to a specimen inspection item according to the specimen inspection item of the specimen, and determines whether the sampling amount is lower than the preset specimen sampling amount; if so, sending out reminding information and marking the specimen as an unqualified specimen. Therefore, through discernment sample image, in time discover the sample that the sampling volume is not enough to remind and the mark, realize in time reminding the staff improper operation and in time change the sample, improved the efficiency of sample inspection, also can be used to differentiate whether the sample is destroyed because of transporting the reason.

In some embodiments, referring to fig. 3, the device content compartment 113 is further provided with a voice prompt 149, and an input of the voice prompt 149 is connected to an output of the microprocessor 143.

In this embodiment, the voice prompt 149 is used to prompt the user with sound for emergency information, such as abnormal temperature in the box, navigation route information, and so on, thereby prompting the user in time.

In some embodiments, referring to fig. 3, the equipment content compartment is further provided with a GPS positioning device 145, and an output of the GPS positioning device 145 is connected to an input of the microprocessor 143.

In this embodiment, through GPS positioner 145, can acquire the position of this sample transport box in real time, realize the transportation orbit of real-time supervision sample, realize planning the optimal route of current position to censorship destination for the transportation personnel simultaneously, avoided the condition that the transport personnel is unfamiliar with the destination that the sample transported, long overlength leads to destroying the sample when easily causing the censorship, realized timely censorship of sample, mark real-time positional information and record stroke route simultaneously, can supply the real-time journey route record of transferring of backend server, can prevent that this sample transport box from losing.

The invention is exemplarily applied to outdoor pharyngeal swab specimen transportation, the pharyngeal swab specimen is collected at a collection point in the field or remote areas, the pharyngeal swab specimen is stored in a transportation box, a corresponding specimen content bin is distributed, the quality of the specimen can be ensured by adjusting the temperature in the specimen content bin, the carrying is convenient, an optimal route from the current position to a delivery destination can be planned for transport personnel through a GPS positioning device, the timely delivery inspection of the specimen is realized, and meanwhile, a travel path is recorded.

In some embodiments, referring to fig. 3, an ultraviolet ozone disinfection lamp 150 is disposed on the inner side wall of the first specimen content chamber 111 and the second specimen content chamber 112, and an input end of the ultraviolet ozone disinfection lamp 150 is connected to an output end of the microprocessor 143.

In this embodiment, through setting up ultraviolet ozone sterilamp 150, accomplish the use back at the sample transfer box, control ultraviolet ozone sterilamp 150 opens and disinfects in order to disinfect in the sample content storehouse, plays sterile effect, avoids environmental pollution. Specifically, a control command can be input through the display 141, and the microprocessor 143 controls the ultraviolet ozone sterilizing lamp 150 to turn on the sterilizing function in the box after responding to the command, and sets the sterilizing time to control the sterilizing lamp to turn off when the time is over. Further, by providing sensors on the first cover 121 and the second cover 122, the sensors are connected to the microprocessor 143, so that the microprocessor 143 can receive corresponding signals when the covers are opened and closed. Thus, after the ultraviolet ozone disinfection lamp 150 starts the disinfection function in the box, when the sensor detects that any box cover is opened, the microprocessor controls the ultraviolet ozone disinfection lamp 150 to realize protective closing, and the disinfection is continued after the box cover is closed.

In some embodiments, the device content compartment is further provided with an electrical energy device that provides power to the devices within the specimen transport box.

In this embodiment, the microprocessor 143, the display 141, the two-dimensional code recognizer 143, the temperature controller 147, the temperature sensor 148, the first camera 146, the second camera 144, the ultraviolet ozone disinfection lamp 150, the GPS positioning device 145 and the voice prompt 149 in the specimen transfer box are all powered by the electric energy device, wherein the electric energy device may be a rechargeable battery.

In a specific embodiment, the specimen transfer box further includes a grip handle 13, and the grip handle 13 is rotatably mounted on the top of the apparatus content compartment 113 so as to be placed above the first cover 121 and the second cover 122 by the grip handle 13, such that the first cover 121 and the second cover 122 cannot be opened.

Referring to fig. 1, the top of the equipment housing 113 is provided with a connection platform, the display 141 is provided on the side of the connection platform, the top of the connection platform is provided with a handle 13, and the handle 13 is fixed on the connection platform through a rotary shaft disc 131. Referring to fig. 2, when the handle 13 is disposed parallel to the connecting platform, the handle 13 is not disposed above the two covers, so that the first cover 121 and the second cover 122 can be opened normally. Referring to fig. 1, when the handle 13 is vertically disposed on the connecting platform, the handle 13 is disposed above the first cover 121 and the second cover 122 to block the covers from moving upward, so that the covers cannot be opened.

In an embodiment, please refer to fig. 1 and fig. 2, two sides of the exterior of the box body are provided with box buckle 17, and the two box buckles 17 are connected through an adjustable strap for carrying.

In some embodiments, the inside bottoms of the first sample container 111 and the second sample container 112 are provided with a shock absorbing layer, and a vibration sensor is installed in the shock absorbing layer, and an input end of the vibration sensor is connected to an output end of the microprocessor 143.

In this embodiment, through being equipped with the buffer layer, increase shockproof function, avoid the sample to receive under the influence of shaking and degeneration or destruction in the transportation. For example, the shock absorbing layer may be made of a shock absorbing sponge. Further, acquire the vibration frequency of transfer box in the transportation through vibration sensor, when detecting vibration frequency and surpassing preset frequency, remind the staff to adjust the buffer layer, through the response vibration condition like this to avoid transporting vibration or the oscillation of in-process and destroy incasement sample quality.

In some embodiments, referring to fig. 4, the structural schematic diagram of the inside of the intelligent mobile specimen transfer box according to an embodiment of the present invention is that the first specimen content bin 111 and the second specimen content bin 112 are both provided with a shelf 16, and the shelf 16 is composed of detachable partition plates.

This embodiment through in first sample content storehouse 111 with all be equipped with detachable supporter 16 in the second sample content storehouse 112, can be according to the required regulating plate compartment size of sample for pipe class, jar class, in bags and bottled fixed placing, the structure is ingenious, and maximize rational utilization space plays the function of storage preservation and fixed transportation sample, is favorable to protecting the sample. In addition, this supporter 16 is detachable construction, can realize after transporting infectivity or suspected infectious sample, and convenient to detach carries out terminal disinfection or sterilization, prevents the incasement environmental infection, improves the degree of accuracy of sample inspection.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides an intelligent movement specimen transfer box which characterized in that includes: the box body, the first box cover and the second box cover; the box body comprises a first sample content bin, a second sample content bin and an equipment content bin, the equipment content bin is arranged between the first sample content bin and the second sample content bin, the first box cover and the second box cover are movably connected to the equipment content bin, so that the first box cover seals the first sample content bin, the second box cover seals the second sample content bin, and the first box cover and the second box cover are back-opened;

the equipment content bin is provided with a microprocessor, a data transceiver, a display and a two-dimensional code recognizer; a temperature controller and a temperature sensor are arranged in the first sample containing bin and the second sample containing bin; the microprocessor is connected with the background server through the data transceiver, the input end of the microprocessor is respectively connected with the output end of the temperature sensor and the output end of the two-dimensional code recognizer, and the input end of the temperature controller and the input end of the display are both connected with the output end of the microprocessor.

2. The intelligent mobile specimen transfer box of claim 1, wherein a first camera is disposed on each of the first cover and the second cover, and an output of the first camera is connected to an input of the microprocessor.

3. The intelligent mobile specimen transfer box of claim 1, wherein the identification window of the two-dimensional code identifier is disposed on a vertical surface of the equipment content compartment; and a second camera is further arranged on the vertical surface of the equipment content bin, and the output end of the second camera is connected with the input end of the microprocessor.

4. The intelligent mobile specimen transfer box of claim 1, wherein the equipment content chamber is further provided with a voice prompter, and an input end of the voice prompter is connected with an output end of the microprocessor.

5. The intelligent mobile specimen transfer box of claim 1, wherein the equipment content compartment is further provided with a GPS positioning device, an output of the GPS positioning device being connected to an input of the microprocessor.

6. The intelligent mobile specimen transfer box of claim 1, wherein an ultraviolet ozone disinfection lamp is disposed on the inner side wall of the first specimen content bin and the second specimen content bin, and the input end of the ultraviolet ozone disinfection lamp is connected with the output end of the microprocessor.

7. The intelligent mobile specimen transfer box of any one of claims 1 to 6, wherein the equipment content compartment is further provided with electrical energy equipment which supplies power to devices within the specimen transfer box.

8. The intelligent mobile specimen transfer box of claim 1, further comprising a grip handle rotatably mounted on a top of the equipment content compartment to be positioned over the first and second lids by the grip handle such that the first and second lids cannot be opened.

9. The intelligent mobile specimen transfer box according to claim 1, wherein the inner bottoms of the first specimen content bin and the second specimen content bin are provided with shock absorbing layers, vibration sensors are arranged in the shock absorbing layers, and the input ends of the vibration sensors are connected with the output end of the microprocessor.

10. The intelligent mobile specimen transfer box of claim 1, wherein a rack is disposed in each of the first specimen content bin and the second specimen content bin, and the rack is composed of detachable partition plates.

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