CN215400508U - Anti-perforation package - Google Patents

Abstract

The utility model belongs to a perforation-proof packing material, wherein the packing material is fully distributed with conducting wires which are thin and have small intervals, and the conducting wires are connected into a closed circuit, thereby forming a miniature electronic anti-theft net. After the rare products are adopted, if punching and recycling are carried out for counterfeiting, the lead is inevitably broken, so that the closed circuit is broken or short-circuited. By using the smart phone, anyone can find out whether the product in the anti-punching package is stolen, whether the product is recycled or counterfeited or whether the product is fallen out of the package.

Description

Anti-perforation package

Technical Field

The utility model belongs to the technical field of anti-theft opening packages, and particularly relates to an anti-punching package.

Background

A28-day Tengcong network in 08 and 2020 has a news report titled "when" punch "meets" pull-out "and you do not know the original defense of Maotai wine counterfeiting technology". The report states that: the punching thatch wine has two conditions, one is completely unopened thatch wine, the thatch wine in the hole is punched and extracted, and then other wine bodies are injected; one is the recovered couchtop empty bottle, which is also filled with other wine bodies by the perforation technique. After the holes are punched, gypsum is coated to achieve the purpose of counterfeiting. The former can be sold after being filled with other wine bodies, and the latter also needs to be subjected to bottle opening treatment, namely, the common head-pulling couchgrass in the fake wine industry. The aperture of the punched hole is 1-1.5 mm.

A24-day Hangzhou daily newspaper 7 and 26 in 2020 has a news report entitled "Hangzhou tobacco assisting public security to obtain a network case for selling fake cigarettes and fake wine, and the related case is as high as 1289 thousands". The counterfeiter punches holes on the body of the Feitian Maotai Zhen wine to extract part of the Zhen wine, and then uses Maotai prince with the selling price of about 100 yuan to fill the Feitian Maotai wine again.

The inventor obtains a utility model patent of a disposable RFID anti-counterfeiting bottle cap (CN 202784220U), which comprises an outer cap, an outer sleeve, an inner cap and a cap opening, wherein the inner cap is screwed on the cap opening, the outer cap is tightly hooped on the inner cap, and one end of an RFID antenna is clamped; the outer sleeve is tightly hooped on the cover opening and clamps the other end of the RFID antenna; the RFID chip is arranged in the protection chamber, and after the outer cover is screwed up or the outer sleeve is pulled up, the RFID antenna can be pulled apart by 100 percent, so that the disposable use is really realized. This scheme has better anti-fake effect, but it can not prevent that the beverage bottle from punching and making fake.

A fraudulent purchase case of 'bag dropping and returning of goods by online purchase mobile phone' is reported in a legal daily report of 03.31.2019. The investigation finds that with the development of the online shopping industry, the phenomenon that buyers cheat to purchase goods by using the policy of 'no reason for returning goods for 7 days' is very serious, for example, barreled high-quality edible oil and bottled high-quality lubricating oil are extracted for use by a punching method, and then the low-quality oil is injected back to the e-commerce. And then, for example, products such as dominant rice, dominant flour and the like in the bag are extracted for use by punching, and inferior products are injected back to the e-commerce.

In conclusion, how to prevent the perforation and the theft of the packing materials is a technical problem which puzzles the packing industry for a long time and is also a technical obstacle of limited insurance acceptance range.

Disclosure of Invention

The purpose of the utility model is as follows: provides a perforation-proof package to prevent perforation and theft.

The technical scheme of the anti-perforation packing material is as follows.

The utility model provides a prevent packing material that punches, includes the packing material that 0.01 ~ 10mm is thick constitutes, its characterized in that:

firstly, a packaging bag is made of a packaging material with the thickness of 0.01-10 mm;

secondly, wires are densely distributed on the packaging material (such as the middle layer or the subsurface layer or the back) forming the packaging material; the wires are connected (e.g., in series or/and parallel) into one or more wire networks; the product inside the package is surrounded (i.e., covered) by a wire mesh; the product can be illegally taken out only under the condition that the wire network is short-circuited/broken (namely the package is damaged); in other words, if the product surrounded (covered) by the wire net is taken out illegally, the short circuit/open circuit of the wire net is caused while the package is damaged;

③ the width of the lead is less than or equal to 1.8mm, or 1mm, or 0.5mm, or 0.25mm, or 0.1mm, or 0.01mm, or 0.001 mm; in other words, the thinner the wire, the better;

fourthly, the space between the leads/the width of the meshes is less than or equal to 1.8mm or 1mm or 0.5mm or 0.25mm or 0.1mm or 0.01mm or 0.001 mm; in other words, the smaller the pitch, the greater the density, the better.

Preferably, the surface of the packing object is divided into a hole-proof area and a non-hole-proof area, a pinhole with the aperture D is drilled at any position of the hole-proof area of the packing object, and the conducting wire can be drilled to be broken, so that a conducting wire network can be short-circuited or short-circuited; wherein D is more than or equal to 1.8mm or 1mm or 0.5mm or 0.25mm or 0.1mm or 0.01mm or 0.001 mm.

Preferably, the wires are connected to the chip (preferably an RFID chip) to form a closed circuit, thereby forming a miniature electronic anti-theft network.

Preferably, the wire is connected with the RFID chip to form a closed circuit, and a product needing anti-counterfeiting is enclosed (namely, covered) in the closed circuit; the wire can be used as an ultra-long antenna or an ultra-long power wire or an ultra-long switch lead of the chip.

Baidu Baike (Baidu encyclopedia): chips are a general term for semiconductor component products, abbreviated as ICs, or microcircuits, microchips, wafers, IC chips, and the like; in electronics, it is a way to miniaturize circuits (mainly including semiconductor devices, and also including passive components and the like).

Preferably, the wires are made of resistance materials, and the resistance/capacitance with random individual values formed by the wire network is (measured) used as the individual anti-counterfeiting characteristic information specific to the packaging material and is stored and filed in the database of the anti-counterfeiting checking system. The individual resistance material with non-uniform resistivity is preferably adopted, so that the total resistance/capacitance is a randomly formed individual value due to non-uniform thickness, non-uniform thickness and non-uniform density of the conducting wire when the package is manufactured, and the value can be measured and used as the individual anti-counterfeiting characteristic information specific to the package. The anti-counterfeiting characteristic information can be stored in the database of the existing information query type anti-counterfeiting checking system so that consumers can check the authenticity of the product conveniently. In case of short circuit or counterfeit, the authenticity can be recognized through the value change of the total resistance/capacitance.

Preferably, the perforation-resistant wrapper includes one or more of the following features.

Firstly, the conducting wire is a printed conductive ink line, a metal etching line or an implanted metal wire; an insulating protective layer covers the upper part of the wire mesh; thus, it is possible to prevent short-circuiting or disconnection due to accidental collision and friction. Printing conductive ink lines, etching metal foils and spun gold fabrics are all existing mature processes and are not described herein again.

Secondly, the product is packaged in a plurality of wrappings with the built-in miniature electronic anti-theft nets.

Information of chips in a plurality of packages of the same product is associated together; or the conducting wires in a plurality of packages of the same product are connected in series or in parallel to form a conducting wire network; for example, connected in series or in parallel by connecting wires/plugs/sockets; parallel connection is not recommended because it is more difficult to detect a short circuit.

Fourthly, a plurality of layers of wire nets are arranged in the packaging material, and the upper layer and the lower layer of wires are preferably arranged in a staggered manner, such as criss-cross or parallel dislocation; therefore, the seamless effect can be achieved, and no matter how a counterfeiter carefully punches holes in a wing manner, the wire can be broken by drilling; one more layer of protection is provided, and one more layer is safe.

The packaging material is plastic or ceramic or glass bottle, the bottle is plated with metal layer, the metal layer is etched into wire net, and the wire net is covered with insulating protective layer (preferably opaque). This prevents accidental impacts and friction from causing short circuits or disconnection.

Sixthly, the packaging material is a plane material with preset specifications and full of wires, such as a certain specification of film, A3 breadth paper, a piece of cloth and the like; or the packaging material is a material which is fully distributed with a closed circuit formed by connecting a lead and a chip in a preset specification; or the packaging material is an adhesive tape with preset specifications and full of wires; alternatively, the packaging is a take-away packaging bag, and the take-away product is lead-sealed in the bag.

Seventhly, the wire net is connected with the signal indicator light and the secondary coil to form a closed circuit; the signal indicator lamp can be lighted by the induced current.

And the wire network is connected with a USB plug or a headphone plug which can be communicated with the smart phone. The RFID chip stores codes, and when a consumer reads the RFID chip by using the smart phone, the anti-counterfeiting/policy-guaranteeing inquiry system feeds back insurance information of a product corresponding to the codes as a genuine product to the smart phone; so that the consumers can purchase and consume at ease.

And ninthly, a signal indicator lamp is connected with the conducting wire on the package.

The packaging material at the front side is provided with a connecting belt, and a closed circuit formed by connecting a lead and a chip is distributed on the packaging material and the connecting belt (such as an intermediate layer or a subsurface layer or a back surface).

Preferably, after the product is packaged, one or more wires are embedded under any 1mm × 1mm area of the outer surface of the package (i.e. the anti-hole areas such as the outer vertical surface, the top surface and the bottom surface of the package) (i.e. one or more wires pass through all the areas); or after the product is packaged, the projection of the hole-proof area (from any direction such as all directions) on the product on the package can cover the product; thus, holes of 1mm diameter, optionally punched in the package perpendicular to the package's exterior, will drill through the wire, resulting in short/open circuits.

The package of the present invention refers broadly to various flat or three-dimensional packages such as bottles, cans, bags, boxes, lids, films, papers, cloths, etc.

Compared with the prior art, the utility model can produce the following beneficial technical effects.

Firstly, can prevent present punching and make fake etc. to steal and open: after the utility model is adopted for rare products (such as white wine, red wine, edible oil, lubricating oil, rice, flour, perfume, cosmetics and the like), if a counterfeiter punches a hole to counterfeit, a pinhole with the diameter of about 1mm is inevitably punched on a bottle, cloth, a cover or a sleeve and other packaging materials, and because at least one conducting wire is densely distributed in any range of 1mm multiplied by 1mm, the counterfeiter inevitably drills off the conducting wire when punching the hole, so that the conducting wire is broken or short-circuited. Thus, the user, such as the consumer, the buyer, the seller, the express recipient, and the like, cannot read the information (for example, please feel confident that the consumption/product is lost) specified in the RFID chip by using the NFC function of the smart phone, and thus can know that the product is stolen, returned, lost, injected, poisoned, or compromised.

Secondly, the recovery can be prevented: after the utility model is adopted, the package is only opened, and the package is inevitably damaged, so that the lead is broken or short-circuited. Therefore, recycling and counterfeiting are impossible, and a user cannot read the designated information in the RFID chip by using the NFC function in the smart phone, so that the user can know that the product is counterfeit.

Thirdly, the application limitation that insurance identification is true only for consumers is broken through, and then insurance companies can guarantee products to consumers, so that the consumers can purchase and consume at ease. Therefore, after the identification mechanism makes a true product identification conclusion on the product, the perforation-proof packaging material can be used for packaging and insuring the product.

Fourthly, the application is wide: the anti-perforation packing material can be made into various suitable packing material forms such as express envelopes, express packing bags, mechanical bags, premium parcel bags, takeaway anti-theft bags, insurance fidelity packing bags and the like so as to prevent the packing materials from being opened by theft.

Because a consumer can check whether a famous and precious product is true or false by using NFC (radio frequency identification device) in the smart phone, the query rate of the product using the method is necessarily high, and the anti-counterfeiting query system also obtains a large amount of product circulation data and product tracing data, thereby being beneficial to the development of the big data industry in China.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of a perforation-proof package (bottle) according to an embodiment of the present invention, in which a partial surface layer of the perforation-proof package (bottle) is cut away (a wire layer is exposed).

Fig. 2 is a schematic view showing the outer shape of a perforation-proof packaging material (bag) according to a second embodiment of the present invention.

Fig. 3 is a schematic diagram of a closed circuit in which a wire is connected to an RFID chip according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a closed circuit according to a third embodiment of the present invention.

Fig. 5 is a schematic view of a perforation-proof package (with a cover not covered) according to a third embodiment of the present invention.

Fig. 6 is a schematic view of a perforation-proof package (after the cover is covered) according to a third embodiment of the present invention.

Fig. 7 is a schematic view of a package (film) of a predetermined size that can be made into the bag of fig. 2 according to a fourth embodiment of the present invention.

Fig. 8 is an enlarged cross-sectional view taken at the position a-B in fig. 7.

Fig. 9 is an enlarged cross-sectional view of a package (film) with two layers of wire (parallel offset) therein.

Fig. 10 is a schematic external view of a tape with a conductive wire filled in the inner layer according to a fifth embodiment of the present invention.

Fig. 11 is a schematic diagram of the wiring of the inner layer of the packaging material in fig. 10.

Fig. 12 is a schematic longitudinal sectional view of a perforation-proof packaging (cover) in the fifth embodiment of the utility model.

Fig. 13 is a schematic structural view of a perforation-proof package (lube bottle) according to the sixth embodiment of the present invention, in which a partial surface layer is cut away (a wire layer is exposed).

Fig. 14 is a schematic layout diagram of a double-layer conductive line (crisscross) according to an embodiment of the present invention.

Figure 15 is a schematic view of a package (a composite fabric) of a predetermined size that can be made into the bag of figure 2 according to a fourth embodiment of the present invention.

Fig. 16 is a schematic layout view of a curved conductive line according to an embodiment of the present invention.

Fig. 17 is a schematic view of another perforation-proof wrapper (bag) according to the second embodiment of the present invention.

Fig. 18 is a schematic external view of another anti-perforation packing (four-edge sealed plastic bag) according to the second embodiment of the present invention.

Fig. 19 is a schematic external view of a perforation-proof wrapper (takeaway box) according to a seventh embodiment of the present invention.

Fig. 20 is a schematic view showing the outer shape of a perforation-proof packing (takeaway package) in the seventh embodiment of the present invention.

Fig. 21 is a schematic circuit diagram of an eighth embodiment of the utility model.

Fig. 22 is another circuit diagram according to the eighth embodiment of the utility model.

The reference numbers illustrate: 1-packaging material, 2-conducting wire, 3-conducting wire net, 4-chip, 5-connecting wire, 6-hole-proof area, 7-edge area (non-hole-proof area), 8-signal indicator light, 9-belt, 10-insulating protective layer, 11-mesh, 12-lead sealing wire, 13- (USB or earphone) plug and 14-secondary coil.

Detailed Description

The first embodiment.

Referring to fig. 1 and 3, an enameled wire with a diameter of 0.025mm specified in national standard GB6109.1-90 is selected as a lead 2, and the enameled wire is densely and hemp-covered on a package 1 such as a wine bottle, and then covered and protected by brushing a layer of white paint, so that the enameled wire is not easily visible. In other words, the middle layer of the wine bottle is filled with the conducting wire 2, and almost no place is passed by the conducting wire 2.

Preferably, the width of the enameled wire is less than or equal to 1mm, or 0.5mm, or 0.25mm, or 0.1mm, or 0.01mm, or 0.001 mm; in other words, the thinner the wire 2, the better.

Preferably, the distance between two adjacent enameled wires is less than or equal to 1mm, or 0.5mm, or 0.25mm, or 0.1mm, or 0.01mm, or 0.001 mm; in other words, the smaller the pitch, the higher the density, the better.

All the conducting wires 2 fully distributed on the packing materials 1 such as the same wine bottle and the like are connected in series to form one or more overlength conducting wires 2.

Preferably, referring to the design principle of the disposable RFID anti-counterfeiting bottle cap (CN 202784220U), the wire 2 is used as an antenna to connect with the RFID chip 4 to form a closed circuit, thereby forming a (e.g. alarm) miniature electronic anti-theft net to cover wine in the anti-theft net.

In other words, the utility model is equivalent to that the antenna of the RFID chip 4, or the power line, or the lead wire 2 such as the switch lead wire, etc. are fully covered with the wine bottle and the bottle cap without dead angles, so as to form a miniature electronic anti-theft net, and the miniature electronic anti-theft net surrounds (covers) the product in the packing material from all directions; the product can be taken out illegally only in case of short/open circuit of the wire net 3 (i.e., breakage of the package). Therefore, after the utility model is adopted by the valuable product, when the anti-counterfeiting/insurance policy inquiry system confirms that the anti-counterfeiting characteristic information inquired by the consumer is matched with the filing information, insurance information of the inquired product as a genuine product can be sent to the smart phone of the inquirer, so that the consumer can purchase and consume at ease.

Of course, instead of installing the RFID chip 4, a few cents of LED signal indicator 8 may be connected in series with the wire 2, and the LED signal indicator 8 may be buried under the white paint layer. Therefore, the power supply of the mobile phone is connected with the lead 2, and whether the LED signal indicator lamp 8 emits light or not is observed, so that whether the product is stolen or not can be known.

Preferably, the wires 2 are made of a resistive material with non-uniform resistivity, and the total resistance of the closed circuit of the wire network 3 is measured to store individualized security feature information unique to the package 1. Preferably, a non-uniform resistivity, individual resistance material is used, so that the total resistance of each closed circuit is individualized and can be used as individualized anti-counterfeiting characteristic information.

In this example, if the distance between two adjacent enameled wires is calculated according to 0.25mm, enameled wires with the diameter of 0.025mm are fully distributed on a 500 ml wine bottle (with the diameter of 75mm and the height of 238 mm) shown in fig. 1, a total of 260 meters of enameled wires are needed, and the cost is high. From an economic point of view, printed conductive ink lines and etched aluminum foil lines are also inexpensive.

Preferably, referring to fig. 1, a metal layer is plated on a bottle preform (one of the packages) and a cap preform (two of the packages), the metal layer is etched to form a conductive wire 2 wound around the bottle preform and the cap preform, and an RFID chip 4 is soldered, and then an opaque insulating protective layer 10 is coated over the conductive wire 2 to form a puncture-proof bottle and cap. When the wine bottle is specifically implemented, the RFID information on the bottle cap and the RFID information on the bottle can be collected and are related to form a group of information serving as the product information of the same bottle of wine, and the wires 2 on the bottle and the bottle cap can be connected in series to form a closed circuit. Therefore, as long as the bottle cap is opened, the closed circuit is inevitably broken, and the user cannot read information in the RFID chip by using the NFC function in the smart phone, so that the bottle and the bottle cap can be prevented from being recycled for counterfeiting.

Of course, if a counterfeiter punches a hole to make a fake, the counterfeiter must punch a pinhole with a diameter of about 1mm on the bottle or the bottle cap, and since at least one wire is densely distributed in any range of 1mm × 1mm, the counterfeiter must drill the wire to break the wire when punching the hole, so that the wire is broken or short-circuited. Thus, the user cannot read the information (for example, please feel confident that the consumption/product is lost or the like) specified in the RFID chip by using the NFC function in the smart phone, and thus can know that the wine is stolen or the returned product is lost.

Example two.

Referring to fig. 7 and 8, a PET film with a width of a3 and a thickness of 30 microns is selected, a continuous conductive ink line with a width of 250 microns and a thickness of 12 microns is printed on the front surface of the PET film to serve as a lead 2, and an ink insulating protective layer 10 is printed above the conductive ink line, or an insulating film layer is compounded above the conductive ink line. In short, the lead wires 2 are embedded in most of the package 1 such as a PET film, and almost no lead wires 2 pass through the package.

Preferably, the distance (or gap) between two adjacent conductive ink lines is set to 0.5 mm; in general, the smaller the pitch, the higher the density, the better.

The lead 2 fully distributed on each packing object 1 of PET film and the like is designed into a closed circuit.

Preferably, the wires 2 are connected to the RFID chip 4 in a closed circuit, thereby forming a (e.g. alarm) miniature electronic anti-theft net.

Preferably, the conductive ink is made of a resistive material, and the total resistance of the closed circuit is measured to store individualized anti-counterfeiting characteristic information unique to each package 1 such as a PET film. It is preferred to use resistive ink with non-uniform resistivity so that the total resistance of each closed circuit is personalized for use as personalized security feature information.

Thus, the PET film with the closed circuit inside can be used as a packing material 1 to pack the rare wine and other products, thereby preventing perforation and counterfeiting. The PET film with the closed circuit can be made into packing materials 1 such as plastic sleeves/covers and the like, and products such as rare wine and the like are sleeved/covered, so that punching and counterfeiting are prevented.

As shown in fig. 2, the above piece of PET film with the closed circuit inside is made into a bag, and connected with the RFID chip 4 through the connecting wire 5, so as to wrap the product such as rare wine.

Or as shown in fig. 15, the product such as rare wine is wrapped by a closed circuit packaging material (such as PE film or cloth) provided with the RFID chip 4 and the connecting belt 9 as shown in fig. 2, and the bag mouth is tied by the connecting belt 9 to be made into a dead knot. In other words, the packaging material is provided with the connecting belt 9, and the packaging material and the connecting belt 9 thereof are internally provided with a closed circuit formed by connecting the conducting wire 2 and the RFID chip 4. In this way, the product in the package is surrounded (covered) by the wire net 3 from all sides; the product can be taken out illegally only in case of short/open circuit of the wire net 3 (i.e., breakage of the package).

Or as shown in fig. 15, a take-out anti-theft bag is made of a closed circuit packaging material provided with the RFID chip 4 and the conjoined belt 9, take-out food is wrapped as shown in fig. 2, and the bag opening is tied by the conjoined belt 9 to be made into a dead knot. Therefore, the method can prevent the takeaway brother from eating by theft, and can also prevent malicious competitors from injecting poison and planting the plants.

It is also possible to make a plastic bag from a packaging material provided with an RFID chip 4 and a closed circuit, and to heat-seal pack the valuable item as shown in fig. 17 or fig. 18.

Example three.

Referring to fig. 4, 5 and 6, a conductive ink line with dense hemp is printed as a conductive line 2 on a designated area of a plastic film or the like. Then, several layers of dark ink are printed to cover and protect the conductive ink lines, so that the conductive ink lines are invisible. In other words, the plastic film or the like is covered with the wires 2 over most of the area, and almost no portion of the wires 2 passes through the plastic film or the like.

Preferably, the width of the conductive ink line is less than or equal to 1mm, or 0.5mm, or 0.25mm, or 0.1mm, or 0.01mm, or 0.001 mm; in other words, the thinner the wire 2, the better.

Preferably, the distance between two adjacent conductive ink lines is less than or equal to 1mm, or 0.5mm, or 0.25mm, or 0.1mm, or 0.01mm, or 0.001 mm; in other words, the smaller the pitch, the better, and the higher the density.

A lead 2 such as a conductive ink line on a plastic film or the like with a predetermined specification area is connected with an anti-theft chip 4 (a product sold on the market) to form one or more closed circuits.

Preferably, the wires 2 are connected to the anti-theft chip 4 in a closed circuit to form a (e.g. alarm) miniature electronic anti-theft net for attaching plastic film or the like to the box and lid as shown in fig. 5, or for molding the plastic film or the like into a package 1 such as a sleeve/cover as shown in fig. 7, thereby forming an anti-perforation package. In fig. 4, the plastic film on which the left closed circuit is located is attached to the cover, and the plastic film on which the right closed circuit is located is attached to the box. Preferably, the connection lines 5 are connected to the closed circuit of the two plastic films.

Preferably, the conductive ink is a resistive material, the total resistance of the closed circuit is measured, and individualized security feature information unique to the closed circuit is stored. Preferably, a non-uniform resistivity ink is used for the individual resistors, so that the total resistance of each closed circuit is individualized and can be used as individualized anti-counterfeiting characteristic information.

Therefore, during production, the wine bottles can be put into the box firstly, then the cover is taken to be close to the box, and the box is connected with the connecting line 5 on the cover. The lid is then closed and the box is sealed to the lid by riveting, as shown in figure 6. Thus, the closed circuit within the box and lid surrounds (covers) the product within the package from all sides; the product can be taken out illegally only in case of short/open circuit of the wire net 3 (i.e., breakage of the package).

Thus, a counterfeiter must punch holes with a diameter of about 1mm on the box or the cover for counterfeiting by punching, and because at least one wire 2 is densely distributed in any range of 1mm × 1mm on the box or the cover, the counterfeiter inevitably drills the wire 2 when punching, so that a closed circuit is broken or short-circuited.

Example four.

As shown in fig. 7 and 8, a dense low-resistance conductive ink line is printed as a lead 2 on a predetermined area, i.e., a hole-proof area 6, of a material such as a plastic film, and the lead 2 is spread over most of the area, and almost no lead 2 passes through the area except a reserved edge area 7 (a non-hole-proof area, which is generally used as a notch area). As best shown in fig. 14, the front surface of the plastic film or the like is printed with the longitudinally distributed wires 2, the back surface of the plastic film or the like is printed with the transversely distributed wires 2, and then, several layers of dark ink are coated to cover and protect the conductive ink lines, so that the conductive ink lines are not visible. As shown in fig. 16, the conducting wires 2 may be printed on a plastic film, and then covered and protected by dark insulating ink, so that the conducting ink wires are invisible.

The lead 2 is led out, and a mobile phone charging plug is arranged through a connecting wire 5, so that the mobile phone charging plug can be plugged into a mobile phone charging socket.

Preferably, a few cents of LED signal indicator 8 is connected in series in the conductor 2. Of course, the LED signal indicator lamp 8 may not be installed for cost saving.

This embodiment is inexpensive to implement because the RFID chip 4 is not used. When a consumer inserts a plug into a mobile phone charging socket, the lead 2, the LED signal indicator light 8 and the mobile phone power supply are connected in series to form a simplest closed circuit, and whether the product is stolen can be known by judging whether the mobile phone screen or the LED signal indicator light 8 is electrified or not.

Example five.

Referring to fig. 10 and 11, a tape 9 such as an adhesive tape is manufactured by selecting a PET film having a thickness of 25 micrometers and an aluminum plated layer on the back surface, etching an aluminum plated wire having a width of 0.3mm on the aluminum plated layer (preferably, a thickness of more than 6 micrometers) as a lead 2, and coating an insulating protective layer 10 and a non-setting adhesive on the aluminum plated wire layer. The tape is preferably cut into sections of 350mm each, with the wires 2 in each section connecting with the RFID chip 4 to form a small strip of tape that closes the circuit.

Preferably, the distance (or gap) between two adjacent aluminized wires is set to be 0.3 mm; in general, the smaller the pitch, the higher the density, the better.

Fig. 12 is a plastic cover, namely a packing material 1, which is customized for the wine bottle in the first embodiment and consists of an upper part and a lower part, wherein a conducting wire 2 and an RFID chip 4 are connected in the cover to form a closed circuit.

Preferably, the upper and lower parts of the conducting wire 2 of the plastic cover are connected in series through a connecting wire 5.

Therefore, the plastic cover can be covered on the wine bottle, and the joint of the upper part and the lower part of the cover is sealed by the adhesive tape small strip, so that the intelligent wine package product can be manufactured.

Thus, the closed circuit in the plastic cover surrounds (i.e. covers) the wine in the wine bottle from all sides; the wine can be taken out illegally only in case of short/broken wire net 3 (i.e. breakage of the plastic cover).

Therefore, after the famous wine in the embodiment of the utility model is adopted, when the anti-counterfeiting/insurance policy inquiry system confirms that the anti-counterfeiting characteristic information inquired by the consumer is matched with the record information, insurance information that the inquired famous wine is a genuine product can be sent to the smart phone of the inquirer, so that the consumer can purchase and drink wine with confidence.

Example six.

Referring to fig. 13, a conductive ink line of dense hemp is printed on a plastic bottle for lubricating oil as a conductive line 2, and the conductive line 2 such as the conductive ink line and the RFID chip 4 are connected to form a closed circuit. Then, a layer of dark insulating ink is printed to cover and protect the conductive ink line, so that the conductive ink line and the chip can not be seen by people.

Preferably, the width of the conductive ink line is 0.25mm or 0.1mm, and in short, the thinner the conductive wire 2 is, the better.

Preferably, the distance between two adjacent conductive ink lines is 0.25mm or 0.1mm, and in short, the smaller the distance, the better the density.

Preferably, the conductor 2 is connected to the RFID chip 4 in a closed circuit, thereby forming a (e.g. alarm) miniature electronic anti-theft net. The micro electronic anti-theft net surrounds (i.e. covers) the lubricating oil in the plastic bottle from all directions; the lubricant can be illegally taken out only in the case of short/open circuit of the wire net 3 (i.e., breakage of the plastic bottle).

Preferably, the conductive ink is a resistive material, the total resistance of the closed circuit is measured, and individualized security feature information unique to the closed circuit is stored. It is preferred to use resistive ink with non-uniform resistivity so that the total resistance of each closed circuit is personalized for use as personalized security feature information.

Thus, the counterfeiter must punch holes with a diameter of about 1mm on the bottle or the cover for counterfeiting, and because at least 4 wires 2 are densely distributed in any range of 1mm × 1mm on the bottle or the cover, the counterfeiter must drill the wires 2 to open or short the closed circuit. Therefore, the consumer cannot read the information in the RFID chip by using the NFC function in the smart phone, so that the consumer can know that the product is stolen and is fake.

Example seven.

An aluminizer with the breadth of 60mm multiplied by 50mm and the thickness of 45 microns is selected, a continuous conducting wire 2 with the width of 0.25mm is etched on the aluminizer, and an ink insulating protective layer 10 is printed above the conducting wire 2, or an insulating film layer is compounded above the conducting wire 2. In conclusion, there is almost no place on the aluminum-plated film through which the conductive line 2 passes.

Preferably, the pitch (or gap) between two adjacent wires 2 is set to 0.25 mm; in general, the smaller the pitch, the higher the density, the better.

Referring to fig. 3, the wire 2 and the RFID chip 4 are connected to form a closed circuit, thereby forming a (e.g., alarmable) miniature electronic anti-theft net.

Thus, the package 1 such as take-away packaging bags and the like shown in fig. 20 can be manufactured by using the aluminum-plated film with the micro electronic anti-theft net inside, and take-away food is put into the bag to be sealed by hot pressing (namely lead sealing), thereby preventing the perforation, the injection of poison and the illegal eating of the food.

A take-away lunch box can also be made of a packaging material provided with an RFID chip 4 and closed circuit, and the take-away food is sealed by hot-pressing lead as shown in fig. 19.

Example eight.

Preferably, in order to reduce the cost, as shown in fig. 7, the wire network 3 is not provided with the RFID chip 4, only the wire 2 is connected in series with an LED signal indicator light 8 for a few cents, and a USB plug 13 capable of connecting with a Type C interface of the smart phone. Therefore, a consumer can plug the USB plug 13 into the smart phone, the power supply of the smart phone is connected with the lead 2, the LED signal indicator lamp 8 is watched to see whether to emit light or not, resistance measurement software installed in the smart phone is used for inquiring whether the detected value is consistent with the personalized resistance value file (namely the personalized anti-counterfeiting characteristic information unique to each bottle) recorded by the database, and whether the product is stolen or not can be known.

More preferably, in order to further reduce the cost, as shown in fig. 21, the wire network 3 is not provided with the RFID chip 4, nor is connected with the LED signal indicator 8 in series, and only a headset plug 13 (such as a Jack head) which can be connected with the smart phone is provided. Therefore, a consumer can plug the earphone plug 13 into the smart phone of the consumer, and can inquire and detect whether the resistance value measuring software installed in the smart phone is consistent with the individual resistance value file (namely the individual anti-counterfeiting characteristic information unique to each bottle) recorded by the database, so that whether the product is stolen can be known.

It is still more preferable that the wire net 3 and the secondary coil 14 of the signal indicating lamp 8 are connected to close the circuit as shown in fig. 22. In this way, the wireless reverse charging function (on current smart phones) can be turned on, the primary coil inside the phone is brought close to the secondary coil 14 on the bottle, and if the signal indicator 8 lights can be lit by the induced current, it is proved that the product inside the bottle is not stolen (punched). The scheme has the advantages that a wiring plug and the RFID chip 4 are not needed, the closed circuit is completely sealed in the packaging material, cleaning and poor contact are not afraid, a seller can not destroy the plug intentionally, the failure rate is low, and the cost of components such as the wiring plug or the RFID chip 4 is saved by 0.3-0.5 RMB/RMB.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is defined by the appended claims. Especially, the deterioration scheme of using a complicated circuit network such as an expensive integrated circuit to replace the simple and cheap wire network 3 still falls within the scope of the present invention.

Claims (5)

1. The utility model provides a prevent packing material that punches, includes the packing material that 0.01 ~ 10mm is thick constitutes, its characterized in that:

firstly, wires are densely distributed in a packaging material forming a package; the wires are connected into one or more wire nets;

② the width of the lead is less than or equal to 1.8mm or 1mm or 0.5mm or 0.25mm or 0.1mm or 0.01mm or 0.001 mm;

③ the wire spacing/mesh width is less than or equal to 1.8mm or 1mm or 0.5mm or 0.25mm or 0.1mm or 0.01mm or 0.001 mm; the wires and the chip are connected to form a closed circuit, so that a miniature electronic anti-theft net is formed, and at least one or more wires pass through the outside of the bottle under any area of 1mm multiplied by 1 mm.

2. The perforation-resistant wrapper of claim 1, wherein: the wires and the chip are connected to form a closed circuit, thereby forming a miniature electronic anti-theft net.

3. The perforation-resistant wrapper of claim 2, wherein: the wire is connected with the RFID chip to form a closed circuit.

4. The perforation-resistant wrapper of claim 1, wherein: the wire is made of resistance material, and the resistance/capacitance with random individual value formed by the wire network is taken as the individual anti-counterfeiting characteristic information of the package.

5. A perforation-resistant package according to any one of claims 1 to 4, comprising one or more of the following features:

firstly, the conducting wire is a printed conductive ink line, a metal etching line or an implanted metal wire; an insulating protective layer covers the upper part of the wire mesh;

the product is packaged in a plurality of wrappings with a miniature electronic anti-theft net arranged inside;

information of chips in a plurality of packages on the same product is associated together; or the conducting wires in a plurality of packages on the same product are connected in series or in parallel to form a conducting wire network;

fourthly, a plurality of layers of wire nets are arranged in the packaging material;

the packaging material is a plastic or ceramic or glass bottle, a metal layer is plated on the bottle, the metal layer is etched into a wire net, and an insulating protective layer covers the wire net;

sixthly, the packaging material is a plane material with preset specification and is fully distributed with the conducting wires; or the packaging material is a material which is fully distributed with a closed circuit formed by connecting a lead and a chip in a preset specification; or the packaging material is an adhesive tape with a preset specification and a wire fully distributed on the inner layer;

seventhly, the wire net is connected with the signal indicator light and the secondary coil to form a closed circuit; the signal indicator lamp can be lightened by the induction current;

the wire network is connected with a USB plug or an earphone plug which can be communicated with the smart phone;

a signal indicator lamp is connected with the lead on the package;

the packaging material at the front part is provided with a connected belt, and a closed circuit formed by connecting a lead and a chip is distributed in the packaging material and the connected belt.

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