CN216187171U - Thing networking intelligence whole temperature and ultraviolet ray control anti-fake bacterin bracket - Google Patents

Abstract

The utility model relates to the technical field of Internet of things anti-counterfeiting devices, in particular to an Internet of things intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket, wherein a plurality of vaccine bottle loading positions are arranged on a left shell, and a vaccine bottle fixing bayonet mounting through hole is formed in the back of each vaccine bottle loading position; the vaccine bottle fixing buckle is matched with the mounting through hole of the left shell vaccine bottle fixing bayonet; the right shell is provided with a shell and a circuit board mounting positioning column; the circuit board sets up between left casing and right casing, is equipped with a plurality of position inductive switch on the circuit board, and is corresponding with bacterin bottle loading phase, can compile and set up bracket temperature-sensing sensor attribute according to utensil bacterin transportation storage temperature characteristic and inclusion that load, and the bacterin temperature data record that bracket self provided can prove that bacterin temperature is in excess of transportation storage temperature, but the scope and the duration that surpass do not surpass the national regulation, can also continue to use. Thereby reducing vaccine loss due to external equipment failure.

Description

Thing networking intelligence whole temperature and ultraviolet ray control anti-fake bacterin bracket

Technical Field

The utility model relates to the technical field of anti-counterfeiting devices of the Internet of things, in particular to an anti-counterfeiting vaccine bracket for monitoring the whole-course temperature and ultraviolet rays intelligently by the Internet of things.

Background

Temperature has an influence on the effectiveness of the vaccine, and for the transportation of the vaccine, an incubator for cold chain transportation of the vaccine is adopted in the market. As in the Chinese patent: an incubator for vaccine cold chain transportation, publication No.: CN 213293378U. The box body is internally provided with the cold air which circulates rapidly, so that the cold air in the box is balanced, the vaccine is transported in a low-temperature state, and the effectiveness of the vaccine can be guaranteed. However, the incubator described in this patent is used during vaccine delivery. During subsequent storage and use of the vaccine, temperature effects on the effectiveness of the vaccine still occur.

To solve this problem, a chinese patent is disclosed: vaccine cold chain transportation intelligent monitoring label and preparation method thereof, publication number: CN112876622A, which is a label added on each vaccine bottle, the color of the label changes during the temperature change. However, the color of the label is subjectively judged by people, different people may draw different conclusions about similar colors, and further the temperature judgment of the vaccine is not accurate enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides an intelligent anti-counterfeiting vaccine bracket for monitoring the whole temperature and ultraviolet rays of the Internet of things.

In order to achieve the purpose, the anti-counterfeiting vaccine bracket for monitoring the whole-course temperature and ultraviolet rays of the Internet of things is designed, and is characterized by comprising a left shell, wherein a plurality of vaccine bottle loading positions are arranged on the left shell, and a vaccine bottle fixing bayonet mounting through hole is formed in the back of each vaccine bottle loading position; the vaccine bottle fixing buckle is matched with the mounting through hole of the left shell vaccine bottle fixing bayonet; the right shell is provided with a shell and a circuit board mounting positioning column; the circuit board is arranged between the left shell and the right shell, and a plurality of position induction switches are arranged on the circuit board and correspond to the vaccine bottle loading positions.

The anti-counterfeiting vaccine bracket also has the following preferable technical characteristics:

1. and a vaccine bottle loading position nameplate is arranged on each vaccine bottle loading position.

2. An environment temperature sensing opening, an external power supply and a data transmission interface are formed in one side of the left shell, and a bracket unique identity code is further arranged on the left shell.

3. The circuit board is provided with a plurality of indicator lamps, and the top of the left shell is provided with a plurality of corresponding indicator lamp light-transmitting display positions.

4. The left shell is also provided with a hemispherical light-transmitting material, and an ultraviolet sensor is arranged at a position corresponding to the circuit board.

5. The bottom of the right shell is provided with a rechargeable battery.

6. The circuit board is provided with a temperature sensing chip, a communication chip, a safety chip, a data storage component and a control chip.

The use method of the anti-counterfeiting vaccine bracket comprises the following steps that before vaccine bottles are filled into the vaccine bottle, a vaccine manufacturer carries out bracket transfer preparation:

A. fully charging the rechargeable battery in the battery cabin through an external power supply and a data transmission interface;

B. the vaccine is linked with a cloud database of a vaccine manufacturer through an external power supply and a data transmission interface and/or a communication chip;

C. the data queue in the cloud database is a data queue bound by the unique identification code of the bracket and the unique identification code of the security chip on the circuit board in the bracket;

D. the cloud database and the security chip on the bracket circuit board carry out encryption, decryption, verification, matching and judgment on a public key and a private key, confirm the legal validity of the bracket, and carry out data exchange after mutually confirming the legal validity;

E. the cloud data link refreshes local data of the data storage component on the circuit board;

F. deleting the temperature record of the original vaccine bottle fed back by the temperature sensing chip stored locally on the bracket;

G. deleting the position state change data record of the original vaccine bottle fed back by a position induction switch locally stored on the bracket;

H. deleting the data record of ultraviolet irradiation of the original vaccine bottle fed back by the ultraviolet sensor stored locally on the bracket;

I. self-checking the components on the circuit board through an external power supply and a data transmission interface or a communication chip and a cloud data link of a vaccine manufacturer;

J. and data information locally stored by the data storage component in the bracket is synchronized with the data information of the cloud database of the vaccine manufacturer, and clock synchronization verification is carried out.

The use method of the anti-counterfeiting vaccine bracket further comprises the following steps of after the vaccine bottle is filled, carrying out factory setting on the bracket:

A. the method comprises the steps that an external power supply and a data transmission interface or a communication chip are linked with cloud data of a vaccine manufacturer, a public key and a private key are encrypted, decrypted, verified, matched and judged by a cloud database and a safety chip on a bracket circuit board, the legal validity of a bracket is confirmed, and data exchange is carried out after the legal validity is mutually confirmed;

B. the unique identification code of the bracket, the unique identification code of the safety chip on the circuit board in the bracket and the unique identification code of the vaccine loaded by the bracket are bound by a data queue in the cloud database;

C. a vaccine manufacturer cloud database calibrates vaccine bottle temperature data fed back by a temperature sensing chip on a circuit board on a bracket, records data starting time, a temperature range to be monitored and an error containing rule;

D. a vaccine bottle position state data fed back by a position sensing switch on a circuit board on a calibration bracket of a vaccine manufacturer cloud database records data starting time;

E. a vaccine manufacturer cloud database calibrates the initial time of data recording when a vaccine bottle fed back by an ultraviolet sensor of a circuit board on a bracket is irradiated by ultraviolet rays;

F. a data storage component on a circuit board in the bracket automatically records the temperature data of the vaccine bottle fed back by the temperature sensing chip in real time;

G. if the temperature of the vaccine bottle is found to exceed the specified temperature monitoring range and violate the error tolerance rule, the indicator lamp on the circuit board automatically lights up a red light, and the outside can be seen from the light-transmitting display position of the indicator lamp on the bracket;

H. the data storage component on the circuit board in the bracket automatically records the position state information of the vaccine bottle fed back by the position sensing switch in real time;

I. if the vaccine bottle is not taken out from the bracket before the instruction of taking out and using the vaccine bottle is issued by the cloud database, the indicator lamp on the circuit board automatically lights the red light, and the outside can be seen from the light-transmitting display position of the indicator lamp on the bracket;

J. a data storage component on a circuit board in the bracket automatically records the ultraviolet irradiation data of the vaccine bottle fed back by the ultraviolet sensor in real time;

K. if the ultraviolet irradiation data of the vaccine bottle exceeds the acceptable range, the indicator lamp on the circuit board automatically lights the red light, and the outside can be seen from the light transmission display position of the indicator lamp on the bracket.

The use method of the anti-counterfeiting vaccine bracket further comprises a verification step when the vaccine injection unit injects:

A. the method comprises the steps that an external power supply and a data transmission interface or a communication chip are linked with cloud data of a vaccine manufacturer, a public key and a private key are encrypted, decrypted, verified, matched and judged by a cloud database and a safety chip on a bracket circuit board, the legal validity of a bracket is confirmed, and data exchange is carried out after the legal validity is mutually confirmed;

B. acquiring bracket information, vaccine information loaded on a bracket, temperature records, vaccine bottle position change records, ultraviolet irradiation records and the like to check whether the vaccine bottle is normal or not;

C. if the temperature monitoring data of the vaccine bottles stored on the bracket is acquired by the cloud database and is abnormal, the vaccine bottles are taken out illegally before injection use, and the ultraviolet irradiation record of the vaccine bottles is abnormal, all the indicator lamps are turned on to give a red light to warn that the vaccine bottles cannot be used for injection, and the cloud database automatically informs relevant departments of manual intervention;

D. sending an injection demand instruction to a cloud network database, wherein the cloud network database authorizes and indicates the number of the vaccine bottle loading position, and the indication lamp light-transmitting display position corresponding to the number of the nameplate of the vaccine bottle loading position on the bracket displays a green lamp;

E. if a vaccine bottle is put in, the red light is lighted at the storage position of the vaccine bracket, and the cloud database automatically informs relevant departments of human intervention.

Compared with the prior art, the utility model has the advantages that:

1. the carrier temperature sensing sensor attributes can be compiled and set according to the transport and storage temperature characteristics and the inclusion of the loaded vaccine. When the vaccine cold chain transport vehicle, the vaccine cold chain storage warehouse and the vaccine storage refrigerator have faults (faults of refrigerating equipment and/or temperature monitoring equipment). Because each bracket is provided with a temperature sensing sensor and is provided with a rechargeable battery inside the bracket for supplying power. The vaccine bottle and the bracket are in a binding relationship. The vaccine temperature data record provided by the bracket can prove that although the temperature of the vaccine exceeds the transportation and storage temperature, the exceeding range and the exceeding time length do not exceed the national regulation, and the vaccine can be continuously used. Thereby reducing vaccine loss due to external equipment failure.

2. After the vaccine is bottled, the vaccine factory fills the vaccine bottle into the bracket and starts until the vaccine is taken out for injection, and the whole vaccine circulation use period is monitored by the anti-counterfeiting protection, the temperature monitoring and the ultraviolet irradiation of the bracket. The vaccine bottle, the bracket and the cloud database are tightly bound. Therefore, the identity information of all data such as the identity data of a vaccine manufacturer, the batch data of vaccine production, the whole-process temperature monitoring data, the ultraviolet irradiation data, the injected person, the injection implementation list, the injection implementation person and the like can be effectively correlated and data acquisition and summary. The problem of present vaccine supervision data rupture in whole circulation life cycle is solved. The monitoring and timely manual control intervention of relevant government departments are greatly facilitated.

3. There is currently no uv radiation monitoring device bound to a vaccine. The vaccine is very harmful to ultraviolet rays, effective active ingredients of the vaccine can be damaged, so that the vaccine is ineffective, and whether the vaccine is damaged by ultraviolet irradiation cannot be distinguished by naked eyes of people. The utility model solves the problem well.

4. Compared with a vaccine temperature indication label VVM, the vaccine temperature indication label VVM cannot provide information such as accurate temperature data of the vaccine, time of abnormal temperature data and the like, and cannot guarantee effectiveness and anti-counterfeiting performance of the vaccine. The utility model can provide a traceable data chain formed by exchanging and storing records through cloud data of a local data storage structure.

5. The VVM is used once relative to the vaccine temperature indication label. The utility model can be recycled, and greatly reduces the production and use cost of the vaccine. The carrier is from the vaccine factory to the vaccine injection administration unit. After the vaccine on the bracket is taken out and injected, the vaccine injection implementation unit sends the bracket back to the vaccine factory. And the vaccine factory can start loading new vaccine bottles to leave the factory again after performing cloud database link refreshing data and inspection on the bracket.

6. And the cloud database and the internal safety chip of the bracket carry out encryption, decryption, verification, matching and judgment on the public key and the private key, and the legal validity of the bracket is confirmed. The data exchange is performed after mutually confirming the validity. Thereby ensuring the uniqueness and anti-counterfeiting safety of the bracket.

7. And the cloud database data queue binds the unique identification code on the outer surface of the bracket, the unique identification code of the safety chip on the circuit board in the bracket and the unique identification code of the vaccine loaded by the bracket. Thereby ensuring the uniqueness and anti-counterfeiting safety of the vaccine.

8. After leaving the factory, the vaccine bottle position sensing switch in the bracket feeds back the state information of the vaccine bottle position, and records the information in a local storage component in real time, and any vaccine which is illegally taken out without being authorized by a cloud database and indicated by a cloud database after leaving the factory and before injection is used can be found and recorded.

9. The vaccine bottle temperature sensing chip in the bracket after leaving the factory feeds back vaccine temperature data, and records the data in a local storage component in real time and real time, and any abnormal temperature condition can be found and recorded after leaving the factory and before injection.

10. The ultraviolet sensor of the vaccine bottle in the bracket feeds back data records of ultraviolet irradiation of the vaccine after leaving the factory, and records the data records in a local storage component in real time, and any ultraviolet irradiation abnormal condition can be found and recorded after leaving the factory and before injection.

11. Before injection, an injector can input a unique identification code on the surface of the bracket through a software system provided by a vaccine factory or a supervision department by the handheld terminal, and the cloud database automatically sends all temperature monitoring data of the vaccine on the bracket from the vaccine factory to the present and safety information such as whether the vaccine is illegally taken out or not to the handheld terminal of the injector. So that the injected person can know the information and the state of the vaccine to be injected very conveniently. If the person to be watched needs to inject the vaccine for multiple times, the cloud database can remind and inform the person to be watched through a software system provided by a vaccine factory or a supervision department installed on the handheld terminal of the person to be watched.

12. And establishing a complete strict cloud data chain, and obtaining a traceable query record. The vaccine manufacturer, the unique identification code of the vaccine bracket, the unique identification code of the safety chip on the circuit board, the unique identification code of the vaccine loaded by the bracket, the whole-process temperature monitoring data of the vaccine, the position state data of the vaccine bottle, the identity of the person to be injected and the middle link unit of the vaccine transportation and storage are associated and bound to the cloud database to form a strict data chain. Before the vaccine is injected, the temperature of the vaccine exceeds the specified temperature monitoring range or is not issued by a cloud database to authorize the taking out of the vaccine bottle or the bracket with the ultraviolet irradiation exceeding the specified value automatically displays the warning color indicator light, and relevant recorded data is locally stored. The vaccine injection operator and the vaccine injected person can conveniently and clearly observe abnormal phenomena.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is another perspective view of the overall structure of the present invention;

FIG. 3 is an exploded view of the overall structure of the present invention;

FIG. 4 is an exploded view of another angle of the overall structure of the present invention;

FIG. 5 is a schematic view of the right housing construction of the present invention;

FIG. 6 is a schematic view of the back of the left housing of the present invention;

FIG. 7 is a schematic front view of the left housing of the present invention;

FIG. 8 is a schematic view of a vaccine vial retaining clip of the present invention;

FIG. 9 is a schematic diagram of the PCB structure of the circuit board of the present invention;

FIG. 10 is a cross-sectional view of a vaccine manufacturer of the present invention before the vial is mounted in a carrier;

FIG. 11 is an enlarged cross-sectional view of a vaccine bottle of a vaccine manufacturer of the present invention before it is mounted on a carrier;

FIG. 12 is a cross-sectional view of a vaccine bottle being loaded into a carrier for fixing by a vaccine manufacturer according to the present invention;

FIG. 13 is an enlarged view of a fixed cross-section of a vaccine bottle being loaded into a carrier by a vaccine manufacturer according to the present invention;

FIG. 14 is a diagram of the factory state of a vaccine manufacturer according to the present invention;

FIG. 15 is a first state diagram of the present invention using a vaccine injection unit to receive and store a vaccine;

FIG. 16 is a diagram of the state of receiving and storing a vaccine using a vaccine injection unit according to the present invention;

in the figure: 1. left shell 2, right shell 3, ambient temperature sensing opening 4, external power supply and data transmission interface 5, vaccine bottle loading position nameplate 6, indicator light transmission display position 7, vaccine bottle fixing buckle 7.1, vaccine bottle fixing buckle mounting through hole 7.2, vaccine bottle fixing buckle fixing pressure plate 7.3, vaccine bottle 8, hemispherical light transmission material 8.1, hemispherical light transmission material mounting through hole 8.2, ultraviolet sensor 10, position sensing switch 10.1, position sensing switch contact through hole 11, indicator light 12, temperature sensing chip 12.1, temperature sensing chip isolation cabin 13, rechargeable battery 14, communication chip 16, safety chip 17, data storage component 18, control chip MCU 19, right shell and circuit board PC mounting location column 20, left and right shells and circuit board PC mounting location hole 21, position sensing switch isolation cabin 23, circuit board PCB fixing hole 24, circuit board PC mounting location hole 24 PCB 25, carrier unique id.

Detailed Description

The present invention is further described below in conjunction with the following drawings, the structure and principle of which will be apparent to those skilled in the art. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1, 7 and 8, the utility model provides an intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket for the internet of things, wherein a plurality of vaccine bottle loading positions are arranged on a left shell, and a vaccine bottle fixing bayonet mounting through hole is formed in the back of each vaccine bottle loading position; the vaccine bottle fixing buckle is matched with the mounting through hole of the left shell vaccine bottle fixing bayonet; the right shell is provided with a shell and a circuit board mounting positioning column; the circuit board is arranged between the left shell and the right shell, and a plurality of position induction switches are arranged on the circuit board and correspond to the vaccine bottle loading positions.

Referring to fig. 2, in a preferred embodiment, each vaccine bottle loading position is provided with a vaccine bottle loading position nameplate.

Referring to fig. 3 and 4, in a preferred embodiment, an ambient temperature sensing opening and an external power supply and data transmission interface are formed in one side of the left shell, and a unique identification code of the bracket is further formed on the left shell; the circuit board is provided with a plurality of indicator lamps, and the top of the left shell is provided with a plurality of corresponding indicator lamp light-transmitting display positions; the left shell is also provided with a hemispherical light-transmitting material, and an ultraviolet sensor is arranged at a position corresponding to the circuit board.

Referring to fig. 5, in a preferred embodiment, the bottom of the right shell is provided with a rechargeable battery.

Referring to fig. 6 and 9, in a preferred embodiment, a temperature sensing chip, a communication chip, a security chip, a data storage component and a control chip are disposed on the circuit board.

Referring to fig. 10 and 11, the vaccine manufacturer performs a carrier transfer preparation before loading the vaccine bottles:

1. the chargeable and dischargeable battery 13 in the battery compartment 14 is fully charged through the external power supply and data transmission interface 4.

2. And is linked with the cloud database of the vaccine manufacturer through an external power supply and data transmission interface 4 and/or a communication chip 15.

3. The data queue in the cloud database is a data queue bound by the unique identification code of the bracket and the unique identification code of the secure chip 16 on the circuit board PCB24 in the bracket.

4. And the cloud database and the security chip 16 on the bracket circuit board PCB24 carry out encryption, decryption, verification, matching and judgment on a public key and a private key, and confirm the legal validity of the bracket. And exchanging data after mutually confirming the validity.

5. The cloud data link performs a local data refresh of the data storage components 17 on the circuit board PCB 24.

6. And deleting the temperature record of the original vaccine bottle 7.3 fed back by the temperature sensing chip 12 stored locally on the bracket.

7. And deleting the position state change data record of the original vaccine bottle 7.3 fed back by the position induction switch 10 stored locally on the bracket.

8. And deleting the data record of the ultraviolet irradiation of the original vaccine bottle 7.3 fed back by the ultraviolet sensor 8.2 stored locally on the bracket.

9. And self-checking is carried out on the components on the circuit board PCB24 through the external power supply and data transmission interface 4 and/or the communication chip 15 and the cloud data link of the vaccine manufacturer.

10. And the data information locally stored by the data storage component 17 in the bracket is synchronized with the data information of the cloud database of the vaccine manufacturer, and the clock synchronization is checked.

Referring to fig. 12 and 13, a schematic diagram of a vaccine manufacturer filling a vaccine bottle into a carrier for fixing is shown.

Referring to fig. 14, in the factory state of the vaccine manufacturer, the vaccine manufacturer puts vaccine bottles into the vaccine bottle fixing positions one by one, the vaccine bottle fixing buckle 7 clamps and fixes the vaccine bottles, the position sensing switch 10 on the circuit board PCB24 at each vaccine bottle fixing position is squeezed, a signal is fed back to the control chip MCU18 on the circuit board PCB24, and data information is stored in the data storage component 17.

After being filled into vaccine bottles, vaccine manufacturers perform bracket factory setting:

1. and the cloud database is linked with the cloud data of a vaccine manufacturer through an external power supply and data transmission interface 4 and/or a communication chip 15, and the public key and the private key are encrypted, decrypted, verified, matched and judged with a security chip 16 on a bracket circuit board PCB24, so that the legal validity of the bracket is confirmed. And exchanging data after mutually confirming the validity.

2. And binding the unique identification code of the bracket, the unique identification code of the safety chip 16 on the PCB24 in the bracket and the unique identification code of the vaccine loaded by the bracket by the data queue in the cloud database.

3. Vaccine manufacturer cloud database calibration bracket circuit board PCB24 on the temperature chip 12 feedback vaccine bottle 7.3 temperature data record data start time, required monitoring temperature range, error containing rule and other numerical values.

4. Vaccine manufacturer cloud database marks the data recording starting time of the position state data of 7.3 vaccine bottles fed back by 24 position inductive switches 10 on a PCB of a bracket.

5. The vaccine bottle 7.3 fed back by the circuit board 24 ultraviolet sensor 8.2 on the calibration bracket of the vaccine manufacturer cloud database is irradiated by ultraviolet rays to record the data starting time.

From this point on, the vaccines on the carrier are monitored in real time by the temperature of the carrier, the position state of the vaccine bottle and the ultraviolet irradiation.

1. The data storage component 17 on the circuit board PCB24 in the bracket automatically records the temperature data of the vaccine bottle 7.3 fed back by the temperature sensing chip 12 in real time.

2. If the temperature of the vaccine bottle 7.3 is found to exceed the specified temperature monitoring range and the error tolerance rule is violated, the indicator light 11 on the circuit board PCB24 automatically lights up a red light, and the outside can be seen from the light-transmitting display position of the indicator light 6 on the bracket.

3. The data storage component 17 on the circuit board PCB24 in the bracket automatically records the position state information of the vaccine bottle 7.3 fed back by the position sensing switch 10 in real time.

4. If find not issue and take out before using vaccine bottle 7.3 instruction through the cloud database, take out vaccine bottle 7.3 from the bracket, red light is lighted automatically to pilot lamp 11 on circuit board PCB24, and the external world can be seen from the translucent display position of pilot lamp 6 on the bracket.

5. The data storage component 17 on the circuit board PCB24 in the bracket automatically records the ultraviolet irradiation data of the vaccine bottle 7.3 fed back by the ultraviolet sensor 8.2 in real time.

6. If the data of the vaccine bottle 7.3 irradiated by ultraviolet rays exceeds the acceptable range, the indicator lamp 11 on the circuit board PCB24 automatically lights up a red light, and the outside can be seen from the light-transmitting display position of the indicator lamp 6 on the bracket.

Referring to fig. 15, when receiving and storing vaccines using a vaccine injection unit:

1. if the red light of the indicator light on the vaccine bracket is lighted, the temperature of the vaccine is abnormal and/or the vaccine is illegally taken out from the bracket. The injection cannot be used.

When using the vaccine injection unit for injection:

1. the external power supply and the data transmission interface 4 and/or the communication chip 15 are linked with the cloud data of a vaccine manufacturer, and the cloud database and the security chip 16 on the bracket circuit board PCB24 carry out encryption, decryption, verification, matching and judgment on a public key and a private key so as to confirm the validity of the bracket. And exchanging data after mutually confirming the validity.

2. And (4) acquiring the information of the bracket and the information of the vaccine loaded on the bracket, recording the temperature, recording the position change of the vaccine bottle 7.3, recording ultraviolet irradiation and the like to check whether the information is normal.

3. If the temperature monitoring data of the vaccine bottle 7.3 stored on the bracket is abnormal, the vaccine bottle 7.3 is illegally taken out before injection use, and the ultraviolet irradiation record of the vaccine bottle 7.3 is abnormal, all the indicating lamps 11 are all lighted to give a red light to warn that the injection use cannot be carried out, the local storage record and/or the cloud database synchronously update data, and the cloud database automatically informs related departments to carry out human intervention.

4. And sending an injection demand instruction to a cloud network database, wherein the cloud network database authorizes to indicate the number of the vaccine bottle loading position, the light-transmitting display position of an indicator lamp 6 corresponding to the number of the vaccine bottle loading position nameplate 5 on the bracket displays a green lamp, and the local storage records and/or the cloud database synchronously update data.

5. As shown in fig. 14, the cloud network database authorizes the instruction to take out the vaccine bottle at position 1, the position indicator lamp at position 1 displays a green light, the injection operator takes down the vaccine at position 1, and the indicator lamp is turned off. And the local storage records and the cloud database synchronously update data, and the vaccine at the position 1 is injected.

6. If No. 1 vaccine bracket storage position is put into again vaccine bottle 7.3 and the red light lights, local storage record simultaneously or cloud database synchronization update data, and the cloud database automatically notifies relevant departments to carry out human intervention.

Referring to fig. 16, the cloud network database authorizes the instruction to take out the vaccine bottle at position 2, the indicator light at position 2 displays a green light, the injection operator takes off the vaccine at position 2, and the indicator light is turned off. And the local storage records and the cloud database synchronously update data, and the vaccine at the No. 2 position is injected. If No. 1 and No. 2 vaccine bracket storage positions are put into the vaccine bottle 7.3 to light the red light, the local storage records and/or the cloud database synchronously update data, and the cloud database automatically informs relevant departments of human intervention.

Claims (7)

1. Thing networking intelligence whole temperature and ultraviolet ray control anti-fake bacterin bracket, its characterized in that includes

The left shell is provided with a plurality of vaccine bottle loading positions, and the back of each vaccine bottle loading position is provided with a vaccine bottle fixing bayonet mounting through hole;

the vaccine bottle fixing buckle is matched with the mounting through hole of the left shell vaccine bottle fixing bayonet;

the right shell is provided with a shell and a circuit board mounting positioning column;

the circuit board is arranged between the left shell and the right shell, and a plurality of position induction switches are arranged on the circuit board and correspond to the vaccine bottle loading positions.

2. The internet-of-things intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket as claimed in claim 1, wherein each vaccine bottle loading position is provided with a vaccine bottle loading position nameplate.

3. The internet-of-things intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket as claimed in claim 1, wherein one side of the left shell is provided with an ambient temperature sensing opening and an external power supply and data transmission interface, and the left shell is further provided with a bracket unique identification code.

4. The internet-of-things intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket as claimed in claim 1, wherein a plurality of indicator lamps are arranged on the circuit board, and a plurality of corresponding indicator lamp light-transmitting display positions are arranged on the top of the left shell.

5. The internet-of-things intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket as claimed in claim 1, wherein the left shell is further provided with a hemispherical light-transmitting material, and an ultraviolet sensor is arranged at a position corresponding to the circuit board.

6. The internet-of-things intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket as claimed in claim 1, wherein a rechargeable battery is arranged at the bottom of the right shell.

7. The intelligent whole-course temperature and ultraviolet monitoring anti-counterfeiting vaccine bracket of the Internet of things according to claim 1, wherein a temperature sensing chip, a communication chip, a safety chip, a data storage component and a control chip are arranged on the circuit board.

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