CN212256342U - Intelligent anti-counterfeit package - Google Patents

Abstract

The utility model provides an intelligence anti-fake packaging system, include: the anti-counterfeiting module comprises a cavity formed by commodity packaging and an anti-counterfeiting module. Wherein, the cavity is used for holding commodity, and it is sealed in order to keep apart the inside and outside environment of cavity, and the inside of this cavity has initial environmental parameter that sets up in advance. The anti-counterfeiting module comprises a sensor for detecting environmental parameters and an NFC chip. The NFC chip is provided with a radio frequency module, and the radio frequency module is used for transmitting environment parameters. The anti-counterfeiting system further comprises a mobile terminal for receiving the detected environmental parameters. An environmental parameter can be used to compare with the initial environmental parameter to determine if the seal of the cavity of the article has been breached.

Description

Intelligent anti-counterfeit package

Technical Field

The utility model belongs to the technical field of the technique of commodity packing and specifically relates to an intelligence anti-fake commodity packing with NFC chip is related to.

Background

High-end goods such as luxury goods, famous wine and the like are extremely easy to be counterfeited in the production flow passing process. The current anti-counterfeiting technology is mainly realized through anti-counterfeiting labels. Whether the special printing process is adopted or the digital anti-counterfeiting information is provided by the label, the essence of label anti-counterfeiting is to convert the identification of the authenticity of the physical commodity into the identification of the authenticity of the label. The anti-counterfeit label provides a relatively uniform identification mode for different commodities. At present, the label technology for digital anti-counterfeiting information mainly comprises bar codes, two-dimensional codes, RFID chips and the like besides direct coded numbers.

One problem with the use of prior art security labels to secure merchandise is: counterfeiters often use genuine packages to counterfeit. In this case, since the counterfeit goods are the genuine package and the genuine counterfeit-preventing label, the counterfeit-preventing label cannot recognize the counterfeit goods. For example, in the case of famous wine, a counterfeiter punches a hole in the body of a wine bottle to suck out the internal genuine wine and fill the wine into the counterfeit wine. Under the condition, the anti-counterfeiting labels arranged in the wine bottle body and the wine bottle cap are real, so that the counterfeit goods cannot be identified by the traditional anti-counterfeiting method for identifying the authenticity of the goods based on the authenticity of the anti-counterfeiting labels. This makes the anti-counterfeiting measure become the furnishings, can't play the true anti-counterfeiting purpose, so the high-quality original factory goods and enterprise credit in the market receive the great influence.

Therefore, a new smart packaging technology is desired to identify counterfeit goods using genuine packaging and genuine anti-counterfeit labels.

SUMMERY OF THE UTILITY MODEL

In order to solve one or more problems in the prior art, the utility model provides a system for anti-counterfeit package, include: a cavity for containing a commodity, wherein the cavity is sealed to isolate an internal environment of the cavity from an external environment, the internal environment of the cavity having pre-set initial environmental parameters; a security module comprising: the NFC chip is connected with the sensor module and receives the detected environmental parameters from the sensor module. The NFC chip is provided with a radio frequency module, and the radio frequency module is used for transmitting the environment parameters. The anti-counterfeiting system further comprises a mobile terminal which has an NFC function and is used for receiving the detected environmental parameters from the radio frequency module. The detected environmental parameter received by the mobile terminal can be used to compare with the initial environmental parameter to determine if the seal of the cavity of the article of merchandise has been breached.

According to a preferred embodiment, the mobile terminal sends the detected environmental parameters, the number of the goods and/or the GPRS positioning information of the mobile terminal to the server; the server compares the detected environmental parameter with the initial environmental parameter to determine whether the seal of the cavity of the article has been breached, and returns information regarding whether the seal of the cavity has been breached to the mobile terminal.

According to a preferred embodiment, the environmental parameter comprises at least one of: the concentration of the specific gas in the cavity injected into the cavity when the commodity is packaged; a pressure within the chamber; humidity within the cavity; and the temperature within the cavity.

According to a preferred embodiment, the anti-counterfeiting module is arranged on the inner surface of the cavity; the NFC chip is provided with a storage module, the storage module is used for storing the environmental parameters obtained by multiple detections of the sensor module, and the radio frequency module is used for sending the environmental parameters obtained by at least one detection stored in the storage module to the mobile terminal.

According to a preferred embodiment, the power supply of the security module is realized by at least one of: the mobile terminal supplies power to the NFC chip and/or the sensor module through electromagnetic induction; and supplying power to the NFC chip and/or the sensor module through a battery connected with the anti-counterfeiting module.

According to a preferred embodiment, the sensor module is integrated within the NFC chip or the sensor module is arranged outside the NFC chip.

According to a preferred embodiment, the sensor module periodically detects the environmental parameter within the cavity and stores the detected environmental parameter in the storage module of the NFC chip.

According to the utility model discloses a second aspect provides an anti-fake package, include: a cavity for containing a commodity, wherein the cavity is sealed to isolate an internal environment of the cavity from an external environment, the internal environment of the cavity having pre-set initial environmental parameters; the anti-fake module sets up in the inside of this cavity, and includes: a sensor module for detecting environmental parameters within the cavity; the NFC chip is connected with the sensor module and receives the detected environmental parameters from the sensor module, and the NFC chip is provided with a radio frequency module which is used for sending the detected environmental parameters to the mobile terminal; wherein the detected environmental parameter is used to compare with the initial environmental parameter to determine whether the seal of the cavity of the article has been breached.

According to the utility model discloses a third aspect provides an anti-fake module for packing, and this packing has the cavity that is used for holding commodity, and wherein this cavity is sealed with inside environment and the external environment who keeps apart this cavity to the inside environment of this cavity has the initial environmental parameter that sets up in advance, and this anti-fake module includes: a sensor module for detecting environmental parameters within the cavity; the NFC chip is connected with the sensor module and receives the detected environmental parameters from the sensor module, and the NFC chip is provided with a radio frequency module which is used for sending the detected environmental parameters to the mobile terminal; wherein the detected environmental parameter can be used to compare with the initial environmental parameter to determine whether the seal of the cavity of the article has been breached.

According to a fourth aspect of the present invention, there is provided a method for an anti-counterfeit package having a cavity for holding goods and sealed to isolate an internal environment and an external environment of the cavity, wherein the internal environment of the cavity has initial environmental parameters, the method comprising: detecting an environmental parameter within the cavity using a sensor module disposed within the cavity; transmitting the detected environmental parameters to an NFC chip connected with the sensor module, and transmitting the detected environmental parameters to a mobile terminal with an NFC function by a radio frequency module of the NFC chip; wherein the detected environmental parameter is used to compare with the initial environmental parameter to determine whether the seal of the cavity of the article has been breached.

According to a fifth aspect of the present invention, there is provided an electronic device for preventing forgery, comprising: a memory for storing initial environmental parameters of an interior of a package, wherein the package has a cavity for containing a commodity; a receiver for receiving actual environmental parameters detected inside the package; and the comparator is used for comparing the received actual environmental parameters with the initial environmental parameters to determine whether the seal of the anti-counterfeiting package is damaged or not.

According to a sixth aspect of the present invention, there is provided an electronic device for preventing forgery, including: a memory for storing initial environmental parameters of an interior of a package, wherein the package has a cavity for containing a commodity; a receiver for receiving actual environmental parameters detected inside the package; and a comparator for comparing the received actual environmental parameter with the initial environmental parameter to determine whether the seal of the anti-counterfeit package has been compromised.

Accordingly, the present invention overcomes one or more of the deficiencies in the prior art. In particular, the utility model discloses can discern the counterfeit commodity that uses certified products packing and certified products antifalsification label.

Drawings

Advantages, features and characteristics of the present invention may be further understood by the following description of particular embodiments of the invention, taken in conjunction with the accompanying drawings. The drawings comprise:

fig. 1 illustrates a system for anti-counterfeiting packaging according to one embodiment of the present invention.

Fig. 2 shows a structure of the anti-counterfeit module according to an embodiment of the present invention.

Fig. 3 shows a specific structure of the anti-counterfeit packaging system according to an embodiment of the present invention.

Fig. 4 shows an arrangement of sensor modules according to an embodiment of the invention.

Fig. 5 illustrates a method for determining authenticity of a commodity according to an embodiment of the present invention.

Fig. 6 shows that the NFC-enabled handset and the NFC chip operate by mutual inductance.

Fig. 7 shows an NFC chip circuit of an embodiment of the present invention.

Detailed Description

Only some embodiments of the invention are shown in the drawings. Moreover, those skilled in the art will appreciate that not all of the components in the figures are required to implement the present invention and that changes can be made in the type and arrangement of the components without departing from the spirit and scope of the invention.

The invention will be described in detail hereinafter with reference to embodiments shown in the drawings. Numerous specific details are set forth in the following description in order to provide a thorough description of the invention. It will be understood by those skilled in the art, however, that the present invention may be practiced without some or all of these specific details. In other instances, well-known elements, including steps and/or structures that have been described in detail in the prior art as referred to in the background, have not been described in detail in order to not unnecessarily obscure the description of the present invention. Additionally, while the invention has been described in connection with specific embodiments, it should be understood that this description is not intended to limit the invention to the described embodiments. On the contrary, the description is intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.

Fig. 1 illustrates a system for anti-counterfeiting packaging according to one embodiment of the present invention. The system includes three parts, namely, a cavity 300 formed by a commodity package 400, an anti-counterfeiting module 200, and a mobile terminal 500. Cavity 300 is used to hold items of merchandise such as wine, handbags, jewelry, etc., and is sealed to isolate its internal environment from its external environment, e.g., so that gases inside and outside the cavity cannot circulate. Thus, for example, the gas inside the cavity cannot be leaked outside the cavity without breaking the seal of the package.

The package of the goods may be in various forms such as a packing box, a packing bag, etc. The package can be in various shapes, such as a cuboid, a cylinder, a sphere, any polyhedron and the like. The material of the package can be plastic, paper, metal, etc. In addition, the package may be the only package for the goods, or there may be other packages inside and/or outside the package.

According to a preferred embodiment, the package may take the form of a plastic bag, which is sealed after a commodity (e.g., wine) is placed in the plastic bag, a gas of a specified concentration (e.g., nitrogen, helium, argon, etc., or a combination of one or more gases) is introduced into the cavity formed by the plastic bag. Due to the sealing, the inner environment and the outer environment of the plastic bag package are at least partially isolated (e.g., gas communication is not possible). Accordingly, the internal environment of the plastic bag cavity does not change significantly, e.g., the concentration of the gas filling the plastic bag does not change or change significantly, without the seal of the package being broken. Here, the concentration of one or more gases may be taken as an environmental parameter. The concentration of the gas or gases introduced by the manufacturer during packaging of the merchant is a pre-set initial environmental parameter. The type, amount and concentration of the gas filled into the package cavity may be appropriately selected according to the specific application.

According to the utility model discloses an embodiment, the inside environmental parameter of cavity that the packing formed can also be one or more as follows: air pressure, temperature, humidity, etc. within the cavity. For example, after the goods are placed in the package, the package cavity is evacuated, and the initial environmental parameter preset inside the cavity is that the air pressure is zero (or close to zero).

The environmental parameters used may be selected according to the particular application, as well as the initial environmental parameters that are pre-set by the manufacturer in packaging the merchant. The initial environmental parameters may vary even for different items of merchandise of the same model. Therefore, a counterfeiter cannot know the accurate initial environmental parameters of a specific commodity, and the counterfeit commodity is easier to identify.

Referring to fig. 2, a structure of an anti-counterfeiting module 200 is shown, which includes a sensor module 202 and an NFC chip 201. The security module 200 may be disposed on an interior surface of the package or other suitable location. The sensor module 202 may include one or more sensors, such as, for example, gas sensors, temperature sensors, humidity sensors, pressure sensors, and the like. Various sensors can measure corresponding parameters within the package cavity, e.g., a gas sensor for detecting the concentration of a specific gas inside the package and transmitting to the NFC chip 201, and a pressure sensor for detecting the pressure inside the package and transmitting to the NFC chip 201. The specific type of the sensor can be selected by those skilled in the art according to actual needs, for example, according to the nature of the packaged goods, which is not limited by the present invention.

The NFC chip 201 is connected to the sensor module 202, receives the detected environmental parameter from the sensor module 202, and further transmits information related to the environmental parameter to the outside. Near Field Communication (NFC) is an international transmission standard based on RFID technology for contactless exchange of data across relatively short distances (e.g. a few centimeters) by means of electromagnetically coupled coils. The NFC chip 201 is used to implement near field communication, and is preferably provided with a silicon-based substrate.

In order to tightly arrange the anti-counterfeiting module 200 on the inner surface of the package and enable the anti-counterfeiting module 200 to withstand a certain degree of bending, the anti-counterfeiting module 200 is a flexible substrate, such as a PCB flexible substrate.

Referring to fig. 3, a specific structure of an anti-counterfeit packaging system according to an embodiment of the present invention is shown. In particular, the NFC chip preferably further includes a control module 2011 and a storage module 2012. The control module 2011 is connected to the storage module 2012 and the sensor module 202, and is configured to transmit and store the detected environmental parameter (such as gas concentration) to the storage module 2012. The environmental parameters stored in the storage module can be subsequently checked by the user and analyzed. The NFC chip may further include a power supply unit 2015 and a clock 2016. The power supply unit is used for supplying power to the NFC chip and the sensor, and the clock is used as a system clock of the NFC chip.

The NFC chip further comprises a signal acquisition module 2013, which may comprise an analog-to-digital conversion circuit and an interface unit (not shown) for connection with the sensor module. The interface unit receives the information transmitted by the sensor module, and the analog-to-digital conversion circuit processes the information and transmits the processed information to the storage module 2012 for storage. Can provide the direct interface of sensor and NFC chip through integrated signal acquisition module in the NFC chip to the circuit structure in the packing carton has been simplified, makes the utility model discloses a packing carton structure is more compact.

In order to be able to transmit the stored environmental parameters to the outside, the NFC chip 201 further includes a radio frequency module 2014, which is connected to the control module 2011 and is configured to transmit the information stored in the storage module 2012 to a mobile terminal, such as a mobile phone, a tablet computer, a notebook computer, and the like, where the mobile terminal 500 supports NFC communication. The radio frequency module 2014 includes an NFC analog front end unit and an instruction parsing unit (not shown). And the NFC analog front-end unit is used for receiving a data instruction sent by the mobile terminal and sending data to the mobile terminal. The command parsing unit is configured to parse the data command received from the mobile terminal into a corresponding integrated circuit signal and transmit the integrated circuit signal to the control module 2011 of the NFC chip to perform a corresponding operation.

The sensor module 202, such as a gas sensor, may be but is not limited to a resistive sensor, and may be selected by one skilled in the art according to the application. In one embodiment, the sensor includes a series voltage-dividing circuit of a variable resistor and a fixed resistor. For example, the gas sensor includes a series voltage-dividing circuit of a variable resistor R1 and a fixed resistor R2, in which the variable resistor R1 is a resistor sensitive to the gas concentration, and the fixed resistor R2 is not affected by the gas concentration. The serial partial pressure part of the variable resistor R1 and the constant resistor R2 is connected with a signal acquisition module of the NFC chip through a lead-out interface, the voltage at the serial partial pressure part is transmitted to the signal acquisition module, and the voltage at the serial partial pressure part can reflect the concentration of gas.

After the mobile terminal 500 receives the environmental parameter detected by the sensor unit from the radio frequency unit of the NFC chip, the detected environmental parameter can be compared with the initial environmental parameter when the goods are packaged. And if the detected environmental parameters are different from the initial environmental parameters, if the detected nitrogen concentration is different from the initial nitrogen concentration filled when the commodity is packaged, judging that the cavity seal of the commodity is damaged. This is because, once the seal of the chamber in which the commodity is placed is broken, the environments inside and outside the chamber are no longer isolated, and the environments inside and outside the chamber are communicated with each other, so that the environmental parameters inside the chamber are changed and no longer equal to the initially set environmental parameters.

In the event that the cavity seal of the article is compromised, the article may be considered a counterfeit or non-compliant article. The comparison of the detected environmental parameter and the initial environmental parameter can be implemented in the mobile terminal or can be done by other means. According to one embodiment, the detected environmental parameters may be transmitted by the terminal to the server such that the server compares its stored initial environmental parameters with the detected environmental parameters received from the terminal to determine if the cavity seal of the article of merchandise has been breached. It will be appreciated that a threshold value can be set for the environmental parameter and that the detected environmental parameter and the initial environmental parameter are considered different only if the difference is greater than the threshold value. The threshold size may be set by one skilled in the art as appropriate. The server can return information about whether the cavity seal is damaged to the mobile terminal and/or return information about whether the commodity is a genuine product to the mobile terminal so as to display the authenticity of the commodity to the user.

According to the utility model discloses an embodiment, except the environmental parameter that detects, mobile terminal can also receive the commodity information including the commodity number from anti-fake module. The commodity information can be stored in the storage module of the NFC chip, and a user can store information according to own needs, such as commodity names, manufacturer names, production dates, product production batches and the like, so that the commodity information can be transmitted to the mobile terminal through the radio frequency module to be displayed to the user. The commodity numbers may correspond one-to-one to the commodities, so that the commodities are uniquely identified by the numbers. Subsequently, the mobile terminal may send the goods information, the detected environmental parameters, the (mobile terminal's) GPRS positioning information, etc. together to the server, which then further determines whether the seal of the goods has been broken based on the received information and determines whether the goods to be verified are counterfeit goods based thereon.

According to one embodiment, the sensor is capable of detecting the environment within the cavity of the package of goods a plurality of times and storing the results of the plurality of times in the storage module. The NFC chip may send one or more of the stored sets of detection results (e.g., the most recent detection or the detection with the greatest deviation from the initial environmental parameter) to the mobile terminal.

In order to make the anti-counterfeiting module work normally, energy needs to be supplied to the anti-counterfeiting module. For example, when the mobile terminal approaches the NFC chip of the anti-counterfeiting module, energy transmission starts from the NFC module of the terminal, the energy is transmitted to the NFC antenna through mutual inductance of the antenna, the NFC chip and the peripheral circuit connected to the NFC antenna obtain energy from the NFC antenna, and the energy is continuously transmitted to a back-end circuit through an internal power management circuit, such as a storage module and a sensor, so that the back-end circuit operates. The anti-counterfeiting module is in a dormant state at ordinary times, and the anti-counterfeiting module is activated only when the NFC reader-writer operates the NFC chip. The anti-counterfeiting module is extremely low in power consumption, does not need an external power supply for long-term power supply, and can maintain the anti-counterfeiting function to be effective for a long time.

According to another embodiment of the present invention, the anti-counterfeit module can be powered by a battery, such as a flexible battery (e.g., a flexible printed film battery). The flexible battery is connected to the NFC chip and/or the sensor module to enable proper operation thereof. Because the battery has flexibility, the battery is tightly attached to the inner surface of the package and is not limited by the shape of the package. Preferably, the packaging box further comprises a switch of the flexible battery, one side of the switch is connected with the NFC chip/sensor module, and the other side of the switch is connected with the flexible battery. The switch can be arranged inside or outside the package, so that the switch is switched on only when detection is carried out to supply power to the anti-counterfeiting module. The use of battery power can be used alone or in combination with the above described mutual inductance energy transfer. Or the NFC chip and the sensor module respectively adopt different power supply modes.

The sensor module can be arranged outside the NFC chip or the sensor module can also be integrated on the NFC chip. Referring to the illustrative embodiment of fig. 4, one portion 2021, 2022, 2033 of the sensor module is external to the NFC chip and another portion 2035, 2037, 2038 is integrated on the NFC chip.

According to the utility model discloses an embodiment, sensor module detects the environmental parameter in the packing cavity periodically to the environmental parameter storage that will detect is in among the storage module of NFC chip. And when the radio frequency module of the NFC chip receives the relevant command, the detection result stored in the storage module is sent to the mobile terminal under the control of the control module of the NFC chip.

The utility model discloses an electronic equipment for confirming whether sealed of anti-fake package is destroyed, include: a memory for storing initial environmental parameters of an internal environment of the packaging cavity; a receiver for receiving an environmental parameter detected inside the packaging cavity; and the comparator is used for comparing the received detection environmental parameter with the initial environmental parameter so as to determine whether the seal of the anti-counterfeiting package is damaged or not. The electronic device may be a mobile terminal that receives the initial environment parameters, or a server that stores the initial environment parameters.

Fig. 5 illustrates a method for determining authenticity of a commodity according to an embodiment of the present invention. The environmental parameter within the cavity formed by the package of the goods is detected by the sensor module (S1), the detected environmental parameter is then transmitted to the NFC chip (S2), then the radio frequency module of the NFC chip transmits the detected environmental parameter to the mobile terminal (S3), and finally the detected environmental parameter is compared with the initial environmental parameter by the mobile terminal or the server. And if the detected environmental parameters are different from the initial environmental parameters as a result of comparison, determining that the seal of the commodity packaging cavity is damaged, and further considering that the commodity is a counterfeit product.

The utility model discloses a still can set up antifalsification label on the packing. For example, the package of merchandise may include a strip tear for opening the package, with the security label covering the strip tear. Therefore, once the package is unpacked, the anti-counterfeiting label can be damaged, and the anti-counterfeiting effect is enhanced. It is understood that the skilled person can select the specific form of the security tag, such as a flexible printed encryption circuit, etc., according to the actual application.

The utility model discloses a commodity sets up sealed package to detect the environmental parameter in the sealed package. The authenticity of the commodity is identified based on a comparison between the detected environmental parameter and a preset initial environmental parameter. Thus, even if a counterfeiter uses the genuine product package and the genuine product forgery prevention label, the counterfeiter can identify the counterfeit product.

The invention adopts NFC technology. Referring to fig. 6, the NFC-enabled handset and the NFC chip can operate by mutual inductance. In particular, on the one hand, a mobile phone with NFC functionality can provide energy to the NFC chip through mutual inductance; and on the other hand, the mobile phone with the NFC function and the NFC chip can perform data communication. Those skilled in the art will appreciate that various NFC chips can be employed, including mainstream NFC chips, such as NTAG203, F08(FM11RF08), TOPAZ 512, S50, D81, NRF24L01, and the like. The circuit diagram of NRF24L01 can be seen in fig. 7. Since the application of NFC chips for data transmission and detection per se is familiar to the person skilled in the art, it is not described in detail here.

Although various concepts have been described in detail, it will be appreciated by those skilled in the art that various modifications and alternatives to those concepts may be developed in light of the overall teachings of the disclosure.

Claims (7)

1. A system for a counterfeit-resistant package, comprising:

a cavity for containing a commodity, wherein the cavity is sealed to isolate an internal environment of the cavity from an external environment, the internal environment of the cavity having pre-set initial environmental parameters;

a security module comprising:

a sensor module for detecting environmental parameters within the cavity;

the NFC chip is connected with the sensor module and receives the detected environmental parameters from the sensor module, and the NFC chip is provided with a radio frequency module which is used for transmitting the environmental parameters;

a mobile terminal having an NFC function to receive the detected environmental parameter from the radio frequency module;

wherein the detected environmental parameter received by the mobile terminal can be used to compare with the initial environmental parameter to determine if the seal of the cavity of the article has been breached.

2. The system of claim 1, wherein the anti-counterfeiting module is disposed on an inner surface of the cavity; the NFC chip is provided with a storage module, the storage module is used for storing the environment parameters obtained by multiple detections of the sensor module, and the radio frequency module is used for sending the environment parameters obtained by at least one detection stored in the storage module to the mobile terminal.

3. The system of claim 1, wherein the anti-counterfeiting module is powered by at least one of:

the mobile terminal supplies power to the NFC chip and/or the sensor module through electromagnetic induction; and

and power is supplied to the NFC chip and/or the sensor module by connecting a battery of the anti-counterfeiting module.

4. The system of claim 1, wherein the sensor module is integrated within the NFC chip or the sensor module is disposed outside of the NFC chip.

5. An anti-counterfeit package comprising:

a cavity for containing a commodity, wherein the cavity is sealed to isolate an internal environment of the cavity from an external environment, the internal environment of the cavity having pre-set initial environmental parameters;

a security module comprising:

a sensor module for detecting environmental parameters within the cavity;

the NFC chip is connected with the sensor module and receives the detected environmental parameters from the sensor module, and the NFC chip is provided with a radio frequency module which is used for sending the detected environmental parameters to the mobile terminal;

wherein the detected environmental parameter is used to compare with the initial environmental parameter to determine whether the seal of the cavity of the article has been breached.

6. An anti-counterfeiting module for a package having a cavity for containing a commodity, wherein the cavity is sealed to isolate an internal environment of the cavity from an external environment, and the internal environment of the cavity has pre-set initial environmental parameters, the anti-counterfeiting module comprising:

a sensor module for detecting environmental parameters within the cavity;

the NFC chip is connected with the sensor module and receives the detected environmental parameters from the sensor module, and the NFC chip is provided with a radio frequency module which is used for sending the detected environmental parameters to the mobile terminal;

wherein the detected environmental parameter can be used to compare with the initial environmental parameter to determine whether the seal of the cavity of the article has been breached.

7. An electronic device for preventing counterfeiting, comprising:

a memory for storing initial environmental parameters of an internal environment of a package, wherein the package has a cavity for holding a commodity;

a receiver for receiving an environmental parameter detected in an internal environment of the package;

a comparator for comparing the received environmental parameter with the initial environmental parameter to determine whether the seal of the anti-counterfeit package has been compromised.

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