CN202542067U - Anti-fake bottle of random coded lock - Google Patents

Abstract

The utility model discloses an anti-fake bottle of a random coded lock. The anti-fake bottle of the random coded lock comprises a bottle body and a bottle cap, wherein the anti-fake bottle further comprises a random password identifier, a coded lock, a barcode, a control switch and a power source; the bottle cap is fixedly connected with the bottle body through a mechanical lock head of the coded lock; the coded lock is an electronic coded lock arranged in the bottle cap and is connected with the random password identifier through a drive circuit; the random password identifier is arranged on the bottle cap, and the barcode is arranged on the bottle body to obtain an anti-fake dynamic random code and a unlocking password; the power source comprises a battery arranged in the bottle cap; and the battery is connected with the random password identifier through the control switch. As the random password identifier on the bottle cap and the barcode on the bottle body are bound organically in an inquiry system, so that the anti-fake bottle of the random coded lock enables a commodity with an anti-fake requirement to realize the anti-fake purpose. The anti-fake bottle of the random coded lock, disclosed by the utility model, not only has the advantages of a simple structure and convenience for use, but also has the advantages of being capable of performing efficient anti-fake action; and the bottle body and the bottle cap can be used repeatedly.

Description

The false proof bottle of random cipher lock

Technical field

The utility model relates to a kind of product false proof device, and the false proof bottle of specifically a kind of random cipher lock belongs to field of anti-counterfeit technology.

Background technology

In the existing market, the fake and forged phenomenon of a lot of commodity is very rampant, remains incessant after repeated prohibition.The personation mode also is innovations in pattern or design, emerges in an endless stream.The former factory of packing or copy such as using with former factory certified products packs, because consumers in general are limited to the anti-counterfeiting technology understanding, causes to be difficult to divide evident.Current Password lock anti-fake bottle lid mainly is divided into mechanical code lock and two kinds of technology of dynamic coded lock.The dynamic code anti-counterfeiting technical approach need be to the long-term powered battery of false proof carrier, because the battery volume is less, and finite capacity; Cause false proof carrier work-hours that significant limitation is arranged; And inquiry times is restricted to 1 time, like this, causes the inconvenience in the use; And former bottle and bottle cap can't reuse, and cause waste.And the mechanical cipher lock technology, owing to password is fixed, and Password Length is limited, is easy to just ability decryption, and the situation of former bottled fake wine can't be avoided.Therefore, present anti-counterfeiting technology still can not satisfy false proof needs fully.

The utility model content

For overcoming the deficiency that above-mentioned prior art exists; The utility model technical matters to be solved is to provide a kind of false proof bottle of random cipher lock and a kind of method for anti-counterfeit; It is not only simple in structure, easy to use, and can carry out false proofly effectively, and its bottle and bottle cap can repeated usagies.

The technical scheme that its technical matters of the utility model solution is taked is: the false proof bottle of a kind of random cipher lock; Comprise bottle and bottle cap; It is characterized in that, also comprise random cipher recognizer, coded lock, bar code, master cock and power supply, said bottle cap is captiveed joint with bottle through the mechanical lock head of coded lock; Said coded lock is the electronic password lock that is arranged in the bottle cap, and is connected with the random cipher recognizer through driving circuit; Said random cipher recognizer is arranged on the bottle cap, and said bar code is arranged on the bottle, in order to ask for false proof dynamic random sign indicating number and unlocking pin; Said power supply comprises the battery that is arranged in the bottle cap, and said battery is connected with the random cipher recognizer through master cock.

Further, said random cipher recognizer comprises control chip, display equipment and input keyboard, and said control chip is connected with the driving circuit of display equipment, input keyboard and coded lock respectively.

Further, also comprise be arranged on the bottle cap top and with bottle cap clamping bonded assembly cover of dust, said cover of dust is inner to be provided with projection with the master cock corresponding section.

A kind of method for anti-counterfeit of the false proof bottle of above-mentioned random cipher lock is realized the false proof of the false proof bottle of random cipher lock based on terminal random cipher recognizer and remote enquiry system, said method comprising the steps of:

Preset bar code at inquiry system, obtain the computing formula of inquiring and authenticating sign indicating number and unlocking pin, dynamic queries hatted code and one group of hatted code of dynamically unblanking of restriction inquiry times equal number group number;

Bar code is arranged on the bottle, and will obtains dynamic queries hatted code and the random cipher recognizer that one group of hatted code of dynamically unblanking writes the corresponding bottle cap of this bottle of computing formula, the restriction inquiry times equal number group number of inquiring and authenticating sign indicating number and unlocking pin;

Carry out the Antiforge inquiry operation;

The query manipulation of unblanking.

Further, said Antiforge inquiry control step may further comprise the steps:

Select the Antiforge inquiry operation at the random cipher recognizer, and send the bottle bar code to inquiry system;

Whether inquiry system verify bar code and confirm and unblank, if do not unblank and through verifying then generated query identifying code and extract and return the dynamic queries hatted code, otherwise it is unsuccessful to return inquiry;

With dynamic queries hatted code input random cipher recognizer, the random cipher recognizer verifies the dynamic queries hatted code, if correctly then generated query identifying code and increase the one query counting; Otherwise prompting is re-entered;

The inquiring and authenticating sign indicating number that the random cipher recognizer is generated sends to inquiry system and verifies;

Inquiry system compares random cipher recognizer inquiring and authenticating sign indicating number that generates and the inquiring and authenticating sign indicating number that system generates, if identical then return genuine piece information and increase the one query counting, re-enters otherwise point out, and then returns fakement information like mistake still.

Further, in the Antiforge inquiry operating process, said inquiry system is verified bar code and is confirmed that the step of whether having unblanked may further comprise the steps:

Judge whether bar code exists,, do not have information otherwise return bar code if exist then change next step over to;

Judge whether to unblank,, otherwise return the information of unblanking if do not unblank then change next step over to;

Judge whether inquiry times exceeds the inquiry limited number of times,, transfinite otherwise return inquiry times if do not exceed then return inquiry times.

Further, the said query manipulation step of unblanking may further comprise the steps:

Select unlock operation at the random cipher recognizer, and send the bottle bar code to inquiry system;

Whether inquiry system verify bar code and confirm and unblank, if do not unblank and through verifying then generated query identifying code and unlocking pin and extract and return the hatted code of dynamically unblanking, otherwise it is unsuccessful to return inquiry;

The hatted code of will dynamically unblanking input random cipher recognizer, random cipher recognizer verify the hatted code of dynamically unblanking, and if correctly random cipher recognizer generated query identifying code and unlocking pin remove computing formula simultaneously and preserve unlocking pin; Otherwise prompting is re-entered;

The inquiring and authenticating sign indicating number that the random cipher recognizer is generated sends to inquiry system and verifies;

The inquiring and authenticating sign indicating number that inquiry system generates the random cipher recognizer compares with the inquiring and authenticating sign indicating number of system's generation, if identical then return unlocking cipher and remove bar code and the binding of computing formula; Otherwise prompting is re-entered, and then returns fakement information like mistake still;

Unlocking pin is imported the random cipher recognizer carry out the coded lock release.

Further, in the query manipulation process of unblanking, said inquiry system is verified bar code and is confirmed that the step of whether having unblanked may further comprise the steps:

Judge whether bar code exists,, do not have information otherwise return bar code if exist then change next step over to;

Judge whether to unblank,, otherwise return the information of unblanking if do not unblank then change next step over to.

The utility model is through being provided with coded lock and random cipher recognizer on the bottle cap, and the mathematical operation formula that prestores identical with the random cipher recognizer in the inquiry system.When inquiry; Can send to inquiry system to the bottle bar code through network, phone or short message mode; Inquiry system provides one group of stochastic and dynamic sign indicating number for the inquiry; The inquiry on the bottle cap with the input of this stochastic and dynamic yardage word after, the mathematical formulae through the random cipher recognizer calculates the result and shows a group polling identifying code or a unlocking pin through display equipment.The inquiry sends to inquiry system through network, phone or short message mode with the inquiring and authenticating sign indicating number or the unlocking pin that obtain then.Inquiring and authenticating sign indicating number or unlocking pin that numeral that inquiry system draws random cipher recognizer on the bottle cap and native system calculate compare.If coincide then what provide this inquiry is former factory genuine piece; If mistake then provide this inquiry and be personation, thereby carry out the Antiforge inquiry or the work of unblanking.

The beneficial effect of the utility model is; The utility model is through carrying out organic binding with random cipher recognizer on the bottle cap and bottle bar code in inquiry system; Making needs false proof commodity to arrive false proof purpose; The utility model is not only simple in structure, easy to use, and can carry out false proofly effectively, and its bottle and bottle cap can repeated usagies.

Description of drawings

Below in conjunction with accompanying drawing the utility model is further specified:

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the control principle block diagram of the utility model;

Fig. 3 is the method flow diagram of the utility model;

Wherein, 1 bottle, 2 bottle caps, 3 random cipher recognizers, 4 coded lock mechanical lock heads, 5 bar codes, 6 master cocies, 7 display equipments, 8 input keyboards, 9 query keys, 10 unlock key, 11 cover of dusts, 12 projections.

The specific embodiment

As depicted in figs. 1 and 2; The false proof bottle of a kind of random cipher lock of the utility model; Comprise bottle 1, bottle cap 2, random cipher recognizer 3, coded lock, bar code 5, master cock 6 and power supply; Said bottle cap 2 is captiveed joint with bottle 1 through the mechanical lock head 4 of coded lock, and said coded lock is the electronic password lock that is arranged in the bottle cap, and is connected with random cipher recognizer 3 through driving circuit; Said random cipher recognizer 3 is arranged on the bottle cap 2, and said bar code 5 is arranged on the bottle 1, in order to ask for Antiforge inquiry identifying code and unlocking pin; Said power supply comprises the battery that is arranged in the bottle cap, and said battery is connected with the random cipher recognizer through master cock.Wherein, said random cipher recognizer comprises control chip, display equipment and input keyboard, and said control chip is connected with the driving circuit of display equipment, input keyboard and coded lock respectively.In addition, this false proof bottle also comprise be arranged on the bottle cap top and with bottle cap clamping bonded assembly cover of dust 11, said cover of dust is inner to be provided with projection 12 with the master cock corresponding section; When cover of dust 11 and bottle cap 2 closures; Projection 12 can be depressed power control switch 6, makes power control switch 6 be in off-state, like this; When not inquiring about or do not unblank; Power control switch 6 is in off-state, has prolonged the length of service of random cipher recognizer, thereby can satisfy the characteristics that famous and precious bartender deposits year limit for length.

Fig. 3 is the method flow diagram of the utility model; As shown in Figure 3, a kind of method for anti-counterfeit of the false proof bottle of above-mentioned random cipher lock is realized the false proof of the false proof bottle of random cipher lock based on terminal random cipher recognizer and remote enquiry system, said method comprising the steps of:

1) preset bar code at inquiry system, obtain the computing formula of inquiring and authenticating sign indicating number and unlocking pin, dynamic queries hatted code and one group of hatted code of dynamically unblanking of restriction inquiry times equal number group number;

2) bar code is arranged on the bottle, and will obtains dynamic queries hatted code and the random cipher recognizer that one group of hatted code of dynamically unblanking writes the corresponding bottle cap of this bottle of computing formula, the restriction inquiry times equal number group number of inquiring and authenticating sign indicating number and unlocking pin;

3) select Antiforge inquiry or unlock operation, if carry out the Antiforge inquiry operation then get into the Antiforge inquiry operating process, if carry out unlock operation then get into the unlock operation process.

Said Antiforge inquiry control step may further comprise the steps:

1.1) select the Antiforge inquiry operation at the random cipher recognizer, and send the bottle bar code to inquiry system;

1.2) judge whether bar code exists, if exist then change next step over to, there is not information otherwise return bar code;

1.3) judge whether to unblank, if do not unblank then change next step over to, otherwise return the information of unblanking;

1.4) judge whether inquiry times exceeds the inquiry limited number of times, if do not exceed then change next step over to, transfinite otherwise return inquiry times;

1.5) inquiry system confirms not unblank and through generated query identifying code and extract the dynamic queries hatted code then after the checking, return the dynamic queries hatted code simultaneously;

1.6) with dynamic queries hatted code input random cipher recognizer, the random cipher recognizer verifies the dynamic queries hatted code, if correctly then generated query identifying code and increase the one query counting; Otherwise prompting is re-entered.

1.7) inquiring and authenticating sign indicating number that the random cipher recognizer is generated sends to inquiry system and verify;

1.8) inquiry system compares random cipher recognizer inquiring and authenticating sign indicating number that generates and the inquiring and authenticating sign indicating number that system generates, if identical then return genuine piece information and increase the one query counting, re-enters otherwise point out, and then returns fakement information like mistake still.

Said unlock operation step may further comprise the steps:

2.1) select unlock operation at the random cipher recognizer, and send the bottle bar code to inquiry system;

2.2) judge whether bar code exists, if exist then change next step over to, there is not information otherwise return bar code;

2.3) judge whether to unblank, if do not unblank then change next step over to, otherwise return the information of unblanking.

2.4) inquiry system confirms not unblank and through generated query identifying code and unlocking pin and the extraction hatted code of dynamically unblanking then after the checking, simultaneously, return the hatted code of dynamically unblanking;

2.5) hatted code of will dynamically unblanking input random cipher recognizer, the random cipher recognizer verifies the hatted code of dynamically unblanking, and if correctly random cipher recognizer generated query identifying code and unlocking pin remove computing formula simultaneously and preserve unlocking pin; Otherwise prompting is re-entered;

2.6) inquiring and authenticating sign indicating number that the random cipher recognizer is generated sends to inquiry system and verify;

2.7) inquiry system inquiring and authenticating sign indicating number that the random cipher recognizer is generated compares with the inquiring and authenticating sign indicating number of system generation, if identical then return unlocking cipher and remove bar code and the binding of computing formula; Otherwise prompting is re-entered, and then returns fakement information like mistake still;

2.8) unlocking pin is imported the random cipher recognizer carry out the coded lock release.

Wherein, the dynamic random sign indicating number is after inquiry system sends the bottle bar code, the set of number that inquiry system returns; The inquiring and authenticating sign indicating number is behind random cipher recognizer input dynamic random sign indicating number, the set of number that draws; Unlocking pin is in the query script of unblanking, after the inquiring and authenticating sign indicating number that the random cipher recognizer is drawn sends to inquiry system, and the set of number that is used to open the random cipher lock that inquiry system returns.

Each random cipher lock recognizer 3 that the utility model adopts all has unique built-in mathematical formulae, and gives different functional values at some node of formula.After the dynamic random sign indicating number that obtains through the bar code inquiry of sending on the bottle was input to control chip through input keyboard 8, control chip calculated through built-in mathematical formulae, and the one group of numerical value that calculates also is transported to display equipment 7 and shows.And then pass through phone, note or network delivery to the numerical value that shows and arrive inquiry system.Inquiry system compares through the built-in result with these random cipher lock recognizer 3 identical mathematical formulaes draw of native system, thereby obtains a result.

When commodity dispatch from the factory, random cipher lock recognizer 3 is bound in inquiry system with bottle bar code 5.When consumer wants is unblanked, must carry out acknowledgment of your inquiry,, inquiry just unblanks after accomplishing, and the customer can select voluntarily.In case select to unblank, after system provided unlocking cipher, system automatically terminated the binding of random cipher lock recognizer 3 mathematical formulaes and bottle bar code 5.When source switch 1 breaks off, this unlocking cipher auto-idled.Each closed source switch 1, before the inquiry, 3 pairs of unlocking ciphers of random cipher lock recognizer clear 0.When complete 0 password of input, random cipher lock recognizer 3 is not to coded lock driving circuit output unlocking signal.

What the utility model adopted is built-in mathematical formulae, and gives different functional values at some node of formula, and, because the technology that adopts bottle bar code 5 and random cipher lock recognizer 3 to bind limits inquiry times simultaneously.Therefore, it is very big that this random cipher lock recognizer cracks difficulty, also few because of the quantity that can fake even certain random cipher lock is cracked, and lost the meaning of faking.

Claims (3)

1. a random cipher is locked false proof bottle; Comprise bottle and bottle cap; It is characterized in that, also comprise random cipher recognizer, coded lock, bar code, master cock and power supply, said bottle cap is captiveed joint with bottle through the mechanical lock head of coded lock; Said coded lock is the electronic password lock that is arranged in the bottle cap, and is connected with the random cipher recognizer through driving circuit; Said random cipher recognizer is arranged on the bottle cap, and said bar code is arranged on the bottle, in order to ask for Antiforge inquiry identifying code and unlocking pin; Said power supply comprises the battery that is arranged in the bottle cap, and said battery is connected with the random cipher recognizer through master cock.

2. the false proof bottle of a kind of random cipher lock according to claim 1; It is characterized in that; Said random cipher recognizer comprises control chip, display equipment and input keyboard, and said control chip is connected with the driving circuit of display equipment, input keyboard and coded lock respectively.

3. the false proof bottle of a kind of random cipher lock according to claim 1 is characterized in that, also comprise be arranged on the bottle cap top and with bottle cap clamping bonded assembly cover of dust, said cover of dust internal-internal and master cock corresponding section are provided with projection.

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