Disclosure of Invention
The application aims to provide a packaging assembly, a packaging assembly control system and a packaging assembly control method, which can improve the protection degree of products packaged by the packaging assembly.
A first aspect of the present application provides a packaging assembly comprising a package, the packaging assembly further comprising: the operating device is arranged on the packing object and used for controlling whether the packing object is smoothly opened or not; and the control device is coupled with the operating device and controls the operating device to act according to the received control information. Further, the control device includes: the self-checking device receives external control information, checks the control information and outputs the check information; and the self-driving circuit is respectively coupled with the self-checking device and the operating device, and controls the operating device to act according to the checking information of the self-checking device. Further, the packaging component further includes first source information, the control information is primary verification information obtained by performing primary verification on the first source information, and the verification information is secondary verification information obtained by performing secondary verification on the primary verification information by the self-verification device.
Further, the packaging assembly further comprises a label on which the self-verification device and/or the self-driving circuit and/or the first source information is provided.
Further, the first source information is electronic information, text information, audio information, video information or anti-counterfeiting marks.
Further, the anti-counterfeiting mark comprises a bar code, a two-dimensional code or an anti-counterfeiting pattern.
Further, the self-test device includes a signal processing unit for receiving the control information, testing the control information, and outputting the test information, the signal processing unit including: the signal processing circuit is used for receiving an input signal representing control information, processing the input signal, and obtaining and outputting an electric signal; the information recovery circuit receives and processes the electric signal and obtains control information; and the control circuit is connected with the information restoring circuit and is used for processing the control information and obtaining the inspection information.
Further, the signal processing circuit includes a photoelectric conversion circuit for receiving an optical signal representing the control information and converting the optical signal into an electrical signal.
Further, the information restoring circuit includes: the amplifying circuit receives the electric signal and amplifies the electric signal to form an amplified electric signal; and the analog-to-digital conversion circuit receives and processes the amplified electric signal to form and output control information.
Further, the control circuit includes: a storage circuit that stores the second source information; and the comparison circuit is connected with the storage circuit and is used for comparing the information obtained by the comparison circuit with the second source information and obtaining the inspection information according to the comparison result. Further, the comparison circuit is directly connected with the information restoration circuit, wherein the information obtained by the comparison circuit is control information; or the control circuit also comprises a decryption circuit which is respectively connected with the comparison circuit and the information restoration circuit, and the information obtained by the comparison circuit is the decryption information obtained by decrypting the control information by the decryption circuit.
Furthermore, the self-checking device also comprises a checking result output unit, and the checking result output unit is connected with the signal processing unit and used for receiving the checking information and outputting the checking result according to the checking information. Furthermore, the inspection result output unit comprises a first driving circuit and a light emitting source which are sequentially connected, wherein the first driving circuit is connected with the signal processing unit and is used for receiving the inspection information and controlling the light emitting source to work according to the inspection information so as to output the inspection result; and/or the inspection result output unit comprises a second driving circuit and a sound generating device which are sequentially connected, wherein the second driving circuit is connected with the signal processing unit and is used for receiving the inspection information and controlling the sound generating device to work according to the inspection information so as to output the inspection result; and/or the inspection result output unit comprises a third driving circuit and a display device which are sequentially connected, wherein the third driving circuit is connected with the signal processing unit and used for receiving the inspection information and controlling the display device to work according to the inspection information so as to output the inspection result. Further, the packaging assembly also comprises a power supply device which is used for supplying power to each component of the packaging assembly which needs to be driven by power.
Further, the self-test device receives the control information by receiving a wired signal and/or a wireless signal representing the control information.
Further, the wireless signal is a visible light signal, a non-visible light signal, a sound wave signal or a radio frequency signal.
Further, the signal processing unit is provided as a chip.
Further, the chip is packaged by soft package with at least partial transparent area.
Further, the package of the chip is connected to a package.
Furthermore, the operating device comprises a locking piece for preventing the package from being opened and a driving device for controlling the movement of the locking piece, and the self-driving circuit is coupled with the driving device and controls the action of the locking piece according to the inspection information. Further, the operating device comprises an opening device for opening a package, the self-driving circuit being coupled to the opening device and a second aspect of the present application provides a packaging assembly control system comprising a packaging assembly according to any one of the first aspects of the present invention and a terminal, wherein: the terminal is used for sending control information to the control device of the packaging component; the control device of the packaging assembly receives the control information sent from the terminal and controls the operation device to act according to the control information.
Further, the packaging component control system further comprises a server, and the terminal obtains the control information from the server.
Further, the terminal is used for obtaining a source signal related to the product packaged by the packaging component and transmitting the source signal or a converted signal obtained by the source signal to the server; the server processes the source signal or the conversion signal to form and output control information; the control device of the packaging assembly comprises a self-checking device and a self-driving circuit, the self-checking device of the packaging assembly receives the control information and checks the control information to form check information, and the self-driving circuit of the packaging assembly controls the operation device to act according to the check information of the self-checking device. Further, the packaging component comprises first source information, the control information is primary verification information obtained by performing primary verification on the first source information by the server, and the verification information is secondary verification information obtained by performing secondary verification on the primary verification information by the self-verification device.
Further, the terminal outputs a result of the one-time authentication according to the one-time authentication information. Further, the primary verification information is encrypted and then transmitted to the self-verification device, and the self-verification device comprises a decryption circuit for decrypting the encrypted primary verification information.
Furthermore, the terminal and the server transmit information in a wired and/or wireless mode, and the terminal and the self-checking device transmit information in a wired and/or wireless mode.
Further, the terminal and the self-checking device transmit information through visible light signals.
Further, the terminal obtains the source signal representing the first source information through a scanning mode, a shooting mode, a radio frequency signal reading mode and/or a manual input mode.
Further, the server is connected to the internet or to a mobile communication network, or the server is an optical communication device.
Further, the primary verification information and/or the secondary verification information are/is product authenticity information; and/or the primary verification information and/or the secondary verification information are product description information; and/or the primary verification information and/or the secondary verification information are product use information; and/or the primary authentication information and/or the secondary authentication information is authorization information.
A third aspect of the present application also provides a packaging assembly control method of controlling a packaging assembly according to any one of the first aspects of the present application, the packaging assembly control method comprising the steps of: sending control information to a control device of the packaging assembly; the control device receives the control information and controls the operation device to act according to the control information.
Further, the control device comprises a self-checking device and a self-driving circuit, and the step of receiving the control information and controlling the operation device to act according to the control information comprises the following steps: the self-checking device receives the control information, checks the control information and outputs the check information; the self-driving circuit controls the operation device of the packaging component to act according to the inspection information of the self-inspection device.
Further, the wrapper component comprises a first source of information, the control method further comprising the steps of: acquiring first source information, carrying out primary verification on the first source information to form primary verification information, and transmitting the primary verification information serving as control information to a self-verification device; the self-checking device carries out secondary checking on the primary checking information to form secondary checking information, and the secondary checking information is transmitted to the self-driven circuit as checking information.
Further, the self-checking device comprises a storage circuit and a comparison circuit, the storage circuit stores the second source information, and the self-checking device compares the first verification information with the second source information through the comparison circuit to perform secondary verification.
Further, the control method further comprises the step of outputting a verification result of the secondary verification according to the secondary verification information. Further, the control method further comprises outputting a verification result of the one-time verification according to the one-time verification information.
According to the package assembly of the application, can convey the controlling means on the product package with control information, control operating means by controlling means to directly or supplementary the opening packing material through operating means, the degree that the product that improves the package assembly and pack received the protection is enough. Furthermore, the control information is checked by the self-checking device to obtain the check information, and the operation device is controlled to act according to the check information, so that whether the packaged object can be smoothly opened or not is controlled, and therefore the anti-counterfeiting degree of the product packaged by the packaging assembly can be effectively improved. Furthermore, the verification device can perform secondary verification on primary verification information which is transmitted from the internet and performs primary verification according to the first source information of the packaging component, so that a verification result of double verification is obtained, and the safety of verification of the product packaged by the packaging component can be further improved.
Detailed Description
The present application will be described in detail below with reference to the embodiments with reference to the attached drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.
The packaging assembly of the present application includes a package, an operating device and a control device. The operating device is arranged on the packing object and used for controlling whether the packing object is smoothly opened. The control device is coupled with the operation device and controls the operation device to act according to the received control information. According to the package assembly of the application, can convey the controlling means on the product package with control information, control operating means by controlling means to directly or supplementary the opening packing material through operating means, the degree that the product that improves the package assembly and pack received the protection is enough.
The control information received by the control device may be an input password or an electromagnetic signal. For example, the control information may be a wireless signal or a visible light signal transmitted from a terminal (e.g., a mobile phone or a computer), and the degree of protection of the product from the packaging component is enhanced by the interaction between the control device and the terminal.
A preferred embodiment is that the control means of the package assembly comprise a self-verifying means and a self-driving circuit. The self-checking device receives external control information, checks the control information and outputs check information. The self-driving circuit is respectively coupled with the self-checking device and the operating device, and the self-driving circuit controls the operating device to act according to the checking information of the self-checking device. This package assembly can be through examining the device from testing control information and obtain inspection information to according to inspection information control operating means action, thereby control the packing material and whether can open smoothly, for example can set up this package assembly into if inspection information is not conform to the requirement, operating means can not move, and the packing material can not open smoothly, consequently, can effectively improve the anti-fake degree of the product that the package assembly packed.
Fig. 1 is a schematic diagram of the composition of a packaging assembly according to a preferred embodiment of the present application. As shown in fig. 1, in this embodiment, the package assembly includes a package 20, an operating device 30, and a label 10, the label 10 being disposed on the package. Wherein, the self-checking device 2 and the self-driving circuit 9 are both arranged on the label 10, and the control part of the packing material and the packing material can be respectively and intensively produced by the arrangement, thereby improving the production efficiency.
In this embodiment, the packing object 20 is a box structure, the operating device 30 includes a lock member for preventing the packing object 20 from being opened and a driving device for driving the lock member to move, and the self-driving circuit 9 is coupled with the driving device and controls the lock member to operate according to the inspection information. The drive device may be an electromagnet, for example.
In this embodiment, it is preferable that the packaging component further includes first source information, the control information is primary authentication information obtained by performing primary authentication on the first source information, and the verification information is secondary authentication information obtained by performing secondary authentication on the primary authentication information by the self-authentication device 2.
Fig. 2 is a schematic diagram of the composition of a label 10 of a packaging assembly according to a preferred embodiment of the present application. As shown in fig. 2, the tag 10 of the present application includes a label supplying part 1, a self-verifying device 2, and a self-verifying device 9. In the present embodiment, the identification provider 1 stores the aforementioned first source information of the packaging component. The self-authentication device 2 receives primary authentication information obtained by performing primary authentication on the first source information, performs secondary authentication on the primary authentication information, and outputs an authentication result. .
Since the label 10 includes the self-verification device 2, the primary verification information obtained from the first source information can be verified by the self-verification device 2 for the second time, so as to obtain a verification result of double verification, thereby improving the security of the information loaded on the label 10 when verifying the information, and further improving the anti-counterfeiting degree of the packaging component.
The first information source can be electronic information, text information, audio information, video information, anti-counterfeiting marks or the like. The electronic information may be information stored in a memory or electromagnetic waves of a specific frequency or the like. The literal information may be a character string or a number sequence, etc. The anti-counterfeiting mark can comprise a bar code, a two-dimensional code, an anti-counterfeiting pattern and the like. The anti-counterfeiting pattern can be, for example, a laser anti-counterfeiting pattern, a watermark, a plane or three-dimensional pattern printed by special ink, a micro character, a micro number and the like.
The self-authentication device 2 receives the primary authentication information by receiving a wired signal or a wireless signal representing the primary authentication information.
In order to clarify the meaning of the primary authentication information, the acquisition process of the primary authentication information is briefly illustrated in conjunction with fig. 10 (more specifically, the following description). For example, if the first source information is a digital serial number, the digital serial number may be obtained through a terminal 3 such as a mobile phone, and then the terminal 3 converts the digital serial number itself or a program or a conversion device carried by the mobile phone into corresponding conversion information and sends the converted information to the server 4, after receiving the corresponding information sent by the mobile phone, the server 4 performs a first verification on the received information, for example, the server 4 may check whether the digital serial number can be found in all stored serial numbers, if the digital serial number can be found, the first verification result is true, and sends a first verification information representing the first verification result to the self-verifying device 2 of the tag 10, and the first verification information may be sent directly or sent to the self-verifying device 2 through the mobile phone for a second verification.
FIG. 3 is a schematic diagram of the composition of the self-test device 2 according to the preferred embodiment of the present application. As shown in fig. 3, the self-test apparatus 2 includes a signal processing unit 21 and a test result output unit 22 which are connected in this order. The signal processing unit 21 is configured to receive the primary verification information, perform secondary verification on the primary verification information, and output secondary verification information. The verification result output unit 22 is connected to the signal processing unit 21, and is configured to receive the secondary verification information and output a verification result according to the secondary verification information. Wherein the test result output unit 22 is preferred but not necessary.
Fig. 4 is a schematic diagram of the internal composition of the signal processing unit 21 according to the preferred embodiment of the present application. As shown in fig. 4, the signal processing unit 21 includes a signal processing circuit 211, an information restoring circuit 212, and a control circuit 213, which are connected in this order. The signal processing circuit 211 is configured to receive an input signal representing primary authentication information, process the input signal, obtain an electrical signal, and output the electrical signal. The information recovery circuit 212 is used for receiving and processing the electrical signal and obtaining the primary verification information. The control circuit 213 is connected to the information restoring circuit 212, and processes the primary verification information to obtain the secondary verification information.
Wherein the input signal representing the one-time authentication information may be a wired signal, such as an electrical signal. Or wireless signals, for example, visible light signals, invisible light signals such as infrared signals, sound wave signals or radio frequency signals. Wherein the sound wave signal may be, for example, ultrasonic waves or ordinary sound waves, and in this case, the tag 10 is a voice recognition tag 10. The first source information can be transmitted through radio frequency signals under different protocols, such as WIFI, Bluetooth, near field communication NFC or RFID-SIM.
In the present embodiment, the self-verification device 2 will be described by taking only an optical signal as an input signal representing the first source information. In this embodiment, the signal processing circuit 211 includes a photoelectric conversion circuit. The photoelectric conversion circuit is configured to receive an optical signal representing the primary authentication information, convert the optical signal into an electrical signal, and send the electrical signal to the information recovery circuit 212.
Fig. 5 is a schematic diagram of the internal components of the information retrieval circuit 212 according to the preferred embodiment of the present application. As shown in fig. 5, the information restoration circuit 212 includes an amplification circuit 212A and an analog-to-digital conversion circuit 212B which are connected in sequence. The amplifying circuit 212A receives the electrical signal, and amplifies the electrical signal to form an amplified electrical signal; analog-to-digital conversion circuit 212B receives and processes the amplified electrical signal, and forms and outputs primary verification information. The information recovery circuit 212 is configured to process the electrical signal sent by the signal processing circuit 211 to recover primary verification information, where the primary verification information may be product information, such as product description information, product authenticity information, product usage information, user information, or authorization code.
Fig. 6 is a schematic diagram of the internal components of a control circuit 213 according to the preferred embodiment of the present application. The control circuit 213 shown in fig. 6 includes a memory circuit 213A and a comparison circuit 213B. The comparison circuit 213B is directly connected to the information restoring circuit 212. The storage circuit 213A stores the second source information. The comparison circuit 213B is also connected to the storage circuit 213A, and the comparison circuit 213B is configured to compare the primary verification information and the second source information from the information restoring circuit 212, and obtain secondary verification information according to the comparison result.
The secondary verification information may be product information, such as product description information, product authenticity information, product usage information, user information, or authorization code. In the comparison process of the comparing circuit 213B, the verification information and the second source information may be completely compared, and when the verification information and the second source information are completely matched, the second verification is passed; or the part needing to be verified of the first verification information is matched with all or part of the second source information, and the second verification is passed. The comparison circuit 213B may be implemented by a single chip or a processor or other devices with logic operation function.
For example, when the primary authentication information includes both the product authentication information and other related information, the control circuit 213 may determine whether the product authentication information in the primary authentication information matches the product authentication information described in the second source information, if the control circuit 213 determines that the product authentication information indicates a genuine product, the control circuit 213 may control the inspection result output unit 22 to output the product authentication information or a prompt that the product is a genuine product, if the terminal 3 provides other information in the primary authentication information, the correctness of the primary authentication information may be confirmed, or if the inspection result output unit 22 of the authentication device 2 is provided with a sound generating device or a display device, the inspection result output unit 22 may output other information, and the self-driving circuit 9 may control the operation device 30 to perform an operation that allows the packaged object 20 to be smoothly opened, for example, in the present exemplary embodiment, the blocking element of the actuating device 30 for blocking the packaging 20 is opened, or in another exemplary embodiment, the self-drive circuit 9 does not directly open the blocking element, but rather the blocking element of the actuating device 30 is in a state in which it can be opened by direct operation by a person; when the control circuit 213 judges that the product authentication information indicates a counterfeit product, the control circuit 213 controls the inspection result output unit 22 to output the product authentication information or a prompt indicating that the product is a counterfeit product, such as sending an alarm signal, at this time, the information on the terminal 3 is not authentic or the inspection result output unit 22 of the inspection device 2 does not send other information, and the self-driving circuit 9 does not control the operation device 30 to operate, so that the packaged object 20 maintains its original state, and at this time, if the packaged object 20 is not destroyed, the packaged object 20 cannot be opened smoothly.
The storage circuit 213A may store product identification information corresponding to a single product, or may store multiple product identification information corresponding to multiple products. When a plurality of product identification information corresponding to a plurality of products is provided, the manufacturing efficiency of the tag 10 is further improved.
The second source information in the storage circuit 213A, such as product identification information, is stored in advance when the product is shipped from the factory. For example, the product identification information may include information such as product model, date of delivery, lot, place of production, and whether the original product is genuine or not may be identified according to the product identification information.
Fig. 7 is a schematic diagram of the internal components of another control circuit 213 according to the preferred embodiment of the present application. The control circuit 213 shown in fig. 7 includes a decryption circuit 213C, a storage circuit 213A, and a comparison circuit 213B. The storage circuit 213A stores the second source information. The decryption circuit 213C is connected to the comparison circuit 213B and the information restoration circuit 212, respectively, and the comparison circuit 213B is also connected to the storage circuit 213A. In this case, the primary authentication information is encrypted information, and the decryption circuit 213C decrypts the primary authentication information to obtain decrypted information. The comparison circuit 213B is configured to compare the decryption information with the second source information, and obtain the second verification information according to the comparison result. The comparison circuit 213B and the decryption circuit 213C may be implemented by a single chip or a processor or other devices with logical operation functions. Other non-illustrated parts may refer to the related description of the control circuit 213 shown in fig. 6. The control circuit 213 shown in fig. 7 can further improve safety compared to the control circuit 213 shown in fig. 6
FIG. 8 is a schematic view of the overall internal composition of the self-test device 2 according to the preferred embodiment of the present application. As shown in fig. 8, first, a visible light signal representing the encrypted primary authentication information enters a photoelectric conversion circuit as the signal processing circuit 211, the visible light signal is converted into an electrical signal by the photoelectric conversion circuit, the electrical signal is transmitted to the amplifying circuit 212A in the information restoring circuit 22, the amplified electrical signal amplified by the amplifying circuit 212A is transmitted to the analog-to-digital conversion circuit 212B, the electrical signal is restored into encrypted primary verification information, the encrypted first authentication information is decrypted in the decryption circuit 213C of the control circuit 213, the resulting decrypted information is input to the comparison circuit 213B, the comparison circuit 213B performs a second authentication between the decrypted information and the second source information in the storage circuit 213A, and finally, the verification result of the secondary verification is output by the verification result output unit 22, and the self-drive circuit 9 controls the operation of the operation device 30 according to the verification result.
Fig. 9 is a schematic diagram of the composition of the inspection result output unit 22 according to the preferred embodiment of the present application. The inspection result output unit 22 is controlled by the control circuit 213.
As shown in fig. 9, the verification result output unit 22 may include a first driving circuit 221 and a light emitting source 222 connected in sequence, where the first driving circuit 221 is connected to the signal processing unit 21, and is configured to receive the secondary verification information and control the light emitting source 222 to operate according to the secondary verification information to output the verification result. The light emitting source 222 may be, for example, an LED.
For example, for the secondary verification information including the product authenticity information, when the control circuit 213 determines that the result is a genuine product, the first driving circuit 221 receives the driving control signal from the control circuit 213 to drive the light emitting source 222 to emit light; or when the judgment result is a counterfeit, the driving control signal sent by the control circuit 213 is received to drive the light emitting source 222 to emit light.
The verification result output unit 22 may further include a second driving circuit 223 and a sound generating device 224 connected in sequence, where the second driving circuit 223 is connected to the signal processing unit 21, and is configured to receive the secondary verification information and control the sound generating device 224 to operate according to the secondary verification information to output the verification result.
The sounding device can be a buzzer, a voice device or the like. If the buzzer is used, an alarm signal can be output or different prompts can be given through the length, the frequency and the like of sound emitted by the buzzer. If the device is a voice device, other information such as a relatively specific product name, a production place, a raw material and the like can also be output.
The inspection result output unit 22 may also include a third driving circuit 225 and a display device 226 connected in sequence, where the third driving circuit 225 is connected to the signal processing unit 21 and is configured to receive the secondary verification information and control the display device 226 to operate according to the secondary verification information to output the verification result.
The display device 226 may display various product information such as product authenticity, product description, authorization, etc.
It should be noted that, in fig. 9, the light emitting source 222, the sound generating device 224, and the display device 226 and their respective driving circuits are shown, but the inspection result output unit 22 may include only one portion thereof, such as only the light emitting source 222, or include the light emitting source 222 and the display device 226 but not the sound generating device 224.
For example, in the present embodiment, an LED as the light emission source 222 and a buzzer as the sound emission device 224 are simultaneously provided, and if the secondary verification result is authentic, the control circuit 213 sends a drive control signal to drive the LED to emit light; and if the secondary verification result is a counterfeit product, the LED is not driven to emit light, or the buzzer is driven to give an alarm for reminding. Of course, it may also be set to send out the driving control signal to drive the LED to emit light when the secondary verification result is a counterfeit.
In addition, the output device of the inspection result output unit 22 is not limited to the above-mentioned ones, and may include other output devices such as a vibration device and the like.
Preferably, the packaging assembly further comprises power supply means (not shown) for supplying power to components of the packaging assembly which require electrical power to be driven. For example, for supplying power to the LED and buzzer, for supplying power to the electrical parts of the operating device 9, etc., the power supply means preferably being an ultra thin battery, such as a solar film battery, a button battery or a printed paper battery or a rechargeable battery, etc. The power supply may be located on the label 10 or on the wrapper 20.
In addition, the signal processing unit 21 in this embodiment may be configured as a chip, and packaged in an integrated circuit, which may effectively reduce the area of the tag 10. Preferably, the chip is soft packaged with at least partial area transparent. The soft pack is preferably attached to the product package 20. Also, a transparent film may be used as the main body portion of the label 10, which is attached to the wrapper 20.
In addition, in the aspect of chip packaging, the chip is packaged in a soft mode, the photodiode region for receiving optical signals in the chip is packaged in a transparent soft mode, light can penetrate through the transparent soft package, and the photodiode portion of the chip can receive the light. The chip package adopts a mechanical method to physically connect the chips together, meanwhile, the soft package is also connected with the packing material 20, if the packing material 20 outside the product is removed, the soft package of the chip is damaged, and the soft package of the chip is damaged, so that the internal damage of the chip is caused. This arrangement can prevent the tag 10 from being recycled as a genuine product or disassembled for analysis by a person. For example, in the case of applying the label 10 to a wine bottle, the soft package of the label 10 is connected to the bottle body of the bottle cap, and the label 10 is torn when the bottle cap is opened after the wine is verified as genuine.
Through the label 10 that this application provided, only need consumer's portable terminal 3 and install a special application on the terminal 3 and just can carry out the true and false of product at once and verify, and the security of verifying is high moreover, and realized verifying that the product is labour saving and time saving, convenient and fast, operate operating means 30 according to verifying the result in addition, can set up to only verify that the result meets the requirements (for example the product is true), thereby just can open the locking piece of locking packing material 20 through operating means 30 and improve the antifalsification ability of product.
The above preferred embodiments should not limit the present application, for example, in the embodiment not shown, part or all of the identification providing part 1, the self-verifying device 2 and the self-driving circuit 9 may be directly provided on the packing 20.
In addition, in the above preferred embodiment, the operating device 30 includes a lock member for locking the package 30, but the operating device 30 may be provided as an opening device for the package 20, and the opening of the package 20 may be directly controlled by the operating device 30. For example, the package may be a bottle assembly including a bottle and a cap screwed on a bottle opening, and the opening device may be an electric rotating mechanism provided on the bottle assembly, and the cap screwing is realized by driving the electric rotating mechanism to rotate through the self-driving circuit 9, so as to directly open the bottle assembly.
Further, the identification providing unit 1 is not essential, and the corresponding control information may be other information than the primary authentication information, and the verification information is not necessarily the secondary authentication information. For example, the control information may be the control information that the user obtains the product verification code from the network server of the manufacturer or distributor of the product packaged in the package assembly, and then transmits the product verification code as an input signal to the self-verification device 2, and the self-driving circuit 9 controls the operation of the operation device 30 after the verification information meeting the requirement is obtained by the verification of the self-verification device 2. Otherwise, if the verification results in an unsatisfactory verification, the operating device 30 is deactivated, and the package 20 cannot be opened smoothly.
The present application also provides a packaging assembly control system comprising the aforementioned packaging assembly and terminal. The terminal is used for sending control information to the control device of the packaging assembly. The control device of the packaging assembly receives the control information sent from the terminal and controls the operation device of the packaging assembly to act according to the control information. Preferably, the package assembly control system further comprises a server from which the terminal obtains control information.
Figure 10 is a schematic diagram of the composition of a packaging assembly control system according to a preferred embodiment of the present application. As shown in fig. 10, the wrapper component control system provided by the present application comprises the wrapper component, the terminal 3 and the server 4 as described above. Wherein the terminal 3 is adapted to obtain a source signal related to the packaged product of the package assembly and to transmit the source signal or a converted signal obtained from the source signal to the server 4. The server 4 processes the source signal or the converted signal to form and output control information. The self-inspection device 2 of the packaging unit receives the control information and inspects the control information to form inspection information, and the self-drive circuit 9 of the packaging unit controls the operation device 30 to operate according to the inspection information of the self-inspection device 2.
In this embodiment, it is preferable that the wrapper component includes first source information, the control information is first authentication information obtained by the server 4 performing first authentication on the first source information, and the verification information is second authentication information obtained by performing second authentication on the first authentication information by the self-authentication device 2. Wherein the terminal 3 is configured to obtain a source signal representing the first source information and to transmit the source signal or a converted signal obtained from the source signal to the server 4. The server 4 performs one-time authentication on the source signal or the converted signal and outputs one-time authentication information. The self-verification device 2 receives the primary verification information, performs secondary verification on the primary verification information to form secondary verification information, and preferably also outputs a verification result.
The primary authentication information is transmitted to the self-authentication device 2 through the terminal 3. The terminal 3 may output a result of the one-time authentication based on the one-time authentication information. In addition, the primary authentication information is preferably encrypted and then supplied to the authentication device 2, and in this case, the authentication device 2 includes a decryption circuit 213C that decrypts the encrypted primary authentication information.
The terminal 3 and the server 4 may transmit information by wire or wirelessly. The terminal 3 and the self-verification device 2 on the tag 10 may also transmit information in a wired or wireless manner. For example, the terminal 3 may obtain the source signal representing the first source information by a scanning mode, a shooting mode, a radio frequency signal reading mode or a manual input mode. Preferably, the terminal 3 and the self-verification device 2 transmit information by means of visible light signals.
The server 4 may be connected to the internet or to a mobile communication network, or the server 4 may be an optical communication device.
The terminal 3 may include an electronic device such as a mobile phone or a computer.
The packaging component control system of the present application will be described below by taking a mobile phone as the terminal 3, verifying the authenticity of the product, and opening the locking member according to the verification result. This example is only one of many implementations of the present application and should not be construed as limiting the present application.
The first source information on the tag 10 is acquired by the mobile phone and sent to the server 4. The mobile phone can scan or input the information in the plane identifier by using a special application program installed, so as to obtain the first source information. The mobile phone can send the first source information to the server 4 for verifying the authenticity by connecting the internet, sending a short message or making a call, and the like, and the server 4 performs primary verification on the authenticity of the product.
When the server 4 receives the first source information sent by the mobile phone and carries out primary verification, the first source information is compared with the pre-stored information, and product information serving as primary verification information is sent to the mobile phone according to the matching condition of the first source information and the pre-stored information. The mobile phone receives the primary authentication information returned by the server 4. The product information comprises product authenticity information or product description information or user information, wherein the product authenticity information is information for identifying the identity of the product or a product authenticity result.
The mobile phone prompts once verification information, if the authenticity identification result shows that the product is a counterfeit product, the product can be determined as the counterfeit product, and once verification information does not need to be sent to the self-verification device 2 of the label 10. If the primary verification information indicates that the product is genuine, the primary verification information needs to be sent to the self-verification device 2 of the tag 10 for secondary verification. As described above, the mobile phone can encrypt the authentication information once and then transmit the encrypted authentication information to the self-authentication apparatus 2 of the tag 10.
The mobile phone wirelessly transmits primary authentication information such as product authentication information to the self-authentication device 2 of the tag 10. The mobile phone sends the primary verification information to the photoelectric conversion circuit of the self-verification device 2 of the label 10 in a visible light mode through a light emitting source equipped by the mobile phone. The self-verification device 2 of the tag 10 receives the primary verification information, performs secondary verification and outputs a verification result of the secondary verification, and the secondary verification process of the self-verification device 2 is not repeated as described above. If the result of the secondary verification shows that the product is a counterfeit product, the content prompted by the mobile phone is not credible, and if the result of the secondary verification shows that the product is a genuine product, the content prompted by the mobile phone is credible.
In addition, if the first verification information and the second source information of the self-verification device 2 reach the specified matching degree, and the product is judged to be a genuine product, the self-verification device 2 can also be selected to return a verification result after secondary verification to the terminal 3, such as product authenticity information containing product identity information representing the genuine product or a product authenticity result representing the genuine product. Otherwise, if the first verification information and the second source information of the self-verification device 2 do not reach the specified matching degree, the product is judged to be a counterfeit product, and the product authenticity information representing the counterfeit product is returned to the terminal 3, wherein the product authenticity information representing the counterfeit product is information containing other product identities, or predetermined specific information or a product authenticity result representing the counterfeit product.
In this embodiment, only if the verification result of the secondary verification indicates that the product is a genuine product, the operating device 30 may be triggered by the self-driving circuit 9, and the lock member on the package 20 is opened.
If a computer is used as the terminal 3, the first source information on the label 10 can be sent to the server 4 by inputting character strings, serial number sequences or pictures of two-dimensional codes and the like on a website interface through the Internet.
The terminal 3 may also include an opto-electronic processing module to support optical communications. The terminal 3 may send the first source information of the tag 10 to the server 4 in a visible light manner and receive the primary verification information such as the product authentication information returned by the server 4.
When the terminal 3 receives the product authenticity information, it can directly prompt the primary verification result such as the authenticity identification result, for example, flashing or sending prompt tone. The result of the secondary verification is sent out by the self-verification device 2 of the tag 10, or the result of the secondary verification is sent back to the terminal 3 by the self-verification device 2 and then is presented by the terminal 3.
In order to improve security and prevent the authentication from being broken, the server 4 may encrypt the authentication information and transmit the encrypted authentication information to the terminal 3 and/or the authentication device 2. The terminal 3 may encrypt primary authentication information such as product authentication information and transmit the encrypted primary authentication information to the tag 10.
When the terminal 3 sends the first source information to the server 4 in the form of visible light, the server 4 may be a visible light identification device. The visible light identification equipment stores product identity information in advance. The identity information representing the product can comprise information such as product model, delivery date, batch, production place and the like, and whether the original product is genuine can be identified according to the identity information of the product. After receiving the product identity information sent by the terminal 3, the visible light identification device compares the product identity information with the stored product identity information, if the product identity information matches with the first source information of the tag 10, the visible light identification device determines that the product is a genuine product, and returns product authenticity information containing the product identity information representing the genuine product to the terminal 3, wherein the product authenticity information containing the product identity information representing the genuine product can be complete, or partial product identity information representing the genuine product or information having a certain corresponding relationship with the product identity information. Otherwise, the terminal judges the product as a counterfeit product, and returns product authenticity information representing the counterfeit product to the terminal 3, wherein the product authenticity information may include information of other product identities or specific information agreed in advance.
Or if the product is judged to be a genuine product, an authenticity identification result can be returned to the terminal 3 to indicate the information of the genuine product; if the counterfeit is judged, the authenticity identification result is returned to the terminal 3, and the information of the counterfeit is shown. After receiving the product authenticity identification result, the terminal 3 sends the product authenticity identification result to the self-checking device 2 of the label 10 in a visible light mode for secondary verification. The detailed description of the process is omitted here.
When the product authenticity information received by the terminal 3 is directly the authenticity identification result information, the authenticity identification result can be directly prompted, for example, flashing light or sending prompt sound. And the authenticity identification result is sent to the self-checking device 2 of the label 10 in a visible light mode to carry out secondary verification according to the requirement.
In order to improve the security and prevent the product from being cracked, the product authenticity information may be encrypted by the visible light identification device and then sent to the terminal 3, for example, an AES encryption algorithm is used. Or the visible light identification device does not encrypt, and after the terminal 3 encrypts, the visible light identification device sends the encrypted visible light identification device to the self-verification device 2 of the label 10. Or encrypted at both the visible light identification device and the terminal 3.
The packaging assembly control method of the aforementioned packaging assembly of the present application comprises the steps of: sending control information to a control device of the packaging assembly; the control device receives the control information and controls the operation device to act according to the control information. Preferably, the control device comprises a self-checking device and a self-driving circuit, and the step of receiving the control information and controlling the operation device to act according to the control information comprises the following steps: the self-checking device 2 receives the control information, checks the control information and outputs the check information; the self-driving circuit 9 controls the operation of the operation device 30 of the pack assembly based on the inspection information of the self-inspection device 2.
In this embodiment, preferably, the wrapper component includes the first source information, and the control method further includes the steps of: acquiring first source information, performing primary verification on the first source information to form primary verification information, and transmitting the primary verification information serving as control information to the self-verification device 2; the self-checking device 2 performs secondary checking on the primary checking information to form secondary checking information, and transmits the secondary checking information as checking information to the self-driving circuit 9.
The step of carrying out secondary verification on the primary verification information to form secondary verification information comprises the following steps: the first authentication information is acquired by the self-authentication device 2 provided on the tag 10, the second authentication is performed, and the authentication result is output.
The self-checking device 2 includes a storage circuit 213A and a comparison circuit 213B, the storage circuit 213A stores the second source information, and the self-checking device 2 performs the secondary verification by comparing the primary verification information and the second source information by the comparison circuit 213B.
The packaging assembly control method further comprises the step of outputting a verification result of the secondary verification according to the secondary verification information. The verification result may be output through the light emitting source 222, the sound emitting device 224, the display device 226, and/or the vibration device.
In addition, the wrapping component control method further includes outputting a verification result of the one-time verification by the terminal 3 according to the one-time verification information.
In order to further improve the security, when the first source information is text information or a flat logo, a scratch layer may be further disposed on the surface of the logo providing part 1 to protect the first source information. At this time, the packaging assembly control method further includes scraping the coating scratch layer.
The terminal 3 may input a character string or a series of numeric sequences on a website interface through the internet, or send a short message or make a call to the server 4 to send the first source information of the tag 10. The server 4 receives the first source information of the label 10 sent by the terminal 3, compares the first source information with the pre-stored information, and outputs the first verification information including the product authenticity identification result to the terminal 3 after the first verification. If the information stored in the server 4 is matched with the first source information of the label 10, the product is judged to be a genuine product, and product authenticity information containing the genuine product is returned to the terminal 3; otherwise, the terminal judges the product as a counterfeit product and returns product authenticity information indicating the counterfeit product to the terminal 3.
The one-time authentication information may include information on the identity of other products or specific information agreed in advance. The product identity information may be a complete product identity information representing a genuine product, or a partial product identity information representing a genuine product, or an information having a certain corresponding relationship with the product identity information.
When the terminal 3 receives the primary verification information including the product authentication result, it can directly present the authentication result itself, for example, flash or send a prompt tone, but whether the authentication result is authentic or not needs to be confirmed after the secondary verification by the verification device 2. The terminal 3 also needs to transmit the primary authentication information including the authentication result to the self-authentication device 2 of the label 10 in a visible light manner. For example, the terminal 3 controls an LED lamp provided in the terminal 3 to emit primary authentication information such as a product authentication result to the self-authentication device 2 by visible light in a stroboscopic manner.
The self-checking device 2 converts the optical signal into an electrical signal and restores the obtained primary checking information. And comparing the restored verification information with second source information of the storage circuit, such as product identity information.
When the result of the confirmation is genuine, the LED of the tag 10 emits light; and when the result is confirmed to be a counterfeit product, the LED is not driven to emit light, or the buzzer is driven to give an alarm for reminding. Of course, it may be set so that the LED is driven to emit light when the comparison result is a counterfeit.
In addition, the above descriptions of the packaging assembly and the packaging assembly control system are all applicable to the packaging assembly control method, and therefore, the descriptions are not excessive.
As can be seen from the above description, the above-described embodiments achieve the following technical effects: the control information can be checked through the self-checking device to obtain the checking information, and the operation device is controlled to act according to the checking information, so that whether the packing material can be smoothly opened or not is controlled, and therefore the anti-counterfeiting degree of the product packed by the packing component can be effectively improved. Furthermore, the primary verification information which is transmitted from the internet and is subjected to primary verification according to the first source information of the packaging component can be subjected to secondary verification through the self-verification device, and a verification result of double verification is obtained, so that the safety of verification of the product packaged by the packaging component can be further improved.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.