CN107323770B - Packaging bag authentication method and packaging bag squeezing and pushing device - Google Patents

Abstract

The invention relates to the field of logistics and discloses a packaging bag authentication method and a packaging bag extruding and pushing device. Authentication can be prevented from being cheated by forging the identification of the packaging bag. In the invention, a radio frequency tag is arranged in a packaging bag, and an extruding and pushing device is used for extruding and pushing out substances loaded in the packaging bag, and the method comprises the following steps: when the squeezing and pushing device squeezes and pushes the packaging bag, the radio frequency tag of the packaging bag is read to obtain the identification of the packaging bag; the squeezing and pushing device records the starting time and the ending time of squeezing and pushing the packaging bag; the squeezing device uploads the identifier of the squeezing device, the identifier of the packaging bag and the start time and the end time of squeezing operation to a server; and the server judges whether the packaging bag is the original packaging bag or not according to the identification of the extruding and pushing device, the identification of the packaging bag and the start and end time of the extruding and pushing operation.

Description

Packaging bag authentication method and packaging bag squeezing and pushing device

Technical Field

The invention relates to the field of logistics, in particular to an anti-counterfeiting authentication technology for packaging bags.

Background

The packaging bags on the market at present generally have no anti-counterfeiting measures, and some packaging bags are only two-dimensional codes or passive RFID (radio frequency identification devices), so that the real anti-counterfeiting effect cannot be realized.

In order to achieve zero residue in a package containing a viscous liquid when the package is unloaded, a special pushing device is required. The squeezing and pushing device may be handled differently between the original packaging bag and the non-original packaging bag, which involves the problem of authentication of one packaging bag.

The inventor of the application finds that if passive RFID is used as the anti-counterfeiting mark, the original packaging bag can be disguised as the non-original packaging bag in a mode that the RFID of the original packaging bag is close to the RFID reader of the extruding and pushing device, so that the authentication is invalid.

Disclosure of Invention

The invention aims to provide a packaging bag authentication method and a packaging bag extruding and pushing device, which can prevent cheating authentication by means of counterfeiting packaging bag marks.

In order to solve the technical problem, the embodiment of the invention discloses a packaging bag authentication method, wherein a radio frequency tag is arranged in a packaging bag, and an extruding and pushing device is used for extruding and pushing out substances loaded in the packaging bag, and the method comprises the following steps:

when the squeezing and pushing device squeezes and pushes the packaging bag, the radio frequency tag of the packaging bag is read to obtain the identification of the packaging bag;

the squeezing and pushing device records the starting time and the ending time of squeezing and pushing the packaging bag;

the squeezing and pushing device uploads the identifier of the squeezing and pushing device, the identifier of the packaging bag and the start and end time of squeezing and pushing operation to a server;

and the server judges whether the packaging bag is the original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag and the start time and the end time of the squeezing and pushing operation.

In another preferred example, in the step of judging whether the packaging bag is the original packaging bag, the server judges whether the packaging bag is the original packaging bag according to the identification of the squeezing and pushing device, the identification of the packaging bag, the starting time and the ending time of the squeezing and pushing operation and the position information;

before the step of uploading to the server, the method also comprises the step that the squeezing and pushing device positions the position where squeezing and pushing operation is carried out to obtain position information;

in the "upload to server" step, the pushing device uploads the pushing device identification, the identification of the package, the start and end times of the pushing operation, and location information to the server.

In another preferred embodiment, the step of determining whether the packing bag is the original packing bag according to the identifier of the extruding device, the identifier of the packing bag, the starting and ending time of the extruding operation and the position information comprises one or any combination of the following sub-steps:

obtaining the area range of the extruding and pushing device according to the extruding and pushing device identification, and if the position information is not in the area range, judging that the packaging bag is not originally packaged;

if the mark of the packaging bag is not in the designated mark set, judging that the packaging bag is not originally packaged;

if delta T is larger than alpha N, the packaging bags which are not originally packaged are judged to exist, wherein delta T is the difference between the ending time and the starting time of the squeezing operation, N is the number of the packaging bags processed by the squeezing device between the starting time and the ending time of the squeezing operation, and alpha is a preset coefficient and has the meaning of the longest reasonable squeezing time of a single packaging bag.

In another preferred embodiment, the radio frequency tag of the package is a passive RFID.

In another preferred embodiment, the step of judging whether the packaging bag is the original packaging bag further comprises the following steps,

and if the packaging bag is judged to be the original packaging bag, charging at a first rate, otherwise, charging at a second rate, wherein the first rate is lower than the second rate.

In another preferred example, the squeezing and pushing device further comprises a storage module;

the step of uploading the identification of the packaging bag, the starting time and the ending time of the squeezing operation and the position information to the server also comprises the following steps before the step of:

establishing communication connection between the squeezing device and the server;

if the connection is failed to be established, storing the identification of the packaging bag, the starting time and the ending time of the squeezing operation and the position information into a storage module;

if the connection is established successfully, the identification of the package, the start and end times of the push operation, and the location information are uploaded to the server.

In another preferred example, the squeezing device comprises a pneumatic motor and a generator, the pneumatic motor is connected with an external air source, the external air source is used as the power for squeezing operation at the same time, when the external air source is opened, the squeezing device is driven to perform squeezing operation and the pneumatic motor is driven to drive the generator to generate electricity at the same time, wherein the starting time of the squeezing operation is the starting time of the pneumatic motor, and the ending time of the squeezing operation is the ending time of the work of the pneumatic motor.

The embodiment of the invention also discloses a packaging bag authentication method, wherein the packaging bag is internally provided with a radio frequency tag, and the extruding and pushing device is used for extruding and pushing out substances loaded in the packaging bag, and the method comprises the following steps:

when the squeezing and pushing device squeezes and pushes the packaging bag, the radio frequency tag of the packaging bag is read to obtain the identification of the packaging bag;

the squeezing and pushing device positions the position where squeezing and pushing operation is carried out to obtain position information;

the squeezing device uploads the identifier of the squeezing device, the identifier of the packaging bag and the position information to a server;

and the server judges whether the packaging bag is the original packaging bag according to the identification of the extruding and pushing device, the identification of the packaging bag and the position information.

The embodiment of the invention also discloses a packaging bag extruding and pushing device, which comprises:

the squeezing and pushing component is used for squeezing and pushing the packaging bag to squeeze out substances in the packaging bag;

the radio frequency tag reading module is used for reading the radio frequency tag of the packaging bag to obtain the identification of the packaging bag when the packaging bag is extruded and pushed;

the time recording module is used for recording the starting time and the ending time of the squeezing operation of the packaging bag;

and the communication module is used for uploading the identifier of the extruding and pushing device, the identifier of the packaging bag and the start and end time of extruding and pushing operation to a server, so that the server can judge whether the packaging bag is the original packaging bag according to the information.

In another preferred embodiment, the device further comprises a positioning module, which is used for positioning the position where the squeezing operation is performed to obtain position information;

the communication module is also used for uploading the positioning information obtained by the positioning module to the server.

In another preferred example, the system further comprises a storage module, configured to, when the communication module fails to upload information to the server, store information that needs to be uploaded for the next upload.

In another preferred example, the device further comprises a pneumatic motor and a generator, wherein the pneumatic motor is connected with an external air source, the external air source is used as the power for the squeezing operation at the same time, when the external air source is opened, the squeezing device is driven to perform the squeezing operation at the same time, and the pneumatic motor is driven to drive the generator to generate electricity, wherein the starting time of the squeezing operation is the starting time of the pneumatic motor, and the ending time of the squeezing operation is the ending time of the pneumatic motor.

In another preferred embodiment, the pushing device further comprises a rechargeable battery connected with the generator for charging with the power output by the generator when the generator is working and supplying power to the electronic equipment in the pushing device when the generator is not working.

Compared with the prior art, the embodiment of the invention has at least the following differences and effects:

whether the packaging bag is the original packaging bag or not is comprehensively judged according to the identification of the packaging bag, the starting time and the ending time of the squeezing operation and the position information, so that the judgment is more accurate.

Furthermore, charging at different rates can be realized by judging whether the packaging bag is the original packaging bag, so that a more flexible charging mode can be realized.

Furthermore, a pneumatic motor and a generator are installed in the squeezing and pushing device, and an external air source is used for driving the generator to generate electricity, so that the whole device does not need to be connected with a mains supply or an industrial power supply, wiring is simplified, and requirements on infrastructure in a use environment are reduced. As soon as the switch of the external air source is opened, the air motor can be driven to generate electricity while the squeezing operation is driven, so that the starting time and the ending time of the squeezing operation can be naturally obtained according to the starting time and the ending time of the air motor.

It is understood that within the scope of the present invention, the above-described technical features of the present invention and the technical features specifically described below (e.g., embodiments and examples) may be combined with each other to constitute new or preferred technical solutions. Not to be reiterated herein, but to the extent of space.

Drawings

FIG. 1 is a schematic flow chart illustrating a method for authenticating a package according to a first embodiment of the present invention;

FIG. 2 is a structural view of a packing bag extruding-pushing apparatus according to a second embodiment of the present invention;

FIG. 3 is a schematic view of a push member according to an embodiment of the present invention;

FIG. 4 is a circuit diagram of a bag pushing apparatus according to an embodiment of the present invention;

FIG. 5 is a system diagram of a bag pushing apparatus according to an embodiment of the present invention;

fig. 6 is a schematic view of a crowding device in one embodiment of the invention.

Detailed Description

In the following description, numerous technical details are set forth in order to provide a better understanding of the present application. However, it will be understood by those skilled in the art that the technical solutions claimed in the present application may be implemented without these technical details and with various changes and modifications based on the following embodiments.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A first embodiment of the present invention relates to a package bag authentication method. The package bag authentication method is characterized in that a radio frequency tag is arranged in a package bag, a squeezing device is used for squeezing out substances loaded in the package bag, and fig. 1 is a schematic flow diagram of the package bag authentication method. The packaging bag authentication method comprises the following steps:

in step 101, the squeezing device starts squeezing the packaging bag.

And then step 102 is carried out, wherein the squeezing and pushing device carries out information acquisition when squeezing and pushing operation is carried out on the packaging bag.

In one embodiment, this step includes the following substeps:

the squeezing and pushing device reads the radio frequency tag of the packaging bag and records the identification of the packaging bag;

the squeezing and pushing device records the starting time and the ending time of squeezing and pushing the packaging bag;

the squeezing and pushing device positions the position where squeezing and pushing operation is carried out to obtain position information.

Then, step 103 is entered, and the pushing device uploads the identifier of the pushing device, the identifier of the packaging bag, the position information of the pushing operation, and the start time and the end time of the pushing operation to the server. In one embodiment, this step includes the following substeps:

establishing communication connection between the squeezing and pushing device and the server;

if the communication connection between the squeezing and pushing device and the server is successfully established, the identification of the packaging bag, the identification of the squeezing and pushing device, the starting time and the ending time of squeezing and pushing operation and the position information are uploaded to the server;

if the communication connection between the pushing device and the server fails to be established, the data is temporarily stored in the storage module, and when the communication connection between the pushing device and the server is successfully established, the data is uploaded to the server.

And then step 104 is carried out, and the server judges whether the packaging bag is the original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag, the position information of the squeezing and pushing operation and the starting time and the ending time of the squeezing and pushing operation. And the comprehensive judgment is carried out by combining the position and time information, so that the judgment is more accurate.

In one embodiment, the determining method comprises: obtaining the area range of the extruding and pushing device according to the extruding and pushing device identification, and if the position information uploaded to the server is not in the area range, judging that the packaging bag is not originally packaged;

in one embodiment, the determination method is: judging whether the packaging bag is the original packaging bag or not according to the identification of the packaging bag, and if the identification of the packaging bag is not in the specified identification set, judging that the packaging bag is not the original packaging bag;

in one embodiment, the determination method is: judging whether the packaging bag is the original packaging bag or not according to the start time and the end time of the squeezing operation of the squeezing device, and judging that the non-original packaging bag exists if delta T is greater than alpha. Wherein, Δ T is the difference between the ending time and the starting time of the squeezing operation, N is the number of the packaging bags processed by the squeezing device between the starting time and the ending time of the squeezing operation, and α is a preset coefficient and has the meaning of the longest reasonable squeezing time of a single packaging bag.

In addition, it can be understood that there may be other rules for determining whether the packaging bag is the original packaging bag, for example, finding the record corresponding to the same pushing device identifier last time, and if the time difference between the two records is smaller than the predetermined threshold but the distance between the two positions is larger than the predetermined threshold, determining that the packaging bag in at least one of the records is not the original packaging bag. For another example, if the operation time ranges defined by the start time and the end time of the squeezing operation overlap for a plurality of records corresponding to the same squeezing device identifier, it can be determined that at least one of the overlapping records relates to a non-original packaging bag.

Then, step 105 is performed, and the result of determining whether the packaging bag is the original packaging bag in step 104 is used to charge the packaging bag at different rates, so that a more flexible charging mode can be realized.

In one embodiment, if the original package is determined in step 104, the package is charged at a first rate, otherwise, the package is charged at a second rate, wherein the first rate is lower than the second rate.

In other embodiments of the present application, other processing may be performed according to the determination result of whether or not the packaging bag is the original packaging bag, for example, the pushing operation is permitted if the packaging bag is the original packaging bag, and the pushing operation is prohibited if the packaging bag is not the original packaging bag.

In the above embodiment, the four kinds of information, i.e., the identifier of the pushing device, the identifier of the packaging bag, the start and end times of the pushing operation, and the position information, are acquired and used comprehensively to determine whether the packaging bag is the original packaging bag, which is a preferable example with the best effect. The "position information of the squeezing device" and the "start and end times of the squeezing operation" are not necessarily provided at the same time, and the predetermined determination conditions may be set in various ways:

in one embodiment, the predetermined decision condition is: the server judges whether the packaging bag is an original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag, the position of squeezing and pushing operation and the starting time and the ending time of the squeezing and pushing operation;

in one embodiment, the predetermined determination conditions are: the server judges whether the packaging bag is an original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag and the position of squeezing and pushing operation;

in one embodiment, the predetermined decision condition is: and the server judges whether the packaging bag is the original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag and the start and end time of squeezing and pushing operation.

In an improved embodiment of the above embodiment, the squeezing and pushing device is provided with a pneumatic motor and a generator, the pneumatic motor is connected with an external air source, and the external air source is simultaneously used as power for squeezing and pushing operation to drive the generator to generate electricity, so that the whole device does not need to be connected with commercial power or an industrial power supply, wiring is simplified, and requirements on infrastructure in a use environment are reduced.

When the squeezing and pushing device starts to work, a switch of an external air source is opened, the pneumatic motor is driven to generate electricity while squeezing and pushing operation is driven, so that the starting time and the ending time of squeezing and pushing operation of the squeezing and pushing device on the packaging bag can be naturally recorded according to the starting time and the ending time of the pneumatic motor, wherein the starting time of the squeezing and pushing operation is the starting time of the pneumatic motor, and the ending time of the squeezing and pushing operation is the ending time of the pneumatic motor.

In one embodiment, a radio frequency tag is arranged in the packaging bag, and when the squeezing and pushing device squeezes and pushes the packaging bag, the radio frequency tag of the packaging bag is read to obtain an identifier of the packaging bag, which is used as data information to be uploaded to the server. And if the mark of the packaging bag is not in the designated mark set, judging the packaging bag to be not originally packaged.

The radio frequency tag of the packaging bag is a passive RFID. In addition, it is understood that in other embodiments of the present application, the rf tag may be implemented by other electronic components, such as active RFID, bluetooth, etc., as long as the tag can send its own identification to the pushing device.

In one embodiment, the crowding device comprises:

and the positioning module is used for acquiring the current positioning information as the position information needing to be uploaded to the server. And obtaining the area range of the extruding device according to the extruding device mark, and if the position information is not in the area range, judging that the packaging bag is not originally packaged.

In addition, it can be understood that, in an embodiment of the present application, the positioning module has multiple implementation manners, for example, various positioning manners such as GPS positioning, beidou satellite navigation system positioning, galileo satellite navigation system positioning, glonass satellite navigation system positioning, wiFi positioning, and bluetooth positioning may be used.

The storage module is used for establishing communication connection between the squeezing and pushing device and the server before uploading the data to the server, and uploading the identification of the packaging bag, the identification of the squeezing and pushing device, the starting time and the ending time of squeezing and pushing operation and position information to the server if the connection is established successfully; if the connection establishment fails, the data is saved to the storage module.

The storage module adopts an externally-hung FLASH chip, under the condition that the coverage of some signals is poor, the remote communication module cannot upload data to the cloud server in time, the storage module can temporarily store the identification number of the extrusion, the starting time and the ending time of the extruder and the used position information, and the data are sent out together when the extrusion device moves to a place with good signals or is used next time.

In addition, it is understood that in other embodiments of the present application, the memory module may be implemented by other electronic components, such as an SD card, an EEPROM, a ferroelectric memory, etc., as long as the data information can be temporarily stored.

And the rechargeable battery is connected with the generator in the extruding and pushing device and is used for charging by utilizing the electric power output by the generator when the generator works and supplying power to the electronic equipment in the extruding and pushing device when the generator does not work.

Furthermore, it is to be understood that in another embodiment, instead of a battery, a capacitor of relatively large capacity may be used as the means for storing electrical energy.

The second embodiment of the present invention relates to a packaging bag extruding and pushing apparatus. Fig. 2 is a schematic structural view of the packaging bag extruding and pushing device. This wrapping bag pushes away device includes:

the squeezing and pushing component is used for squeezing and pushing the packaging bag to squeeze out substances in the packaging bag;

and the radio frequency tag reading module is used for reading the radio frequency tag of the packaging bag when the packaging bag is extruded and pushed to obtain the identification of the packaging bag as data information to be uploaded to the server. If the mark of the packaging bag is not in the designated mark set, judging that the packaging bag is not originally packaged;

and judging whether the packaging bag is the original packaging bag or not according to the start time and the end time of the extrusion pushing operation of the extrusion pushing device, and if delta T is more than alpha N, judging that the non-original packaging bag exists. Wherein, delta T is the difference between the ending time and the starting time of the extruding and pushing operation, N is the number of the packaging bags processed by the extruding and pushing device between the starting time and the ending time of the extruding and pushing operation, alpha is a preset coefficient and has the meaning of the longest reasonable extruding and pushing time of a single packaging bag;

the communication module is used for uploading the identifier of the extruding and pushing device, the identifier of the packaging bag and the start and end time of extruding and pushing operation to the server, so that the server can judge whether the packaging bag is the original packaging bag or not according to the information;

and the positioning module is used for acquiring the current positioning information as the position information needing to be uploaded to the server. Obtaining the area range of the extruding and pushing device according to the extruding and pushing device identification, and if the position information is not in the area range, judging that the packaging bag is not originally packaged;

the storage module is used for storing the information to be uploaded when the communication module fails to upload the information to the server, so that when the communication connection between the communication module of the squeezing device and the server is successfully established, the identification of the packaging bag, the identification of the squeezing device, the starting time and the ending time of squeezing operation and the position information are uploaded to the server;

the system comprises a pneumatic motor and a generator, wherein the pneumatic motor is connected with an external air source, the external air source is used as power for squeezing and pushing operation at the same time, and when the external air source is opened, the squeezing and pushing device is driven to perform squeezing and pushing operation and the pneumatic motor is driven to drive the generator to generate electricity at the same time, wherein the starting time of the squeezing and pushing operation is the starting time of the pneumatic motor, and the ending time of the squeezing and pushing operation is the ending time of the pneumatic motor;

and the rechargeable battery is connected with the generator and is used for charging by utilizing the electric power output by the generator when the generator works and supplying power to the electronic equipment in the pushing device when the generator does not work.

Specifically, the method comprises the following steps:

the radio frequency tag module is a passive RFID;

furthermore, it is understood that in other embodiments, the RFID tag module may be implemented by other electronic components besides passive RFID, such as active RFID, bluetooth, etc., as long as the RFID tag module can transmit its own identification to the crowding device.

The communication module is also used for uploading the positioning information obtained by the positioning module to the server.

The communication module is a cellular module, it being understood that the communication module may also be implemented in various ways, such as in a GSM network, a CDMA network, FDMA, TDMA, etc.

The positioning module has various implementation modes, such as GPS positioning, beidou satellite navigation system positioning, galileo satellite navigation system positioning, glonass satellite navigation system positioning, wiFi positioning, bluetooth positioning and other various positioning modes.

The storage module adopts an externally-hung FLASH chip, under the condition that the coverage of some signals is poor, the remote communication module cannot upload data to the cloud server in time, the storage module can temporarily store the identification number of the extrusion, the starting time and the ending time of the extruder and the used position information, and the data are sent out together when the extrusion device moves to a place with good signals or is used next time. It is understood that in other embodiments of the present application, the memory module may be implemented by other electronic components, such as SD card, EEPROM, ferroelectric memory, etc., as long as the data information can be temporarily stored.

Further, it is understood that the capacitor for storing electric energy may not be a rechargeable battery, and a relatively large capacity capacitor may be used as a device for storing electric energy.

The first embodiment of the present invention is a method embodiment corresponding to the present embodiment, and the present embodiment can be implemented in cooperation with the first embodiment. The related technical details mentioned in the first embodiment are still valid in this embodiment, and are not described herein again in order to reduce repetition. Accordingly, the related-art details mentioned in the present embodiment can also be applied to the first embodiment.

For a better understanding of the present application, some specific examples are presented below.

In one embodiment, the squeezing component is schematically shown in fig. 3, where 301 is the squeezing component, 302 is the driving component of the squeezing component, and when the squeezing component starts a squeezing operation, the squeezing device starts to record the package identification, the position information of the squeezing operation, and the start and end time of the squeezing operation.

In one embodiment, a circuit of a crowd drive system, as shown in fig. 4, includes:

the energy source of the power management unit adopts the pneumatic motor of the equipment to supply power through the transmission device, an external power supply is not needed, and the power management unit is energy-saving and environment-friendly;

and the data processing unit is used for reading the unique RFID number, detecting the on-off state of the equipment, calculating the effective working time of the equipment, storing the data of the equipment and controlling the uploading of the cellular data.

The data transmission unit is used for uploading the using time after the equipment is used, and using the data information such as the geographic position and the like by a user;

in one embodiment, a system configuration of a crowding device is shown in fig. 5, comprising:

the data center unit is used for analyzing and counting the uploaded data and printing a service report;

and the handheld end unit is used for checking real-time data through handheld equipment such as a mobile phone.

In one embodiment, a schematic diagram of the squeezing device is shown in fig. 6, where 601 is a lining bag, 602 is a squeezing component, 603 is a driving component of the squeezing component, and when the squeezing component starts a squeezing operation, the squeezing device starts to record a package bag identifier, position information of the squeezing operation, and start and end times of the squeezing operation.

It should be noted that, all units mentioned in the packaging bag pushing apparatus of the present invention are logical units, and physically, one logical unit may be one physical unit, or a part of one physical unit, or may be implemented by a combination of multiple physical units, and the physical implementation manner of these logical units is not the most important, and the combination of functions implemented by these logical units is the key to solve the technical problem provided by the present invention. Furthermore, in order to highlight the innovative part of the present invention, the above-mentioned packaging bag extruding device of the present invention does not introduce a unit which is not so much concerned with solving the technical problem proposed by the present invention, which does not indicate that the above-mentioned apparatus embodiment does not have other units.

It is noted that, in the present patent application, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the use of the verb "comprise a" to define an element does not exclude the presence of another, same element in a process, method, article, or apparatus that comprises the element. In the present patent application, if it is mentioned that a certain action is executed according to a certain element, it means that the action is executed according to at least the element, and two cases are included: performing the action based only on the element, and performing the action based on the element and other elements.

All documents referred to herein are incorporated by reference into this application as if each were individually incorporated by reference. Furthermore, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the above teachings of the present invention, and such equivalents may fall within the scope of the claims of the present application.

Claims (13)

1. A packaging bag authentication method is characterized in that a radio frequency tag is arranged in a packaging bag, and a squeezing and pushing device is used for squeezing out substances loaded in the packaging bag, and the method comprises the following steps:

when the squeezing and pushing device squeezes and pushes the packaging bag, the radio frequency tag of the packaging bag is read to obtain the identification of the packaging bag;

the squeezing and pushing device records the starting time and the ending time of squeezing and pushing the packaging bags;

the squeezing and pushing device uploads the identification of the squeezing and pushing device, the identification of the packaging bag and the starting time and the ending time of squeezing and pushing operation to a server;

and the server judges whether the packaging bag is the original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag and the starting and ending time of the squeezing and pushing operation.

2. The packaging bag authentication method according to claim 1, wherein in the step of "judging whether the packaging bag is an original packaging bag", the server judges whether the packaging bag is an original packaging bag based on the identification of the squeezing device, the identification of the packaging bag, the start and end times of the squeezing operation, and the position information;

the step of uploading to the server also comprises the step of positioning the position where the squeezing operation is carried out by the squeezing device to obtain position information;

in the step of uploading to the server, the pushing device uploads the identifier of the pushing device, the identifier of the packaging bag, the start and end time of the pushing operation and the position information to the server.

3. The packaging bag authentication method as claimed in claim 2, wherein the step of determining whether the packaging bag is an original packaging bag based on the pusher identifier, the identifier of the packaging bag, the start and end times of the pushing operation, and the position information comprises the sub-steps of:

obtaining the area range of the extruding and pushing device according to the extruding and pushing device identification, and if the position information is not in the area range, judging that the packaging bag is not originally packaged;

if the identification of the packaging bag is not in the designated identification set, judging that the packaging bag is not originally packaged;

if delta T is larger than alpha N, the packaging bags which are not originally packaged are judged to exist, wherein delta T is the difference between the ending time and the starting time of the squeezing operation, N is the number of the packaging bags processed by the squeezing device between the starting time and the ending time of the squeezing operation, and alpha is a preset coefficient and has the meaning of the longest reasonable squeezing time of a single packaging bag.

4. The package bag authentication method as claimed in claim 2, wherein the radio frequency tag of the package bag is a passive RFID.

5. The packaging bag authentication method according to claim 2, further comprising, after the step of "judging whether the packaging bag is an original packaging bag", a step of,

and if the packaging bag is judged to be the original packaging bag, charging at a first rate, otherwise, charging at a second rate, wherein the first rate is lower than the second rate.

6. The package bag authentication method of claim 2, wherein the pushing device further comprises a storage module;

the step of uploading the identification of the packaging bag, the starting time and the ending time of the squeezing operation and the position information to a server also comprises the following steps before the step of:

the squeezing and pushing device is in communication connection with the server;

if the connection is failed to be established, storing the identification of the packaging bag, the starting time and the ending time of the squeezing operation and the position information into the storage module;

and if the connection is successfully established, uploading the identification of the packaging bag, the starting time and the ending time of the squeezing operation and the position information to a server.

7. The package bag authentication method according to any one of claims 1 to 6, wherein the squeezing device includes a pneumatic motor and a generator, the pneumatic motor is connected to an external air source, the external air source is used as power for squeezing operation at the same time, when the external air source is opened, the squeezing device is driven to perform squeezing operation and the pneumatic motor is driven to drive the generator to generate electricity at the same time, wherein the starting time of the squeezing operation is the time when the pneumatic motor is started, and the ending time of the squeezing operation is the time when the pneumatic motor is finished.

8. A packaging bag authentication method is characterized in that a radio frequency tag is arranged in a packaging bag, and a squeezing device is used for squeezing out substances loaded in the packaging bag, and the method comprises the following steps:

when the squeezing and pushing device squeezes and pushes the packaging bag, the radio frequency tag of the packaging bag is read to obtain the identification of the packaging bag;

the squeezing and pushing device positions the position where squeezing and pushing operation is carried out to obtain position information;

the squeezing device uploads the identification of the squeezing device, the identification of the packaging bag and the position information to a server;

and the server judges whether the packaging bag is an original packaging bag or not according to the identification of the squeezing and pushing device, the identification of the packaging bag and the position information.

9. The utility model provides a crowded push device of wrapping bag which characterized in that includes:

the squeezing and pushing component is used for squeezing and pushing the packaging bag to squeeze out substances in the packaging bag;

the radio frequency tag reading module is used for reading the radio frequency tag of the packaging bag to obtain the identification of the packaging bag when the packaging bag is extruded and pushed;

the time recording module is used for recording the starting time and the ending time of the squeezing operation of the packaging bag;

and the communication module is used for uploading the identifier of the extruding and pushing device, the identifier of the packaging bag, and the starting time and the ending time of the extruding and pushing operation to a server, so that the server can judge whether the packaging bag is the original packaging bag according to the information.

10. The packaging bag extruding and pushing device according to claim 9, further comprising a positioning module for positioning a position where the extruding and pushing operation is performed to obtain position information;

the communication module is also used for uploading the positioning information obtained by the positioning module to the server.

11. The packaging bag extruding and pushing device according to claim 9, further comprising a storage module for storing the information to be uploaded for the next uploading when the communication module fails to upload the information to the server.

12. The packaging bag extruding device according to any one of claims 9 to 11, further comprising a pneumatic motor and a generator, wherein the pneumatic motor is connected to an external air source, the external air source is used as power for extruding operation at the same time, when the external air source is opened, the extruding device is driven to perform extruding operation and the pneumatic motor is driven to drive the generator to generate electricity, wherein the starting time of the extruding operation is the time when the pneumatic motor is started, and the ending time of the extruding operation is the time when the pneumatic motor is finished.

13. The package bag extruding and pushing device as claimed in claim 12, further comprising a rechargeable battery connected to the generator for charging with the power output from the generator when the generator is in operation and for powering the electronic device in the extruding and pushing device when the generator is not in operation.

Images